A key issue to be addressed in stem cell biology is the molecular signaling mechanism controlling embryonic stem (ES) cell pluripotency. Stem cell properties are dictated by specific transcription factors and epigen...A key issue to be addressed in stem cell biology is the molecular signaling mechanism controlling embryonic stem (ES) cell pluripotency. Stem cell properties are dictated by specific transcription factors and epigenetic processes such as DNA methylation and chromatin remodeling. Several cytokines/growth factors have been identified as critical ES cell regulators. However, there is a gap in our knowledge of the intracellular signaling pathways linking extracellular signals to transcriptional regulation in ES cells. This short review discusses the physiological role of Shp2, a cytoplasmic tyro- sine phosphatase, in the molecular switch governing ES cell self-renewal versus differentiation. Shp2 promotes ES cell differentiation, mainly through bi-directional modulation of Erk and Stat3 pathways. Deletion of Shp2 in mouse ES cells results in more efficient self-renewal. This observation provides the impetus to develop Shp2 inhibitors for maintenance and amplification of ES cells in culture.展开更多
Objective To explore the possible role of voltage-gated potassium channel-interacting protein 1 (KChIP1) in the pathogenesis of epilepsy. Methods Sprague Dawley female adult rats were treated with pentylenettrazole (P...Objective To explore the possible role of voltage-gated potassium channel-interacting protein 1 (KChIP1) in the pathogenesis of epilepsy. Methods Sprague Dawley female adult rats were treated with pentylenettrazole (PTZ) to develop acute and chronic epilepsy models. The approximate coronal sections of normal and epilepsy rat brain were processed for immunohistochemistry. Double-labeling confocal microscopy was used to determine the coexistence of KChIP1 and gamma-aminobutyric acid (GABA). Results KChIP1 was expressed abundantly throughout adult rat brain. KChIP1 is highly co-localize with GABA transmitter in hippocampus and cerebral cortex. In the acute PTZ-induced convulsive rats, the number of KChIP1-postive cells was significantly increased especially in the regions of CA1 and CA3 (P < 0.05); whereas the chronic PTZ-induced convulsive rats were found no changes. The number of GABA-labeled and co-labeled neurons in the hippocampus appeared to have no significant alteration responding to the epilepsy-genesis treatments. Conclusion KChIP1 might be involved in the PTZ-induced epileptogenesis process as a regulator to neuronal excitability through influencing the properties of potassium channels. KChIP1 is preferentially expressed in GABAergic neurons, but its changes did not couple with GABA in the epileptic models.展开更多
A major portion of the beneficial effect of mesenchymal stem cells (MSC) is due to the production of trophic and angiogenic factors by these cells, and one of the efforts to improve the therapeutic efficacy of these c...A major portion of the beneficial effect of mesenchymal stem cells (MSC) is due to the production of trophic and angiogenic factors by these cells, and one of the efforts to improve the therapeutic efficacy of these cells lies in enhancing this capacity. Since there is complement activation in all areas of tissue injury, and both C3a and C5a activate MSC, it was asked whether stimulation with C3a or C5a would upregulate the production of trophic factors by MSC. C3a caused significant up-regulation of various angiogenic factors, including VEGF, CXCL8/IL-8 and IL-6. In contrast there was no detectable production of the pro-inflammatory cytokines TNF-α and IL-1β in spite of nuclear translocation of NFκB. Although C5a also caused moderate up-regulation of angiogenic factors, the effect was borderline significant. Furthermore the production of angiogenic factors induced by C3a was of physiological relevance: Supernatants of MSCs cultured under serum-free conditions induced minimal tube formation of HUVECs as an in vitro measure of angiogenesis;tube formation was considerably enhanced, when supernatants from C3a-stimulated MSC were used, while C3a itself had no direct angiogenic effect on HUVECs. The signaling cascade responsible for the production of angiogenic factors by C3a or C5a could be defined as activation of the rho cascade which was necessary for nuclear translocation of NFκB p65 and of phospho-ERK1/2. Although rho was only transiently activated, inhibition of the rho or “downstream of it” of the NFκB pathway, prevented C3a-and C5a-induced up-regulation of angiogenic factors.展开更多
We present the clinical, molecular, and biochemical diagnosis of a patient with congenital disorder of glycosylation (CDG)-Ih. We report significant brain dysfunction in this multisystem disease, further expanding its...We present the clinical, molecular, and biochemical diagnosis of a patient with congenital disorder of glycosylation (CDG)-Ih. We report significant brain dysfunction in this multisystem disease, further expanding its complex clinical spectrum.展开更多
We describe a case of congenital disorder of glycosylation with chronic diarrhea, progressive liver cirrhosis, and recurrent infections. Transferrin analysis showed only hyposialylation, but analysis of total serum N-...We describe a case of congenital disorder of glycosylation with chronic diarrhea, progressive liver cirrhosis, and recurrent infections. Transferrin analysis showed only hyposialylation, but analysis of total serum N-glycans indicated loss of additional sugars, arguing that the latter generates a more informative picture to search for the primary defect.展开更多
