Aberrant O-linked oligosaccharide biosynthesis in lymphocytes and platelets from patients with the Wiskott-Aldrich syndrome

The Wiskott-Aldrich syndrome (WAS) is an X-linked recessive immunodeficiency affecting B lymphocytes, T lymphocytes, and platelets. Previous studies on lymphocytes from WAS patients have revealed that leu-kosialin (CD43), a cell-surface glycoprotein bearing approximately 90 O-linked oligosaccharide chains, shows an aberrant electrophoretic mobility. To determine whether this finding reflects a different pattern of O-linked glycosylation in WAS cells, we have compared healthy individuals and WAS patients with respect to glycosyltransferase activities in T lymphocytes, platelets, and Epstein-Barr virus (EBV)-immortalized B cell lines. Stimulation of peripheral T cells from normal individuals in vitro with anti-CD3 antibodies and interleukin-2 was associated with a 3-fold increase in UDP-GlcNAc:Gal beta 3GalNAc-R (GlcNAc to GalNAc) beta 6-N-acetylglucosaminyltransferase (core 2 GlcNAc-T) from 0.8 to 2.2 nmol/mg/h. In contrast, peripheral T lymphocytes from WAS patients showed an inversion of this phenotype with high core 2 GlcNAc-T activity in unstimulated cells (2.3 nmol/mg/h) and a 2-3-fold decrease in activity following stimulation. Core 2 GlcNAc-T activity was also three times higher in platelets from WAS patients than in normal platelets. Glycosyltransferase activities were measured in immortalized B cell lines established from WAS and normal subjects by infection with EBV. Core 2 GlcNAc-T was less than 0.4 nmol/mg/h in WAS EBV-B cell lines compared to 2.4 nmol/mg/h in EBV-B cell lines from healthy individuals, In contrast, CMP-SA:SA alpha 2-3Gal beta 1-3GalNAc-R (where SA represents sialyl (sialic acid to GalNAc) alpha 6-sialyltransferase II activity was 2.0 nmol/mg/h in the WAS EBV-B cell and less than .01 nmol/mg/h in EBV-B cell lines derived from normal subjects. Eleven other glycosyltransferase activities were measured and found to be similar in EBV-B cell lines from WAS and normal individuals. Polylactosamine sequences were much reduced in the O-linked oligosaccharides of CD43 from WAS EBV-B cells consistent with decreased core 2 GlcNAc-T activity and expression of core 1 oligosaccharides in the cells. In conclusion, B cells, T cells, and platelets in WAS patients show abnormal expression of two developmentally regulated glycosyltransferases, consistent with the idea that the WAS immunodeficiency is due to a failure of normal lymphocyte maturation.     

Core 2 GlcNAc transferase and kidney tubular cell-specific expression

The expression of glycan chains is precisely regulated in a time- and space-dependent manner. We summarize here our recent work on the kidney tubular cell-specific regulation of core 2 beta-1,6-GlcNAc transferase. Gsl5 gene was first identified by genetic analysis on the basis of polymorphic expression of kidney glycolipids among inbred strains of mice and turned out to be a regulatory gene controlling the level of mRNA of kidney-specific core 2 beta-1,6-GlcNAc transferase. This kidney-specific core 2 GlcNAc transferase takes glycolipids having Gal beta 1-3GalNAc at their termini, Gal beta 1-3GalNAc alpha 1- and beta 1-oligosaccharide derivatives, and glycoproteins having core 1 structure, as substrates. Immunohistochemistry with anti-core 2-Le( x ) monoclonal antibody demonstrated that vesicles located just below the microvillous membrane of proximal tubule cells were clearly stained in a Gsl5 -wild type mouse. Western blotting with the monoclonal antibody detected a major glycoprotein with a molecular mass of 500 kDa in the microsomal fraction of the wild type mouse kidney. In situ hybridization with anti-sense cDNA of kidney-specific core 2 GlcNAc transferase confirmed that Gsl5 gene controls the expression of the core 2 beta-1,6-GlcNAc transferase mRNA in a proximal tubular cell-specific manner. The 5' upstream sequences of the kidney-specific core 2 GlcNAc transferase gene in inbred and wild-derived strains of mice were analyzed, and the phylogenetic analysis of these sequences suggests that functional Gsl5 gene might be produced by the time of subspeciation of M. musculus, about one million years ago.     

IL-2, -4, and -15 differentially regulate O-glycan branching and P-selectin ligand formation in activated CD8 T cells.

The glycosyltransferase core 2 beta1-6 N-acetylglucosaminyl transferase (C2GnT1 or C2GlcNAcT1) is responsible for formation of branched structures on O-glycans present on cell surface glycoproteins. The O-glycan branch created by C2GnT1 is physiologically important insofar as only this structure can be extended and modified to yield P-selectin ligands that promote initial interactions between extravasating lymphocytes and endothelia. In mature T cells, C2GnT1 activity is thought to be induced as an intrinsic consequence of T cell activation. Through analysis of C2GnT1-dependent epitopes on CD43 and CD45RB we have found that in activated CD8(+) T cells expression of C2GnT1 was dependent upon exposure to specific cytokines rather than being induced as a direct consequence of activation. Activated CD8(+) cells became receptive to strong induction of C2GnT1 expression and P-selectin ligand expression in response to IL-2, moderate induction by IL-15, and minimal induction in response to IL-4. Our observations clarify the relationship between T cell activation and C2GnT1 expression, demonstrate the differential impact of distinct cytokines on expression of C2GnT1 activity and P-selectin ligand, and reinforce the concept that the cytokine milieu subsequent to activation can influence adhesion systems that dictate lymphocyte homing properties.     

Role of I-region gene products in T cell activation. I. Stimulation of T lymphocyte proliferative responses by subcellular membrane preparations containing Ia alloantigens

A model system has been developed for exploring the requirements for activation of T cells by subcellular forms of Ia alloantigen. Lymph node cells from mice recently primed subcutaneously with viable allogeneic cells show strong proliferative responses in vitro to membrane preparations derived from cells bearing the appropriate I-region-encoded glycoproteins. This stimulation shows kinetics characteristic of a secondary response, with a peak at 24 to 48 hr. Primary responses to alloantigen-bearing membranes are weak or absent under these conditions. The predominant cell type involved in the secondary response is the Lyt-1+ T lymphocyte, and the major antigenic stimulus is the I-A subregion-encoded Ia glycoprotein. Syngeneic Ia+ accessory cells do not appear necessary for activation to occur. Detergent solubilized reconstituted membrane vesicles also will stimulate primed T lymphocytes to respond by proliferation. The applications of this approach to the study of T cell recognition of antigen and the role of nonspecific lymphokines in T cell triggering are discussed.     

Roles of pgaABCD genes in synthesis, modification, and export of the Escherichia coli biofilm adhesin poly-beta-1,6-N-acetyl-D-glucosamine

The linear homopolymer poly-beta-1,6-N-acetyl-D-glucosamine (beta-1,6-GlcNAc; PGA) serves as an adhesin for the maintenance of biofilm structural stability in diverse eubacteria. Its function in Escherichia coli K-12 requires the gene products of the pgaABCD operon, all of which are necessary for biofilm formation. PgaC is an apparent glycosyltransferase that is required for PGA synthesis. Using a monoclonal antibody directed against E. coli PGA, we now demonstrate that PgaD is also needed for PGA formation. The deletion of genes for the predicted outer membrane proteins PgaA and PgaB did not prevent PGA synthesis but did block its export, as shown by the results of immunoelectron microscopy (IEM) and antibody adsorption assays. IEM also revealed a conditional localization of PGA at the cell poles, the initial attachment site for biofilm formation. PgaA contains a predicted beta-barrel porin and a superhelical domain containing tetratricopeptide repeats, which may mediate protein-protein interactions, implying that it forms the outer membrane secretin for PGA. PgaB contains predicted carbohydrate binding and polysaccharide N-deacetylase domains. The overexpression of pgaB increased the primary amine content (glucosamine) of PGA. Site-directed mutations targeting the N-deacetylase catalytic activity of PgaB blocked PGA export and biofilm formation, implying that N-deacetylation promotes PGA export through the PgaA porin. The results of previous studies indicated that N-deacetylation of beta-1,6-GlcNAc in Staphylococcus epidermidis by the PgaB homolog, IcaB, anchors it to the cell surface. The deletion of icaB resulted in release of beta-1,6-GlcNAc into the growth medium. Thus, covalent modification of beta-1,6-GlcNAc by N-deacetylation serves distinct biological functions in gram-negative and gram-positive species, dictated by cell envelope differences.     

Beta-1,4-mannosyl-glycoprotein beta-1,4-N-acetylglucosaminyltransferase III activity in human B and T lymphocyte lines and in tonsillar B and T lymphocytes

beta-1,4-mannosyl-glycoprotein beta-1,4-N-acetylglucosaminyltransferase III (GlcNAc-T III) catalyzes the incorporation of a "bisecting" N-acetylglucosamine (GlcNAc) residue in beta 1-4 linkage to the beta-linked mannose of the core of asparagine linked-protein bound oligosaccharides (N-glycans). The activity of GlcNAc-T III was determined in Triton X-100 extracts of four human Epstein-Barr virus (EBV)-infected B-cell lines, in four T-cell lines originally established from lymphocytes of patients with acute lymphatic leukemia, and in human tonsillar B and T lymphocytes. The four EBV-transformed B-cell lines showed appreciable GlcNAc-T III activities (ranging from 3.4 to 19.0 nmol.h-1.mg protein-1), while the tonsillar resting B lymphocytes had much less activity (0.68 nmol.h-1.mg protein-1). The four T-cell lines and the tonsillar T lymphocytes had negligible GlcNAc-T III activities (ranging from 0.02 to 0.25 nmol.h-1.mg protein-1). Enzyme product was identified by high resolution proton nuclear magnetic resonance spectroscopy and methylation analysis. This is the first demonstration of GlcNAc-T III activity in human lymphocytes. The presence of GlcNAc-T III in B-cell lines correlates with the reported occurrence of bisecting GlcNAc residues in the oligosaccharides of human immunoglobulins G, A1, M, and D, tonsillar class II antigens, and membrane glycoproteins from B lymphocytes. The negligible GlcNAc-T III activity of the four human T-cell lines and of tonsillar T lymphocytes agrees with the reported absence of bisected structures in N-glycans from human T lymphocyte membrane glycoproteins.     

Increased UDP-GlcNAc:Gal beta 1-3GaLNAc-R (GlcNAc to GaLNAc) beta-1, 6-N-acetylglucosaminyltransferase activity in metastatic murine tumor cell lines. Control of polylactosamine synthesis

Malignant transformation of rodent cell lines by polyoma virus and by activated ras genes is associated with increased UDP-GlcNAc:Man alpha-R beta-1,6-N-acetylglucosaminyltransferase V (GlcNAc-transferase V) activity and it product -GlcNAc beta 1-6Man alpha 1-6Man beta 1-branched Asn-linked oligosaccharides. In this report, we have compared beta 1-6GlcNAc branching of core O- and N-linked oligosaccharides in three experimental models of malignancy, namely (a) rat2 fibroblasts and their malignant T24H-ras-transfected counterpart; (b) benign SP1 mammary carcinoma cells and two metastic sublines of SP1; and (c) the metastatic MDAY-D2 lymphoma cell line and its poorly metastatic glycosylation mutant KBL-1. In addition to the previously reported increase in GlcNAc-transferase V activity, UDP-GlcNAc:Gal beta 1-3GalNAc alpha-R (GlcNAc to GalNAc) beta-1,6-N-acetylglucosaminyltransferase (core 2 GlcNAc-transferase, EC 2.4.1.102) activity was found to be elevated by 70% in the malignant rat2 and SP1 cell lines while several other glycosyltransferase activities were not significantly different. The action of core 2 GlcNAc-transferase followed by beta 1-4Gal-transferase provides an N-acetyllactosamine antenna that can be extended with polylactosamine (i.e. repeating Gal beta 1-4GlcNAc beta 1-3) provided UDP-GlcNAc:Gal beta-R beta 1-3GlcNAc-transferase (GlcNAc-transferase) (i)) activity is present. Polylactosamine content in microsomal membrane glycoproteins was quantitated by labeling the GlcNAc termini resulting from the action of Escherichia freundii endo-beta-galactosidase with bovine galactosyltransferase/UDP-[3H] Gal. Glycopeptidase F- sensitive and -insensitive fractions were measured to assess the N- and O-linked components. In the SP1 tumor model, the metastatic sublines showed increased core 2 GlcNAc-transferase and GlcNAc-transferase V activities but no change in GlcNAc-transferase (i) activity, yet polylactosamine was increased in both O- and N-linked oligosaccharides. In rat2 cells, down-regulation of GlcNAc-transferase (i) following transformation was associated with decreased polyactosamine even though core 2 GlcNAc-transferase and GlcNAc-transferase V were elevated in the cells. Finally, a 3-fold decrease in GlcNAc-transferase V in KBL-1, the glycosylation mutant of MDAY-D2 cells, resulted in complete loss of polylactosamine in N-linked but no change in O-linked polylactosamine content. These results suggest that, provided GlcNAc-transferase (i) is not limiting, the beta 1-6-branching enzymes core 2 GlcNAc-transferase and GlcNAc-transferase V regulate the levels of polyactosamine in O- and N-linked oligosaccharides, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

T cell surface molecules regulating noncognate B lymphocyte activation. Role of CD2 and LFA-1.

