Objective: To investigate the development and distribution of phosphate-activated glutaminase like immunoreactive (PAG-LI) neurons in the central pathway of trigeminal proprioception of the rat brainstem. Methods: The...Objective: To investigate the development and distribution of phosphate-activated glutaminase like immunoreactive (PAG-LI) neurons in the central pathway of trigeminal proprioception of the rat brainstem. Methods: The immunohistochemitry techniques were used. Results: (1) At embryonic day 17 (E17), PAG-LI neurons were initially observed in the mesencephalic trigeminal nucleus (Vme). All PAG-LI neurons were large round neurons with moderate immunostaining. The immunoreactivity grew intense and attained adult-like pattern at P10. (2) Not until postnatal day 10 (P10) did a few PAG-LI neurons appear in the area ven-tral to the motor trigeminal nucleus (AVM) and area dorsal to the superior olivery nucleus (ADO), and not until P12 in the dorsomedial part of the subnucleus oralis of the spinal trigeminal nucleus (Vodm) and dorso-medial part of the principal sensory trigeminal nucleus (Vpdm). As development proceeded, more and more neurons in them were immunostained, and some PAG-LI neurons were detected in the lateral reticular forma-tion adjacent to the Vodm(LRF)and the caudolateral part of the supratrigeminal nucleus (Vsup-CL) at P21. Conclusion: In the central pathway of trigeminal proprioception of the rat brainstem, PAG-LI neurons ap-peared during two stages: The first stage from E17 to P10, PAG-LI neurons appeared in the Vme and reached adult-like pattern; the second stage from P10 to P21, PAG-LI neurons appeared in the Vodm, LRF, Vpdm, Vsup-CL, ADO, AVM and gradually reached adult-like pattern. This might be relative to the estab-lishment of jaw movement patterns.展开更多
Fructose and glucose are often widely used in food processing and may contribute to many metabolic diseases.To observe the effects of different doses of glucose and fructose on human metabolism and cellular communicat...Fructose and glucose are often widely used in food processing and may contribute to many metabolic diseases.To observe the effects of different doses of glucose and fructose on human metabolism and cellular communication,volunteers were given low,medium,and high doses of glucose and fructose.Serum cytokines,glucose,lactate,nicotinamide adenine dinucleotide(NADH)and metabolic enzymes were assayed,and central carbon metabolic pathway networks and cytokine communication networks were constructed.The results showed that the glucose and fructose groups basically maintained the trend of decreasing catabolism and increasing anabolism with increasing dose.Compared with glucose,low-dose fructose decreased catabolism and increased anabolism,significantly enhanced the expression of the inflammatory cytokine interferon-γ(IFN-γ),macrophage-derived chemokine(MDC),induced protein-10(IP-10),and eotaxin,and significantly reduced the activity of isocitrate dehydrogenase(ICDH)and pyruvate dehydrogenase complexes(PDHC).Both medium and high doses of fructose increase catabolism and anabolism,and there are more cytokines and enzymes with significant changes.Furthermore,multiple cytokines and enzymes show strong relevance to metabolic regulation by altering the transcription and expression of enzymes in central carbon metabolic pathways.Therefore,excessive intake of fructose should be reduced to avoid excessive inflammatory responses,allergic reactions and autoimmune diseases.展开更多
For the mammalian brain to process and decipher the rich panoply of sounds that abound in the world, nature has evolved an elegant collection of neural circuits dedicated to this task. Indeed, the complexity, variety ...For the mammalian brain to process and decipher the rich panoply of sounds that abound in the world, nature has evolved an elegant collection of neural circuits dedicated to this task. Indeed, the complexity, variety and number of neural pathways devoted to computing auditory information is unique among sensory modalities (Kaas, 2008). After the initial sensorineural encoding of sound at the level of the cochlea, auditory information is processed in several lower brainstem centers and eventually converges in the midbrain, at the level of the inferior colliculus (Wenstrup, 2005), Subsequently, auditory information is transferred through the thalamus, the medial geniculate body, and then the auditory cortex (Winer et al., 2005; Razak and Fuzessery, 2010; Hackett, 2011; Lee and Sherman, 2011; Lee and Winer, 2011;展开更多
Multiple sclerosis is a chronic companied by demyelination inflammatory disease that is ac- and axonal damage resulting in neurological deficits. Remyelination is the natural endogenous repair mechanism of demyelinate...Multiple sclerosis is a chronic companied by demyelination inflammatory disease that is ac- and axonal damage resulting in neurological deficits. Remyelination is the natural endogenous repair mechanism of demyelinated axons and it is supposed to protect axons/neurons from degeneration and thus the patient from progressive disability (Franklin and Ffrench-Constant, 2008). Current therapeutics for patients with multiple sclerosis are to some extent very effective in inhibiting neuroinflamma- tion and demyelination. However, to date there are no substanc- es available that can enhance remyelination. Remyelination is the result of recruitment/proliferation of new oligodendrocyte precursor cells (OPC) and differentiation into mature myelin producing oligodendrocytes (Franklin and Ffrench-Constant, 2008). These processes are supported by many factors and signals and failure at any stage might lead to repair failure. Strategies to enhance myelin repair are either the promotion of endogenous repair mechanisms via modulation of OPC prolif- eration and oligodendrocyte differentiation or the transplantion of myelinating cells into lesions. Due to the multiloculated pro- cess in multiple sclerosis and the ethical problems with the cell source, the latter is less favoured. The endogenous promotion of remvelination could be achieved by several approaches such as:展开更多
