The cell fate of primordial germ cell(PGC)in zebrafish is pre-determined by maternally deposited germ plasm,which is packaged into ribonucleoprotein complex in oocytes and inherited into PGC-fated cells in embryos.How...The cell fate of primordial germ cell(PGC)in zebrafish is pre-determined by maternally deposited germ plasm,which is packaged into ribonucleoprotein complex in oocytes and inherited into PGC-fated cells in embryos.However,the maternal factors regulating the assembly of germ plasm and PGC development remain poorly understood.In this study,we report that the maternal transcription factor Znf706 regulates the assembly of germ plasm factors into a granule-like structure localized perinuclearly in PGC during migration.Maternal and zygotic mutants of znf706 exhibit deficient germ plasm scattering at the early embryonic stage,decreased PGC numbers with some mislocation during PGC migration,and a lower female ratio in adulthood.Notably,the implementation of Znf706 CUT&Tag and RNA-seq on immature oocytes uncovers that Znf706 in stage I oocytes may promote transcription of several mitochondrial genes in addition to other functions.Hence,we propose that Znf706 is implicated in germ plasm assembly and PGC development in zebrafish.展开更多
Germplasm resources are essential for the sustainable development of biodiversity and husbandry of local chickens, as well as for the breeding and industry of superior quality chickens. Unfortunately, many local and i...Germplasm resources are essential for the sustainable development of biodiversity and husbandry of local chickens, as well as for the breeding and industry of superior quality chickens. Unfortunately, many local and indigenous chicken breeds are at risk of declining numbers, emphasizing the need to conserve breed resources for endangered chickens. Primordial germ cells(PGCs) are crucial for preserving germplasm resources by inheriting genetic information from parents to offspring and ensuring stability of genetic material between germlines. In this study,PGCs were isolated from chicken embryos' gonads and cultured in FAcs medium without feeder cells. Over a period of approximately 40 d, the cells proliferated to a number of up to 10^(6), establishing various cell lines. Particularly, 18 PGC lines were created from Rugao Yellow chicken and Shouguang chicken, with an efficiency ranging from 39.1 to 45%. Furthermore, PGCs that had been cultured for 40 passages exhibited typical PGC characteristics, suchas glycogen staining reaction, and expression of pluripotency and reproductive markers. These results confirmthat PGCs maintain stem cell properties even after long-term in vitro culture. Additionally, PGCs cryopreserved for up to 120 d remained viable, maintained typical PGC morphologies, and possessed stable cell proliferation ability. Through intravascular injection into chicken embryos, green fluorescent protein(GFP)-PGCs were found in the recipient embryos' gonads and could develop into gametes to produce offspring, indicating that even after extended culture, PGCs retain their migratory and lineage-transmitting capabilities. This research offers valuable insights into the in vitro cultivation and preservation of PGCs of Chinese indigenous chickens. The findings of this study can be applied in transgenic chicken production and the preservation of genetic resources of indigenous chicken breeds.展开更多
Primordial germ cells(PGCs)are the precursors of germline that are specified at the embryonic stage.Recent studies reveal that humans employ different mechanisms for PGC specification compared with model organisms suc...Primordial germ cells(PGCs)are the precursors of germline that are specified at the embryonic stage.Recent studies reveal that humans employ different mechanisms for PGC specification compared with model organisms such as mice.Moreover,the specific regulatory machinery remains largely unexplored,mainly due to the inaccessible nature of this complex biological process in humans.Here,we curate and integrate multi-omics data,including 581 RNA-seq,54 ATAC-seq,45 ChIP-seq,and 69 single-cell RNA-seq samples from different stages of human PGC development to recapitulate the precisely controlled and stepwise process,presenting an atlas in the human PGC database(hPGCdb).With these uniformly processed data and integrated analyses,we characterize the potential key transcription factors and regulatory networks governing human germ cell fate.We validate the important roles of some of the key factors in germ cell development by CRISPRi knockdown.We also identify the soma-germline interaction network and discover the involvement of SDC2 and LAMA4 for PGC development,as well as soma-derived NOTCH2 signaling for germ cell differentiation.Taken together,we have built a database for human PGCs(http://43.131.248.15:6882)and demonstrate that hPGCdb enables the identification of the missing pieces of mechanisms governing germline development,including both intrinsic and extrinsic regulatory programs.展开更多
BACKGROUND Suprasellar germinomas are rare intracranial tumors frequently associated with permanent endocrine disorders.We present the clinical picture,treatment,and complications of suprasellar germinoma at pediatric...BACKGROUND Suprasellar germinomas are rare intracranial tumors frequently associated with permanent endocrine disorders.We present the clinical picture,treatment,and complications of suprasellar germinoma at pediatric age which,besides being lifethreatening,has lifelong endocrinological consequences.CASE SUMMARY A 12-year-old female patient was presented having had intensive headaches for three weeks and visual disturbances for six months.An ophthalmological examination revealed bilateral papilledema and a marked loss of vision.Emergency brain magnetic resonance imaging(MRI)showed a suprasellar tumor,involving the infundibulum and the optic chiasm,extending to the third ventricle.Laboratory tests confirmed decreased levels of thyroxine,cortisol,gonadotropins,and insulin-like growth factor 1.Maximal tumor reduction was performed,and immunohistopathology established the diagnosis of suprasellar germinoma.MRI of the spine and cerebrospinal fluid cytology confirmed the localized disease.Adjuvant chemotherapy and radiotherapy were performed according to the SIOP CNS GCT II protocol.A post-treatment MRI showed no residual tumor,but pituitary function had not recovered.Three and a half years after the end of the treatment,the patient is in a complete remission,requiring hormonal replacement therapy,continuous education,and psychological support.CONCLUSION This complex case highlights the importance of timely diagnosis,a multidisciplinary approach,and close follow-up in children with suprasellar germinomas.展开更多
Bone loss caused by ageing has become one of the leading health risk factors worldwide.Wheat germ(WG)is consists of high amounts of bioactive peptides,polyunsaturated fatty acids,and dietary fibre.Currently,WG has bee...Bone loss caused by ageing has become one of the leading health risk factors worldwide.Wheat germ(WG)is consists of high amounts of bioactive peptides,polyunsaturated fatty acids,and dietary fibre.Currently,WG has been proven to possess strong antioxidant and anti-infl ammatory properties.We recently explored the beneficial effects and relevant mechanisms of a WG-rich diet(2.5%and 5%WG,m/m)on bone homeostasis in aged rats.Our results showed that 5%WG supplementation for 12 months effectively attenuated ageing-induced microstructural damage and differentiation activity changes in the femur.The 5%WG supplementation also signifi cantly increased the levels of total antioxidant capacity(T-AOC),glutathione peroxidase(GSH-Px)(P<0.01),and superoxide dismutase(SOD)(P<0.05),and decreased infl ammatory cytokine levels(tumor necrosis factor-α(TNF-α)and interleukin-6(IL-6))(P<0.01).Furthermore,the WG-rich diet reshaped the composition of the gut microbiota,enhancing short-chain fatty acids(SCFAs)-producing microbes and reducing infl ammation-related microbes.In addition,metabolomics analysis showed that 5%WG supplementation improved plasma metabolites related to bone metabolism.Conclusively,our study purports long-term WG-rich diet may preserve bone homeostasis by regulating gut microbiota and plasma metabolites in aged rats.展开更多
[Objective] The paper was to establish embryonic stem cell system of goats. [Method] Numerous primordial germ cell colonies were derived from gonadal ridge and the surrounding tissues in 20 millimeter fetuses of down ...[Objective] The paper was to establish embryonic stem cell system of goats. [Method] Numerous primordial germ cell colonies were derived from gonadal ridge and the surrounding tissues in 20 millimeter fetuses of down producing goat. Primordial germ cells and goats embryonic fibroblasts obtained from conceptus of equivaient gestational age were co-cultured. [Result] The colonies showed some characteristics of embryonic stem cells, such as the morphology of nest-like, they continued to be AKP positive and the ability to be continuously passed [Conclusion] These cells were pluripotent and ES-like cells.展开更多
In many metazoan species, germ cell formation requires the germ plasm, a specialized cytoplasm which often con-tains electron dense structures. Genes required for germ cell formation in Drosophila have been isolated p...In many metazoan species, germ cell formation requires the germ plasm, a specialized cytoplasm which often con-tains electron dense structures. Genes required for germ cell formation in Drosophila have been isolated predominantlyin screens for maternal-effect mutations. One such gene is tudor (tud); without proper tud function germ cell formationdoes not occur. Unlike other genes involved in Drosophila germ cell specification tud is dispensable for other somaticfunctions such as abdominal patterning. It is not known how TUD contributes at a molecular level to germ cell forma-tion but in tud mutants, polar granule formation is severely compromised, and mitochondrially encoded ribosomal RNAsdo not localize to the polar granule. TUD is composed of 11 repeats of the protein motif called the Tudor domain. Thereare similar proteins to TUD in the germ line of other metazoan species including mice. Probable vertebrate orthologuesof Drosophila genes involved in germ cell specification will be discussed.展开更多
Wheat germ protein hydrolysates were prepared by protease hydrolysis, ultrafiltration and dynamical adsorption of resin. The total amount of amino acids in 100 g wheat germ protein hydrolysates is 93.95 g. Wheat germ ...Wheat germ protein hydrolysates were prepared by protease hydrolysis, ultrafiltration and dynamical adsorption of resin. The total amount of amino acids in 100 g wheat germ protein hydrolysates is 93.95 g. Wheat germ protein hydrolysates are primarily composed of 4 fractions: 17.78% in the relative molecular mass range of 115631512, 17.50% in 1512842, 27.38% in 842372 and 30.65% in 37276, respectively. The antioxidant properties of wheat germ protein hydrolysates were evaluated by using different antioxidant tests in vitro. 1.20 g/L wheat germ protein hydrolysates exhibit 78.75% inhibition of peroxidation in linolei acid system; and 1.6g/L wheat germ protein hydrolysates show 81.11% scavenging effect on the 1,1-diphenyl-2-picrylhrazyl radical. The reducing power of 2.50 g/L wheat germ protein hydrolysates is 0.84. Furthermore, the scavenging activity of 0.60 g/L wheat germ protein hydrolysates against superoxide radical is 75.40%; 0.50 g/L wheat germ protein hydrolysates exhibit 63.35% chelating effect on ferrous ion. These antioxidant activities of wheat germ protein hydrolsates increase with the increase of its concentration. Experimental results suggest that wheat germ protein hydrolysate is a suitable natural antioxidant rich in nutrition and nontoxic.展开更多
[Objective] This research aimed to study the FTIR spectra of corn germs and endosperms so as to provide a scientific way for identifying corn of different types. [Method] The corn germs and endosperms of three types w...[Objective] This research aimed to study the FTIR spectra of corn germs and endosperms so as to provide a scientific way for identifying corn of different types. [Method] The corn germs and endosperms of three types were studied by using Fourier transform infrared spectroscopy(FTIR) technology, combined with cluster analysis. [Result] The overall characteristics of original FTIR spectra were basically similar within the range of 700-1 800 cm^-1. The FTIR spectra were mainly composed by the absorption peaks of polysaccharides, proteins and lipids. Within the wavelength range of 700-1 800 cm^-1, there were only tiny differences in original FTIR spectra among the corn germs and endosperms of three different types. The spectra were then processed by using first derivative and second derivative. The second derivative spectra were used for hierarchical cluster analysis(HCA). The results showed that with the wavelength range of 700-1 800 cm^-1, the second derivative spectra of the 52 samples could be better clustered according to the tree types and corn germ and corn endosperm. The clustering correct rate reached 96.1%.[Conclusion] FTIR technology, combined with cluster analysis, can be used to identify different types of corn germs and endosperms, and it is characterized by convenience and rapidness.展开更多
A total of 219 embryonic-germ-cell-like (EG-like) clumps were derived from 15 selected goat fetuses. Isolation of primordial germ cells (PGCs) based on co-culture with primary goat embryonic fibroblast showed no d...A total of 219 embryonic-germ-cell-like (EG-like) clumps were derived from 15 selected goat fetuses. Isolation of primordial germ cells (PGCs) based on co-culture with primary goat embryonic fibroblast showed no difference from traditional feeder layer-based culture method used in mouse and human. The putative primary EG colonies were multilayer clumps of compact cells with unclear cell-cell boundaries. Three subculture methods of goat EG-like colony, traditional enzymatic digestion, mechanical cutting and combination of the both, were compared in this study. As a result, EG-like colonies traditionally disassociated with collagenase 1V could be subcultured for up to 4 passages. And the mechanically disaggregated EG-like colonies were successfully maintained 9-12 passages with or without enzymatic treatment. The pluripotency of the EG-like colonies was identified by their specific marker staining, spontaneous differentiation and embryoid bodies (EBs) formation in vitro. Most goat EG-like colonies (〉 80%) were AKP positive and immunocytochemically characterized with positive SSEA-1, Oct-4 and c-kit staining but SSEA-4. Under the condition of delaying passage, goat EG-like cells could differentiate into fibroblast-like, epithelium-like, and neuron-like cells. In addition, EBs could be obtained successfully in routine hanging drop culture. The serum free culture system (feeder layer-based) used in this study was suitable for keeping PGCs and EG-like cells in their undifferentiated condition, but failed to converse them to immortal cells. These results indicated that mechanical cutting is an effective method for passaging goat EG cell colonies. However, the microenvironment of conversing EG cells to immortal cells is still unclear.展开更多
Understanding the mechanisms of human germ cell biology is important for developing infertility treatments. However, little is known about the mechanisms that regulate human gametogenesis due to the difficulties in co...Understanding the mechanisms of human germ cell biology is important for developing infertility treatments. However, little is known about the mechanisms that regulate human gametogenesis due to the difficulties in collecting samples, especially germ cells during fetal development. In contrast to the mitotic arrest of spermatogonia stem cells in the fetal testis, female germ cells proceed into meiosis and began folliculogenesis in fetal ovaries. Regulations of these developmental events, including the initiation of meiosis and the endowment of primordial follicles, remain an enigma. Studying the molecular mechanisms of female germ cell biology in the human ovary has been mostly limited to spatiotemporal characterizations of genes or proteins. Recent efforts in utilizing in vitro differentiation system of stem cells to derive germ cells have allowed researchers to begin studying molecular mechanisms during human germ cell development. Meanwhile, the possibility of isolating female germline stem cells in adult ovaries also excites researchers and generates many debates. This review will mainly focus on presenting and discussing recent in vivo and in vitro studies on female germ cell biology in human. The topics will highlight the progress made in understanding the three main stages of germ cell developments: namely, primordial germ cell formation, meiotic initiation, and folliculogenesis.展开更多
Germ cells are the only cell type in the body that can transfer genetic information to the next generation. Germline-competent stem cells can self-renew and contribute to the germ cell lineage giving rise to pluripote...Germ cells are the only cell type in the body that can transfer genetic information to the next generation. Germline-competent stem cells can self-renew and contribute to the germ cell lineage giving rise to pluripotent stem cells under specific conditions. Hence far, studies on germline-competent stem cells have contributed to,the generation of avian model systems and the conservation of avian genetic resources. In this review, we focus on previous studies on germline-competent stem cells from avian species, mainly chicken germline-competent stem cells, which have been well established and characterized. We discuss different sources of germline-competent stem cells and recent advances for the future applications in birds.展开更多
Wheat germ meal is the by production of oil extracting, and a great quantity of it has been wasted, thus the quantity of lost protein is great. In order to use wheat germ meal proteins adequately, wheat germ proteins ...Wheat germ meal is the by production of oil extracting, and a great quantity of it has been wasted, thus the quantity of lost protein is great. In order to use wheat germ meal proteins adequately, wheat germ proteins were hydrolyzed to anti-oxidation peptides by using alkaline protease. Through the single factor analysis and regression analysis, the optimized experiment conditions of hydrolysising wheat germ meal to wheat germ peptides were enzymatic quantity 0.8%(w/w), material to liquid ratio 1∶12.3, enzymolysis time 2.1 h. Under these conditions, the scavenging effect was 49.78%,the DH was 22% and peptides content in enzymatic hydrolysate was 1.9%(w/w).By SDS-PAGE electrophoresis,the molecular weight range of wheat germ peptides were below 10 ku and most were between 4.54 and 5.63 ku.The wheat germ proteins could be used ful y and grain resources would be saved.展开更多
The development of germ cell tumors(GCTs)is a unique pathogenesis occurring at an early developmental stage during specification,migration or colonization of primordial germ cells(PGCs)in the genital ridge.Since drive...The development of germ cell tumors(GCTs)is a unique pathogenesis occurring at an early developmental stage during specification,migration or colonization of primordial germ cells(PGCs)in the genital ridge.Since driver mutations could not be identified so far,the involvement of the epigenetic machinery during the pathogenesis seems to play a crucial role.Currently,it is investigated whether epigenetic modifications occurring between the omnipotent two-cell stage and the pluripotent implanting PGCs might result in disturbances eventually leading to GCTs.Although progress in understanding epigenetic mechanisms during PGC development is ongoing,little is known about the complete picture of its involvement during GCT development and eventual classification into clinical subtypes.This review will shed light into the current knowledge of the complex epigenetic and molecular contribution during pathogenesis of GCTs by emphasizing on early developmental stages until arrival of late PGCs in the gonads.We questioned how misguided migrating and/or colonizing PGCs develop to either type Ⅰ or type Ⅱ GCTs.Additionally,we asked how pluripotency can be regulated during PGC development and which epigenetic changes contribute to GCT pathogenesis.We propose that SOX2 and SOX17 determine either embryonic stem cell-like(embryonal carcinoma)or PGC-like cell fate(seminoma).Finally,we suggest that factors secreted by the microenvironment,i.e.BMPs and BMP inhibiting molecules,dictate the fate decision of germ cell neoplasia in situ(into seminoma and embryonal carcinoma)and seminomas(into embryonal carcinoma or extraembryonic lineage),indicating an important role of the microenvironment on GCT plasticity.展开更多
Among young men between the ages of 15 and 40 years,germ cell cancer is the most common solid tumor[1].The worldwide incidence of germ cell cancer is 70000 cases.Compared to all solid tumors of men,germ cell cancer ac...Among young men between the ages of 15 and 40 years,germ cell cancer is the most common solid tumor[1].The worldwide incidence of germ cell cancer is 70000 cases.Compared to all solid tumors of men,germ cell cancer accounts for 1%of all male tumors.Nevertheless,the mortality of this rare tumor entity is about 13%since 9507 patients died worldwide of germ cell cancer.The improvement in survival of germ cell cancer patients is due to a multimodal treatment of germ cell cancer including cisplatin-based chemotherapy and surgery leading to higher cure-rates even in advanced stages[1],whereas the increasing incidence of germ cell cancers cannot be thoroughly explained.In this article we review the current indications for surgery in metastatic germ cell cancers,highlight the strength and weaknesses of techniques and indications and raise the question how to improve surgical treatment in metastatic germ cell cancer.展开更多
Germ cell tumours (GCTs) of the ovary are rare, comprising approximately 20% of all ovarian tumors with the malignant variant accounting for less than 5% of all ovarian neoplasms. Malignant mixed germ cell tumours are...Germ cell tumours (GCTs) of the ovary are rare, comprising approximately 20% of all ovarian tumors with the malignant variant accounting for less than 5% of all ovarian neoplasms. Malignant mixed germ cell tumours are rarer still with dysgerminoma & yolk sac tumour being the most common components with three component variants being categorised in the rarest of rare varieties. Bilateral dysgerminomas occur in 15% of germ cell neoplasms but rarely present with premature ovarian failure. We present the case of an adolescent girl with a short history of abdominal pain and distension with amenorrhoea for a year. Clinical and radio ogical examination revealed a pelvic/adnexal mass with elevation of tumour markers and she had to undergo a staging laparotomy with bilateral salpingo-oophorectomy. Histopatholgy examination was reported as malignant mixed germ cell tumour of left ovary, predominantly with immature teratoma and minor components of yolk-sac tumour and dysgerminoma and right ovary with dysgerminoma. In view of mixed germ cell disease, she was planned for adjuvant chemotherapy.展开更多
基金supported by the National Natural Science Foundation of China(31988101 to A.M.)the National Key Research and Development Program of China(2023YFA1800300 to X.W.and 2018YFC1003304 to A.M.)the Yunnan Provincial Science and Technology Project at Southwest United Graduate School(202302A0370011 to A.M.).