Hearing impairment(HI)affects 1/1000 children and over 2%of the aged population.We have previously reported that mutations in the gene encoding gap junction protein connexin-31(Cx31)are associated with HI.The patholog...Hearing impairment(HI)affects 1/1000 children and over 2%of the aged population.We have previously reported that mutations in the gene encoding gap junction protein connexin-31(Cx31)are associated with HI.The pathological mechanism of the disease mutations remains unknown.Here,we show that expression of Cx31 in the mouse inner ear is developmentally regulated with a high level in adult inner hair cells and spiral ganglion neurons that are critical for the hearing process.In transfected cells,wild type Cx31 protein(Cx31wt)forms functional gap junction at cell-cell-contacts.In contrast,two HIassociated Cx31 mutants,Cx31R180X and Cx31E183K resided primarily in the ER and Golgi-like intracellular punctate structures,respectively,and failed to mediate lucifer yellow transfer.Expression of Cx31 mutants but not Cx31wt leads to upregulation of and increased association with the ER chaperone BiP indicating ER stress induction.Together,the HI-associated Cx31 mutants are impaired in trafficking,promote ER stress,and hence lose the ability to assemble functional gap junctions.The study reveals a potential pathological mechanism of HI-associated Cx31 mutations.展开更多
Since cell signal transduction plays an important role in disclosing the nature of human diseases, the pathogenesis of viruses may result from the disturbance of intracellular signal cascades caused by viral proteins....Since cell signal transduction plays an important role in disclosing the nature of human diseases, the pathogenesis of viruses may result from the disturbance of intracellular signal cascades caused by viral proteins. Hepatitis C virus (HCV) is a main causative agent of severe human liver disorders worldwide. So far, the mechanisms of HCV pathogenicity remain unclear. Envelope protein 2 (E2) of HCV is thought to be responsible for initiating virus attachment to host cells, which is a prerequisite of HCV infection. We assume that some early events of HCV pathogenic effects may result from the interaction of HCV E2 protein with its cellular receptor (human CD81), which could regulate cell proliferation and differentiation. To test this hypothesis, the effects of HCV E2 protein on MAPK/ERK pathway in Molt-4 and U937 cells with or without human CD81 expression were investigated. The results showed that HCV E2 protein could specifically activate the MAPK/ERK pathway, and such activation was inhibited by monoclonal antibodies against CD81 or HCV E2, serum antibodies from HCV infected patients, and upstream MEK1 inhibitor PD98059. Moreover, HCV E2-driven MAPK/ERK or downstream transcription factor Elk-1 activation was completely blocked in the presence of PD98059. These findings strongly suggest that the regulation of transmembrane signaling by HCV E2 protein via its receptor(s) on host cells might contribute to the development of HCV-related diseases.展开更多
基金supported by grants from National Basic Research Program of China(2004CB518601, 2004CB518800)The National Natural Science Foundation of China (30730052, 30630062)~~
文摘A key issue to be addressed in stem cell biology is the molecular signaling mechanism controlling embryonic stem (ES) cell pluripotency. Stem cell properties are dictated by specific transcription factors and epigenetic processes such as DNA methylation and chromatin remodeling. Several cytokines/growth factors have been identified as critical ES cell regulators. However, there is a gap in our knowledge of the intracellular signaling pathways linking extracellular signals to transcriptional regulation in ES cells. This short review discusses the physiological role of Shp2, a cytoplasmic tyro- sine phosphatase, in the molecular switch governing ES cell self-renewal versus differentiation. Shp2 promotes ES cell differentiation, mainly through bi-directional modulation of Erk and Stat3 pathways. Deletion of Shp2 in mouse ES cells results in more efficient self-renewal. This observation provides the impetus to develop Shp2 inhibitors for maintenance and amplification of ES cells in culture.
基金National Nature Science Foundation of China (No. 30370503 and No. 30570642).
文摘Objective To explore the possible role of voltage-gated potassium channel-interacting protein 1 (KChIP1) in the pathogenesis of epilepsy. Methods Sprague Dawley female adult rats were treated with pentylenettrazole (PTZ) to develop acute and chronic epilepsy models. The approximate coronal sections of normal and epilepsy rat brain were processed for immunohistochemistry. Double-labeling confocal microscopy was used to determine the coexistence of KChIP1 and gamma-aminobutyric acid (GABA). Results KChIP1 was expressed abundantly throughout adult rat brain. KChIP1 is highly co-localize with GABA transmitter in hippocampus and cerebral cortex. In the acute PTZ-induced convulsive rats, the number of KChIP1-postive cells was significantly increased especially in the regions of CA1 and CA3 (P < 0.05); whereas the chronic PTZ-induced convulsive rats were found no changes. The number of GABA-labeled and co-labeled neurons in the hippocampus appeared to have no significant alteration responding to the epilepsy-genesis treatments. Conclusion KChIP1 might be involved in the PTZ-induced epileptogenesis process as a regulator to neuronal excitability through influencing the properties of potassium channels. KChIP1 is preferentially expressed in GABAergic neurons, but its changes did not couple with GABA in the epileptic models.
文摘A major portion of the beneficial effect of mesenchymal stem cells (MSC) is due to the production of trophic and angiogenic factors by these cells, and one of the efforts to improve the therapeutic efficacy of these cells lies in enhancing this capacity. Since there is complement activation in all areas of tissue injury, and both C3a and C5a activate MSC, it was asked whether stimulation with C3a or C5a would upregulate the production of trophic factors by MSC. C3a caused significant up-regulation of various angiogenic factors, including VEGF, CXCL8/IL-8 and IL-6. In contrast there was no detectable production of the pro-inflammatory cytokines TNF-α and IL-1β in spite of nuclear translocation of NFκB. Although C5a also caused moderate up-regulation of angiogenic factors, the effect was borderline significant. Furthermore the production of angiogenic factors induced by C3a was of physiological relevance: Supernatants of MSCs cultured under serum-free conditions induced minimal tube formation of HUVECs as an in vitro measure of angiogenesis;tube formation was considerably enhanced, when supernatants from C3a-stimulated MSC were used, while C3a itself had no direct angiogenic effect on HUVECs. The signaling cascade responsible for the production of angiogenic factors by C3a or C5a could be defined as activation of the rho cascade which was necessary for nuclear translocation of NFκB p65 and of phospho-ERK1/2. Although rho was only transiently activated, inhibition of the rho or “downstream of it” of the NFκB pathway, prevented C3a-and C5a-induced up-regulation of angiogenic factors.
文摘We present the clinical, molecular, and biochemical diagnosis of a patient with congenital disorder of glycosylation (CDG)-Ih. We report significant brain dysfunction in this multisystem disease, further expanding its complex clinical spectrum.
文摘We describe a case of congenital disorder of glycosylation with chronic diarrhea, progressive liver cirrhosis, and recurrent infections. Transferrin analysis showed only hyposialylation, but analysis of total serum N-glycans indicated loss of additional sugars, arguing that the latter generates a more informative picture to search for the primary defect.
基金supported by grants from the Chinese National Science Foundation(ZZ,KX,DLW)the NIH/NIDCD(ZZ).
文摘Hearing impairment(HI)affects 1/1000 children and over 2%of the aged population.We have previously reported that mutations in the gene encoding gap junction protein connexin-31(Cx31)are associated with HI.The pathological mechanism of the disease mutations remains unknown.Here,we show that expression of Cx31 in the mouse inner ear is developmentally regulated with a high level in adult inner hair cells and spiral ganglion neurons that are critical for the hearing process.In transfected cells,wild type Cx31 protein(Cx31wt)forms functional gap junction at cell-cell-contacts.In contrast,two HIassociated Cx31 mutants,Cx31R180X and Cx31E183K resided primarily in the ER and Golgi-like intracellular punctate structures,respectively,and failed to mediate lucifer yellow transfer.Expression of Cx31 mutants but not Cx31wt leads to upregulation of and increased association with the ER chaperone BiP indicating ER stress induction.Together,the HI-associated Cx31 mutants are impaired in trafficking,promote ER stress,and hence lose the ability to assemble functional gap junctions.The study reveals a potential pathological mechanism of HI-associated Cx31 mutations.
基金supported by the National Natural Science Foundation of China(Grant No.30170514)the State 863 High Technology R&D Project of China(No.2002AA214161).
文摘Since cell signal transduction plays an important role in disclosing the nature of human diseases, the pathogenesis of viruses may result from the disturbance of intracellular signal cascades caused by viral proteins. Hepatitis C virus (HCV) is a main causative agent of severe human liver disorders worldwide. So far, the mechanisms of HCV pathogenicity remain unclear. Envelope protein 2 (E2) of HCV is thought to be responsible for initiating virus attachment to host cells, which is a prerequisite of HCV infection. We assume that some early events of HCV pathogenic effects may result from the interaction of HCV E2 protein with its cellular receptor (human CD81), which could regulate cell proliferation and differentiation. To test this hypothesis, the effects of HCV E2 protein on MAPK/ERK pathway in Molt-4 and U937 cells with or without human CD81 expression were investigated. The results showed that HCV E2 protein could specifically activate the MAPK/ERK pathway, and such activation was inhibited by monoclonal antibodies against CD81 or HCV E2, serum antibodies from HCV infected patients, and upstream MEK1 inhibitor PD98059. Moreover, HCV E2-driven MAPK/ERK or downstream transcription factor Elk-1 activation was completely blocked in the presence of PD98059. These findings strongly suggest that the regulation of transmembrane signaling by HCV E2 protein via its receptor(s) on host cells might contribute to the development of HCV-related diseases.