基金the National Nature Science Foundation of China (No. 39870262) by Foundation for University Key Teacher by the Ministry of Education of China
文摘Objective: To investigate the development and distribution of phosphate-activated glutaminase like immunoreactive (PAG-LI) neurons in the central pathway of trigeminal proprioception of the rat brainstem. Methods: The immunohistochemitry techniques were used. Results: (1) At embryonic day 17 (E17), PAG-LI neurons were initially observed in the mesencephalic trigeminal nucleus (Vme). All PAG-LI neurons were large round neurons with moderate immunostaining. The immunoreactivity grew intense and attained adult-like pattern at P10. (2) Not until postnatal day 10 (P10) did a few PAG-LI neurons appear in the area ven-tral to the motor trigeminal nucleus (AVM) and area dorsal to the superior olivery nucleus (ADO), and not until P12 in the dorsomedial part of the subnucleus oralis of the spinal trigeminal nucleus (Vodm) and dorso-medial part of the principal sensory trigeminal nucleus (Vpdm). As development proceeded, more and more neurons in them were immunostained, and some PAG-LI neurons were detected in the lateral reticular forma-tion adjacent to the Vodm(LRF)and the caudolateral part of the supratrigeminal nucleus (Vsup-CL) at P21. Conclusion: In the central pathway of trigeminal proprioception of the rat brainstem, PAG-LI neurons ap-peared during two stages: The first stage from E17 to P10, PAG-LI neurons appeared in the Vme and reached adult-like pattern; the second stage from P10 to P21, PAG-LI neurons appeared in the Vodm, LRF, Vpdm, Vsup-CL, ADO, AVM and gradually reached adult-like pattern. This might be relative to the estab-lishment of jaw movement patterns.
基金financially supported by National Natural Science Foundation of China(31901782)。
文摘Fructose and glucose are often widely used in food processing and may contribute to many metabolic diseases.To observe the effects of different doses of glucose and fructose on human metabolism and cellular communication,volunteers were given low,medium,and high doses of glucose and fructose.Serum cytokines,glucose,lactate,nicotinamide adenine dinucleotide(NADH)and metabolic enzymes were assayed,and central carbon metabolic pathway networks and cytokine communication networks were constructed.The results showed that the glucose and fructose groups basically maintained the trend of decreasing catabolism and increasing anabolism with increasing dose.Compared with glucose,low-dose fructose decreased catabolism and increased anabolism,significantly enhanced the expression of the inflammatory cytokine interferon-γ(IFN-γ),macrophage-derived chemokine(MDC),induced protein-10(IP-10),and eotaxin,and significantly reduced the activity of isocitrate dehydrogenase(ICDH)and pyruvate dehydrogenase complexes(PDHC).Both medium and high doses of fructose increase catabolism and anabolism,and there are more cytokines and enzymes with significant changes.Furthermore,multiple cytokines and enzymes show strong relevance to metabolic regulation by altering the transcription and expression of enzymes in central carbon metabolic pathways.Therefore,excessive intake of fructose should be reduced to avoid excessive inflammatory responses,allergic reactions and autoimmune diseases.
文摘For the mammalian brain to process and decipher the rich panoply of sounds that abound in the world, nature has evolved an elegant collection of neural circuits dedicated to this task. Indeed, the complexity, variety and number of neural pathways devoted to computing auditory information is unique among sensory modalities (Kaas, 2008). After the initial sensorineural encoding of sound at the level of the cochlea, auditory information is processed in several lower brainstem centers and eventually converges in the midbrain, at the level of the inferior colliculus (Wenstrup, 2005), Subsequently, auditory information is transferred through the thalamus, the medial geniculate body, and then the auditory cortex (Winer et al., 2005; Razak and Fuzessery, 2010; Hackett, 2011; Lee and Sherman, 2011; Lee and Winer, 2011;
文摘Multiple sclerosis is a chronic companied by demyelination inflammatory disease that is ac- and axonal damage resulting in neurological deficits. Remyelination is the natural endogenous repair mechanism of demyelinated axons and it is supposed to protect axons/neurons from degeneration and thus the patient from progressive disability (Franklin and Ffrench-Constant, 2008). Current therapeutics for patients with multiple sclerosis are to some extent very effective in inhibiting neuroinflamma- tion and demyelination. However, to date there are no substanc- es available that can enhance remyelination. Remyelination is the result of recruitment/proliferation of new oligodendrocyte precursor cells (OPC) and differentiation into mature myelin producing oligodendrocytes (Franklin and Ffrench-Constant, 2008). These processes are supported by many factors and signals and failure at any stage might lead to repair failure. Strategies to enhance myelin repair are either the promotion of endogenous repair mechanisms via modulation of OPC prolif- eration and oligodendrocyte differentiation or the transplantion of myelinating cells into lesions. Due to the multiloculated pro- cess in multiple sclerosis and the ethical problems with the cell source, the latter is less favoured. The endogenous promotion of remvelination could be achieved by several approaches such as:
