Trogocytosis is a rapid transfer between cells of membranes and associated proteins. Trogocytic exchanges have been investigated between different cell types, mainly in two-cell systems, involving one donor and one ac...Trogocytosis is a rapid transfer between cells of membranes and associated proteins. Trogocytic exchanges have been investigated between different cell types, mainly in two-cell systems, involving one donor and one acceptor cell type. Here, we studied trogocytosis in a more complex system, involving not only several immune cell subsets but also multiple tumor cells. We show that CD4~ T cells, CD8+ T cells and monocytes can acquire membrane patches and the intact proteins they contain from different tumor cells by multiple simultaneous trogocytoses. The trogocytic ca- pabilities of CD4~ and CD8~ T cells were found to be similar, but inferior to that of autologous monocytes. Activated peripheral-blood mononuclear cells (PBMCs) may also exchange membranes between themselves in an all-autolo- gous system. For this reason, monocytes are capable of acquiring membranes from multiple tumor cell sources, and transfer them again to autologous T cells, along with some of their own membranes (serial trogocytosis). Our data illustrate the extent of membrane exchanges between autologous activated immune effector cells and their environ- ment, and how the cellular content of the local environment, including "bystander" cells, may impact the functions of immune effector cells.展开更多
Recent studies have revealed that the γ-chain of theIL-2 receptor is shared by the receptors for IL-4, IL7, IL-9, IL-13, and IL-15, and it is therefore also referred toas the common γ-chain (γc). Mutations of γc r...Recent studies have revealed that the γ-chain of theIL-2 receptor is shared by the receptors for IL-4, IL7, IL-9, IL-13, and IL-15, and it is therefore also referred toas the common γ-chain (γc). Mutations of γc result inX-linked severe combined immunodeficiency syndrome inhumans, indicating that rye is essential for normal development and function of the immune system. We demonstratethat human hematopoietic cells express two γc transcriptsdiffering in their carboxyl terminal coding region. Onetranscript is the previously reported sequence (γc-long),whereas the newly identified sequence exhibits a deletion of72 nucleotides close to the 3’-end of the open reading frame(γc-short). This alteration predicts a loss of 24 amino acidsincluding a conserved tyrosine residue which is shared byseveral members of the cytokine receptor family. Thepresence of these two distinct forms of rye transcripts wasdemonstrated by sequencing of reversely transcribed andpolymerase chain reaction (RT-PCR) amplified mRNA, restriction digestion of the RT-PCR products, RNAse protection, and Northern blotting from human cell lines andhuman peripheral blood lymphocytes. Furthermore, thetwo variants were present in peripheral blood lymphocytesfrom both female and male donors, which rules out allelicvariants since rye is a single copy gene located on the Xchromosome. A truncation mutant at a site near the observed changes in γc-short has been reported by othersto alter biochemical events activated by cytokines. Thiscombined with the loss of a potential SH2 "docking" sitein γc-short suggests that γc-long and γc-short may link todifferent signaling pathways and may play an importantrole in determining the cellular response to IL-2, IL-4, IL-7, IL-9, IL-13, IL-15.展开更多
Powered by the mitochondrial membrane potential,Ca2+ permeates the mitochondria via a Ca2+ channel termed Ca2+ uniporter and is pumped out by a Na+/Ca2+ exchanger,both of which are located on the inner mitochondrial m...Powered by the mitochondrial membrane potential,Ca2+ permeates the mitochondria via a Ca2+ channel termed Ca2+ uniporter and is pumped out by a Na+/Ca2+ exchanger,both of which are located on the inner mitochondrial membrane.Mitochondrial Ca2+ transients are critical for metabolic activity and regulating global Ca2+ responses.On the other hand,failure to control mitochondrial Ca2+ is a hallmark of ischemic and neurodegenerative diseases.Despite their importance,identifying the uniporter and exchanger remains elusive and their inhibitors are non-specific.This review will focus on the mitochondrial exchanger,initially describing how it was molecularly identified and linked to a novel member of the Na+/Ca2+ exchanger superfamily termed NCLX.Molecular control of NCLX expression provides a selective tool to determine its physiological role in a variety of cell types.In lymphocytes,NCLX is essential for refilling the endoplasmic reticulum Ca2+ stores required for antigen-dependent signaling.Communication of NCLX with the store-operated channel in astroglia controls Ca2+ influx and thereby neuro-transmitter release and cell proliferation.The refilling of the Ca2+ stores in the sarcoplasmic reticulum,which is controlled by NCLX,determines the frequency of action potential and Ca2+ transients in cardiomyocytes.NCLX is emerging as a hub for integrating glucose-dependent Na+ and Ca2+ signaling in pancreatic β cells,and the specific molecular control of NCLX expression resolved the controversy regarding its role in neurons and β cells.Future studies on an NCLX knockdown mouse model and identification of human NCLX mutations are expected to determine the role of mitochondrial Ca2+ efflux in organ activity and whether NCLX inactivation is linked to ischemic and/or neurodegenerative syndromes.Structure-function analysis and protein analysis will identify the NCLX mode of regulation and its partners in the inner membrane of the mitochondria.展开更多
Embryonic stem cells(ESCs)are pluripotent and can self-assemble to form cell clusters or embryoid bodies(EBs),which can then differentiate into all cell types of the three germ layers,as among which one is the pri...Embryonic stem cells(ESCs)are pluripotent and can self-assemble to form cell clusters or embryoid bodies(EBs),which can then differentiate into all cell types of the three germ layers,as among which one is the primordial germ cell(PGCs)(Daley,2007).In vivo PGCs are the gamete founder cells(the ooctyes and sperms),which transmit genetic information from one generation to the next generation to maintain mammalian life cycles.About 15%of couples in China are infertile;展开更多
文摘Trogocytosis is a rapid transfer between cells of membranes and associated proteins. Trogocytic exchanges have been investigated between different cell types, mainly in two-cell systems, involving one donor and one acceptor cell type. Here, we studied trogocytosis in a more complex system, involving not only several immune cell subsets but also multiple tumor cells. We show that CD4~ T cells, CD8+ T cells and monocytes can acquire membrane patches and the intact proteins they contain from different tumor cells by multiple simultaneous trogocytoses. The trogocytic ca- pabilities of CD4~ and CD8~ T cells were found to be similar, but inferior to that of autologous monocytes. Activated peripheral-blood mononuclear cells (PBMCs) may also exchange membranes between themselves in an all-autolo- gous system. For this reason, monocytes are capable of acquiring membranes from multiple tumor cell sources, and transfer them again to autologous T cells, along with some of their own membranes (serial trogocytosis). Our data illustrate the extent of membrane exchanges between autologous activated immune effector cells and their environ- ment, and how the cellular content of the local environment, including "bystander" cells, may impact the functions of immune effector cells.
文摘Recent studies have revealed that the γ-chain of theIL-2 receptor is shared by the receptors for IL-4, IL7, IL-9, IL-13, and IL-15, and it is therefore also referred toas the common γ-chain (γc). Mutations of γc result inX-linked severe combined immunodeficiency syndrome inhumans, indicating that rye is essential for normal development and function of the immune system. We demonstratethat human hematopoietic cells express two γc transcriptsdiffering in their carboxyl terminal coding region. Onetranscript is the previously reported sequence (γc-long),whereas the newly identified sequence exhibits a deletion of72 nucleotides close to the 3’-end of the open reading frame(γc-short). This alteration predicts a loss of 24 amino acidsincluding a conserved tyrosine residue which is shared byseveral members of the cytokine receptor family. Thepresence of these two distinct forms of rye transcripts wasdemonstrated by sequencing of reversely transcribed andpolymerase chain reaction (RT-PCR) amplified mRNA, restriction digestion of the RT-PCR products, RNAse protection, and Northern blotting from human cell lines andhuman peripheral blood lymphocytes. Furthermore, thetwo variants were present in peripheral blood lymphocytesfrom both female and male donors, which rules out allelicvariants since rye is a single copy gene located on the Xchromosome. A truncation mutant at a site near the observed changes in γc-short has been reported by othersto alter biochemical events activated by cytokines. Thiscombined with the loss of a potential SH2 "docking" sitein γc-short suggests that γc-long and γc-short may link todifferent signaling pathways and may play an importantrole in determining the cellular response to IL-2, IL-4, IL-7, IL-9, IL-13, IL-15.
文摘Powered by the mitochondrial membrane potential,Ca2+ permeates the mitochondria via a Ca2+ channel termed Ca2+ uniporter and is pumped out by a Na+/Ca2+ exchanger,both of which are located on the inner mitochondrial membrane.Mitochondrial Ca2+ transients are critical for metabolic activity and regulating global Ca2+ responses.On the other hand,failure to control mitochondrial Ca2+ is a hallmark of ischemic and neurodegenerative diseases.Despite their importance,identifying the uniporter and exchanger remains elusive and their inhibitors are non-specific.This review will focus on the mitochondrial exchanger,initially describing how it was molecularly identified and linked to a novel member of the Na+/Ca2+ exchanger superfamily termed NCLX.Molecular control of NCLX expression provides a selective tool to determine its physiological role in a variety of cell types.In lymphocytes,NCLX is essential for refilling the endoplasmic reticulum Ca2+ stores required for antigen-dependent signaling.Communication of NCLX with the store-operated channel in astroglia controls Ca2+ influx and thereby neuro-transmitter release and cell proliferation.The refilling of the Ca2+ stores in the sarcoplasmic reticulum,which is controlled by NCLX,determines the frequency of action potential and Ca2+ transients in cardiomyocytes.NCLX is emerging as a hub for integrating glucose-dependent Na+ and Ca2+ signaling in pancreatic β cells,and the specific molecular control of NCLX expression resolved the controversy regarding its role in neurons and β cells.Future studies on an NCLX knockdown mouse model and identification of human NCLX mutations are expected to determine the role of mitochondrial Ca2+ efflux in organ activity and whether NCLX inactivation is linked to ischemic and/or neurodegenerative syndromes.Structure-function analysis and protein analysis will identify the NCLX mode of regulation and its partners in the inner membrane of the mitochondria.
文摘Embryonic stem cells(ESCs)are pluripotent and can self-assemble to form cell clusters or embryoid bodies(EBs),which can then differentiate into all cell types of the three germ layers,as among which one is the primordial germ cell(PGCs)(Daley,2007).In vivo PGCs are the gamete founder cells(the ooctyes and sperms),which transmit genetic information from one generation to the next generation to maintain mammalian life cycles.About 15%of couples in China are infertile;