文摘The cell fate of primordial germ cell(PGC)in zebrafish is pre-determined by maternally deposited germ plasm,which is packaged into ribonucleoprotein complex in oocytes and inherited into PGC-fated cells in embryos.However,the maternal factors regulating the assembly of germ plasm and PGC development remain poorly understood.In this study,we report that the maternal transcription factor Znf706 regulates the assembly of germ plasm factors into a granule-like structure localized perinuclearly in PGC during migration.Maternal and zygotic mutants of znf706 exhibit deficient germ plasm scattering at the early embryonic stage,decreased PGC numbers with some mislocation during PGC migration,and a lower female ratio in adulthood.Notably,the implementation of Znf706 CUT&Tag and RNA-seq on immature oocytes uncovers that Znf706 in stage I oocytes may promote transcription of several mitochondrial genes in addition to other functions.Hence,we propose that Znf706 is implicated in germ plasm assembly and PGC development in zebrafish.
基金supported by the National Key Research and Development Program of China (2021YFD1200301 and 2021YFD1200302)the Natural Science Foundation of Jiangsu Province, China (BK20210813)+1 种基金the National Natural Science Foundation of China (32102534)the Yangzhou International Science and Technology Cooperation Projects, China (YZ2021175)。
文摘Germplasm resources are essential for the sustainable development of biodiversity and husbandry of local chickens, as well as for the breeding and industry of superior quality chickens. Unfortunately, many local and indigenous chicken breeds are at risk of declining numbers, emphasizing the need to conserve breed resources for endangered chickens. Primordial germ cells(PGCs) are crucial for preserving germplasm resources by inheriting genetic information from parents to offspring and ensuring stability of genetic material between germlines. In this study,PGCs were isolated from chicken embryos' gonads and cultured in FAcs medium without feeder cells. Over a period of approximately 40 d, the cells proliferated to a number of up to 10^(6), establishing various cell lines. Particularly, 18 PGC lines were created from Rugao Yellow chicken and Shouguang chicken, with an efficiency ranging from 39.1 to 45%. Furthermore, PGCs that had been cultured for 40 passages exhibited typical PGC characteristics, suchas glycogen staining reaction, and expression of pluripotency and reproductive markers. These results confirmthat PGCs maintain stem cell properties even after long-term in vitro culture. Additionally, PGCs cryopreserved for up to 120 d remained viable, maintained typical PGC morphologies, and possessed stable cell proliferation ability. Through intravascular injection into chicken embryos, green fluorescent protein(GFP)-PGCs were found in the recipient embryos' gonads and could develop into gametes to produce offspring, indicating that even after extended culture, PGCs retain their migratory and lineage-transmitting capabilities. This research offers valuable insights into the in vitro cultivation and preservation of PGCs of Chinese indigenous chickens. The findings of this study can be applied in transgenic chicken production and the preservation of genetic resources of indigenous chicken breeds.
基金supported by the National Natural Science Foundation of China awarded to D.C.(32270835)Zhejiang Natural Science Foundation awarded to D.C.(Z22C129553)Dr.Li Dak Sum&Yip Yio Chin Development Fund for Regenerative Medicine,Zhejiang University,awarded to D.C.
文摘Primordial germ cells(PGCs)are the precursors of germline that are specified at the embryonic stage.Recent studies reveal that humans employ different mechanisms for PGC specification compared with model organisms such as mice.Moreover,the specific regulatory machinery remains largely unexplored,mainly due to the inaccessible nature of this complex biological process in humans.Here,we curate and integrate multi-omics data,including 581 RNA-seq,54 ATAC-seq,45 ChIP-seq,and 69 single-cell RNA-seq samples from different stages of human PGC development to recapitulate the precisely controlled and stepwise process,presenting an atlas in the human PGC database(hPGCdb).With these uniformly processed data and integrated analyses,we characterize the potential key transcription factors and regulatory networks governing human germ cell fate.We validate the important roles of some of the key factors in germ cell development by CRISPRi knockdown.We also identify the soma-germline interaction network and discover the involvement of SDC2 and LAMA4 for PGC development,as well as soma-derived NOTCH2 signaling for germ cell differentiation.Taken together,we have built a database for human PGCs(http://43.131.248.15:6882)and demonstrate that hPGCdb enables the identification of the missing pieces of mechanisms governing germline development,including both intrinsic and extrinsic regulatory programs.
文摘BACKGROUND Suprasellar germinomas are rare intracranial tumors frequently associated with permanent endocrine disorders.We present the clinical picture,treatment,and complications of suprasellar germinoma at pediatric age which,besides being lifethreatening,has lifelong endocrinological consequences.CASE SUMMARY A 12-year-old female patient was presented having had intensive headaches for three weeks and visual disturbances for six months.An ophthalmological examination revealed bilateral papilledema and a marked loss of vision.Emergency brain magnetic resonance imaging(MRI)showed a suprasellar tumor,involving the infundibulum and the optic chiasm,extending to the third ventricle.Laboratory tests confirmed decreased levels of thyroxine,cortisol,gonadotropins,and insulin-like growth factor 1.Maximal tumor reduction was performed,and immunohistopathology established the diagnosis of suprasellar germinoma.MRI of the spine and cerebrospinal fluid cytology confirmed the localized disease.Adjuvant chemotherapy and radiotherapy were performed according to the SIOP CNS GCT II protocol.A post-treatment MRI showed no residual tumor,but pituitary function had not recovered.Three and a half years after the end of the treatment,the patient is in a complete remission,requiring hormonal replacement therapy,continuous education,and psychological support.CONCLUSION This complex case highlights the importance of timely diagnosis,a multidisciplinary approach,and close follow-up in children with suprasellar germinomas.
基金supported by the National Natural Science Foundation of China(32172203,81903940,32172139,and 32202001)the Natural Science Foundation of Jiangsu Province of China(BK20220372)+2 种基金the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)the Natural Science Foundation of the Jiangsu Higher Education Institutions of China under Grant(22KJB550003)the Excellent Postdoctoral Program of Jiangsu Province(2022ZB433).
文摘Bone loss caused by ageing has become one of the leading health risk factors worldwide.Wheat germ(WG)is consists of high amounts of bioactive peptides,polyunsaturated fatty acids,and dietary fibre.Currently,WG has been proven to possess strong antioxidant and anti-infl ammatory properties.We recently explored the beneficial effects and relevant mechanisms of a WG-rich diet(2.5%and 5%WG,m/m)on bone homeostasis in aged rats.Our results showed that 5%WG supplementation for 12 months effectively attenuated ageing-induced microstructural damage and differentiation activity changes in the femur.The 5%WG supplementation also signifi cantly increased the levels of total antioxidant capacity(T-AOC),glutathione peroxidase(GSH-Px)(P<0.01),and superoxide dismutase(SOD)(P<0.05),and decreased infl ammatory cytokine levels(tumor necrosis factor-α(TNF-α)and interleukin-6(IL-6))(P<0.01).Furthermore,the WG-rich diet reshaped the composition of the gut microbiota,enhancing short-chain fatty acids(SCFAs)-producing microbes and reducing infl ammation-related microbes.In addition,metabolomics analysis showed that 5%WG supplementation improved plasma metabolites related to bone metabolism.Conclusively,our study purports long-term WG-rich diet may preserve bone homeostasis by regulating gut microbiota and plasma metabolites in aged rats.
基金Supported by Project of Baotou University(BSY2010-23)~~
文摘[Objective] The paper was to establish embryonic stem cell system of goats. [Method] Numerous primordial germ cell colonies were derived from gonadal ridge and the surrounding tissues in 20 millimeter fetuses of down producing goat. Primordial germ cells and goats embryonic fibroblasts obtained from conceptus of equivaient gestational age were co-cultured. [Result] The colonies showed some characteristics of embryonic stem cells, such as the morphology of nest-like, they continued to be AKP positive and the ability to be continuously passed [Conclusion] These cells were pluripotent and ES-like cells.
文摘In many metazoan species, germ cell formation requires the germ plasm, a specialized cytoplasm which often con-tains electron dense structures. Genes required for germ cell formation in Drosophila have been isolated predominantlyin screens for maternal-effect mutations. One such gene is tudor (tud); without proper tud function germ cell formationdoes not occur. Unlike other genes involved in Drosophila germ cell specification tud is dispensable for other somaticfunctions such as abdominal patterning. It is not known how TUD contributes at a molecular level to germ cell forma-tion but in tud mutants, polar granule formation is severely compromised, and mitochondrially encoded ribosomal RNAsdo not localize to the polar granule. TUD is composed of 11 repeats of the protein motif called the Tudor domain. Thereare similar proteins to TUD in the germ line of other metazoan species including mice. Probable vertebrate orthologuesof Drosophila genes involved in germ cell specification will be discussed.
文摘Wheat germ protein hydrolysates were prepared by protease hydrolysis, ultrafiltration and dynamical adsorption of resin. The total amount of amino acids in 100 g wheat germ protein hydrolysates is 93.95 g. Wheat germ protein hydrolysates are primarily composed of 4 fractions: 17.78% in the relative molecular mass range of 115631512, 17.50% in 1512842, 27.38% in 842372 and 30.65% in 37276, respectively. The antioxidant properties of wheat germ protein hydrolysates were evaluated by using different antioxidant tests in vitro. 1.20 g/L wheat germ protein hydrolysates exhibit 78.75% inhibition of peroxidation in linolei acid system; and 1.6g/L wheat germ protein hydrolysates show 81.11% scavenging effect on the 1,1-diphenyl-2-picrylhrazyl radical. The reducing power of 2.50 g/L wheat germ protein hydrolysates is 0.84. Furthermore, the scavenging activity of 0.60 g/L wheat germ protein hydrolysates against superoxide radical is 75.40%; 0.50 g/L wheat germ protein hydrolysates exhibit 63.35% chelating effect on ferrous ion. These antioxidant activities of wheat germ protein hydrolsates increase with the increase of its concentration. Experimental results suggest that wheat germ protein hydrolysate is a suitable natural antioxidant rich in nutrition and nontoxic.
基金Supported by National Natural Science Foundation of China(30960179)Natural Science Foundation of Yunnan Province(2007A048M)~~
文摘[Objective] This research aimed to study the FTIR spectra of corn germs and endosperms so as to provide a scientific way for identifying corn of different types. [Method] The corn germs and endosperms of three types were studied by using Fourier transform infrared spectroscopy(FTIR) technology, combined with cluster analysis. [Result] The overall characteristics of original FTIR spectra were basically similar within the range of 700-1 800 cm^-1. The FTIR spectra were mainly composed by the absorption peaks of polysaccharides, proteins and lipids. Within the wavelength range of 700-1 800 cm^-1, there were only tiny differences in original FTIR spectra among the corn germs and endosperms of three different types. The spectra were then processed by using first derivative and second derivative. The second derivative spectra were used for hierarchical cluster analysis(HCA). The results showed that with the wavelength range of 700-1 800 cm^-1, the second derivative spectra of the 52 samples could be better clustered according to the tree types and corn germ and corn endosperm. The clustering correct rate reached 96.1%.[Conclusion] FTIR technology, combined with cluster analysis, can be used to identify different types of corn germs and endosperms, and it is characterized by convenience and rapidness.
基金supported by the National Programs for High Technology Research and Development of China(2005AA219050)the National Natural Science Foundation of China(30200137).
文摘A total of 219 embryonic-germ-cell-like (EG-like) clumps were derived from 15 selected goat fetuses. Isolation of primordial germ cells (PGCs) based on co-culture with primary goat embryonic fibroblast showed no difference from traditional feeder layer-based culture method used in mouse and human. The putative primary EG colonies were multilayer clumps of compact cells with unclear cell-cell boundaries. Three subculture methods of goat EG-like colony, traditional enzymatic digestion, mechanical cutting and combination of the both, were compared in this study. As a result, EG-like colonies traditionally disassociated with collagenase 1V could be subcultured for up to 4 passages. And the mechanically disaggregated EG-like colonies were successfully maintained 9-12 passages with or without enzymatic treatment. The pluripotency of the EG-like colonies was identified by their specific marker staining, spontaneous differentiation and embryoid bodies (EBs) formation in vitro. Most goat EG-like colonies (〉 80%) were AKP positive and immunocytochemically characterized with positive SSEA-1, Oct-4 and c-kit staining but SSEA-4. Under the condition of delaying passage, goat EG-like cells could differentiate into fibroblast-like, epithelium-like, and neuron-like cells. In addition, EBs could be obtained successfully in routine hanging drop culture. The serum free culture system (feeder layer-based) used in this study was suitable for keeping PGCs and EG-like cells in their undifferentiated condition, but failed to converse them to immortal cells. These results indicated that mechanical cutting is an effective method for passaging goat EG cell colonies. However, the microenvironment of conversing EG cells to immortal cells is still unclear.
文摘Understanding the mechanisms of human germ cell biology is important for developing infertility treatments. However, little is known about the mechanisms that regulate human gametogenesis due to the difficulties in collecting samples, especially germ cells during fetal development. In contrast to the mitotic arrest of spermatogonia stem cells in the fetal testis, female germ cells proceed into meiosis and began folliculogenesis in fetal ovaries. Regulations of these developmental events, including the initiation of meiosis and the endowment of primordial follicles, remain an enigma. Studying the molecular mechanisms of female germ cell biology in the human ovary has been mostly limited to spatiotemporal characterizations of genes or proteins. Recent efforts in utilizing in vitro differentiation system of stem cells to derive germ cells have allowed researchers to begin studying molecular mechanisms during human germ cell development. Meanwhile, the possibility of isolating female germline stem cells in adult ovaries also excites researchers and generates many debates. This review will mainly focus on presenting and discussing recent in vivo and in vitro studies on female germ cell biology in human. The topics will highlight the progress made in understanding the three main stages of germ cell developments: namely, primordial germ cell formation, meiotic initiation, and folliculogenesis.
文摘Germ cells are the only cell type in the body that can transfer genetic information to the next generation. Germline-competent stem cells can self-renew and contribute to the germ cell lineage giving rise to pluripotent stem cells under specific conditions. Hence far, studies on germline-competent stem cells have contributed to,the generation of avian model systems and the conservation of avian genetic resources. In this review, we focus on previous studies on germline-competent stem cells from avian species, mainly chicken germline-competent stem cells, which have been well established and characterized. We discuss different sources of germline-competent stem cells and recent advances for the future applications in birds.
文摘Wheat germ meal is the by production of oil extracting, and a great quantity of it has been wasted, thus the quantity of lost protein is great. In order to use wheat germ meal proteins adequately, wheat germ proteins were hydrolyzed to anti-oxidation peptides by using alkaline protease. Through the single factor analysis and regression analysis, the optimized experiment conditions of hydrolysising wheat germ meal to wheat germ peptides were enzymatic quantity 0.8%(w/w), material to liquid ratio 1∶12.3, enzymolysis time 2.1 h. Under these conditions, the scavenging effect was 49.78%,the DH was 22% and peptides content in enzymatic hydrolysate was 1.9%(w/w).By SDS-PAGE electrophoresis,the molecular weight range of wheat germ peptides were below 10 ku and most were between 4.54 and 5.63 ku.The wheat germ proteins could be used ful y and grain resources would be saved.
文摘The development of germ cell tumors(GCTs)is a unique pathogenesis occurring at an early developmental stage during specification,migration or colonization of primordial germ cells(PGCs)in the genital ridge.Since driver mutations could not be identified so far,the involvement of the epigenetic machinery during the pathogenesis seems to play a crucial role.Currently,it is investigated whether epigenetic modifications occurring between the omnipotent two-cell stage and the pluripotent implanting PGCs might result in disturbances eventually leading to GCTs.Although progress in understanding epigenetic mechanisms during PGC development is ongoing,little is known about the complete picture of its involvement during GCT development and eventual classification into clinical subtypes.This review will shed light into the current knowledge of the complex epigenetic and molecular contribution during pathogenesis of GCTs by emphasizing on early developmental stages until arrival of late PGCs in the gonads.We questioned how misguided migrating and/or colonizing PGCs develop to either type Ⅰ or type Ⅱ GCTs.Additionally,we asked how pluripotency can be regulated during PGC development and which epigenetic changes contribute to GCT pathogenesis.We propose that SOX2 and SOX17 determine either embryonic stem cell-like(embryonal carcinoma)or PGC-like cell fate(seminoma).Finally,we suggest that factors secreted by the microenvironment,i.e.BMPs and BMP inhibiting molecules,dictate the fate decision of germ cell neoplasia in situ(into seminoma and embryonal carcinoma)and seminomas(into embryonal carcinoma or extraembryonic lineage),indicating an important role of the microenvironment on GCT plasticity.
文摘Among young men between the ages of 15 and 40 years,germ cell cancer is the most common solid tumor[1].The worldwide incidence of germ cell cancer is 70000 cases.Compared to all solid tumors of men,germ cell cancer accounts for 1%of all male tumors.Nevertheless,the mortality of this rare tumor entity is about 13%since 9507 patients died worldwide of germ cell cancer.The improvement in survival of germ cell cancer patients is due to a multimodal treatment of germ cell cancer including cisplatin-based chemotherapy and surgery leading to higher cure-rates even in advanced stages[1],whereas the increasing incidence of germ cell cancers cannot be thoroughly explained.In this article we review the current indications for surgery in metastatic germ cell cancers,highlight the strength and weaknesses of techniques and indications and raise the question how to improve surgical treatment in metastatic germ cell cancer.
文摘Germ cell tumours (GCTs) of the ovary are rare, comprising approximately 20% of all ovarian tumors with the malignant variant accounting for less than 5% of all ovarian neoplasms. Malignant mixed germ cell tumours are rarer still with dysgerminoma & yolk sac tumour being the most common components with three component variants being categorised in the rarest of rare varieties. Bilateral dysgerminomas occur in 15% of germ cell neoplasms but rarely present with premature ovarian failure. We present the case of an adolescent girl with a short history of abdominal pain and distension with amenorrhoea for a year. Clinical and radio ogical examination revealed a pelvic/adnexal mass with elevation of tumour markers and she had to undergo a staging laparotomy with bilateral salpingo-oophorectomy. Histopatholgy examination was reported as malignant mixed germ cell tumour of left ovary, predominantly with immature teratoma and minor components of yolk-sac tumour and dysgerminoma and right ovary with dysgerminoma. In view of mixed germ cell disease, she was planned for adjuvant chemotherapy.