A central event in humoral responses is the Ag-mediated interaction of Th cells and B cells. This interaction leads to the activation of both cell types and results in cytokine secretion by the T cells and proliferation and secretion of Ig by the B cells. The proliferative and differentiative responses of B cells are dependent on contact-mediated signals and cytokines provided by the activated Th cells. Although the role of cytokines in B cell activation and differentiation is understood, the nature of the signals delivered by the activated Th cells and the molecules involved in this process are not known. In this study we have examined Ag-mediated "cognate" T-B cell interactions as well as B cell activation induced by contact with preactivated and fixed Th lymphocytes. Our results indicate that both the T cell surface molecules lymphocyte function associated Ag-1 and CD2 are important in the activation of T cells by Ag presented by B lymphocytes. This indicates that B cells have similar characteristics as other APC. However, once the T cells are activated, contact-mediated stimulation of resting B lymphocytes (the noncognate phase) is dependent on CD2 but not lymphocyte function associated Ag-1. Two lines of evidence indicate this; first, it is inhibited by blocking of CD2 on the T cells and, second, such stimulation is not efficiently mediated by a CD2- Th cell line. Thus, CD2 plays an obligatory role at several discrete stages of T cell-mediated activation of resting B lymphocytes.     

Alteration of signal-transducing molecules in tumor-infiltrating lymphocytes and peripheral blood T lymphocytes from human colorectal carcinoma patients

 Tumor development or growth is accompanied by impaired immune responses, such as a poor proliferative response or down-regulated cytolytic T lymphocyte activity. Although recent reports have suggested that modification of the signal-transducing molecule is responsible for impaired immune responses in tumor-bearing hosts, the causes of defective immune function are not yet completely understood. Furthermore, the clinical significance of the findings is not yet clear. In this study, we investigated the alteration of several signal-transducing molecules in peripheral blood T lymphocytes (T-PBL) as well as in tumor-infiltrating lymphocytes (TIL) from human colorectal carcinoma patients and their relationship with the impaired host immune responses. A greater reduction in CD3ζ chain level was observed in TIL than in T-PBL from tumor-bearing hosts. CD3ζ chain reduction in T-PBL correlated with the clinicopathological stage of a tumor, especially with the status of lymph node metastasis. The levels of p56 ^lck and p59 ^fyn protein tyrosine kinase in T-PBL were also compared between tumor-bearing hosts and normal healthy volunteers. In T-PBL from tumor-bearing hosts, expression of protein tyrosine kinase p59 ^fyn was significantly lower than that of p56 ^lck . However, the level of CD3ζ chain expression did not correlate with T lymphocyte functions such as T lymphocyte proliferative response or allogeneic target cell lysis. Received: 25 September 1996 / Accepted: 25 August 1997     

Immortalized myeloid suppressor cells trigger apoptosis in antigen-activated T lymphocytes

We described a generalized suppression of CTL anamnestic responses that occurred in mice bearing large tumor nodules or immunized with powerful recombinant viral immunogens. Immune suppression entirely depended on GM-CSF-driven accumulation of CD11b(+)/Gr-1(+) myeloid suppressor cells (MSC) in secondary lymphoid organs. To further investigate the nature and properties of MSC, we immortalized CD11b(+)/Gr-1(+) cells isolated from the spleens of immunosuppressed mice, using a retrovirus encoding the v-myc and v-raf oncogenes. Immortalized cells expressed monocyte/macrophage markers (CD11b, F4/80, CD86, CD11c), but they differed from previously characterized macrophage lines in their capacities to inhibit T lymphocyte activation. Two MSC lines, MSC-1 and MSC-2, were selected based upon their abilities to inhibit Ag-specific proliferative and functional CTL responses. MSC-1 line was constitutively inhibitory, while suppressive functions of MSC-2 line were stimulated by exposure to the cytokine IL-4. Both MSC lines triggered the apoptotic cascade in Ag-activated T lymphocytes by a mechanism requiring cell-cell contact. Some well-known membrane molecules involved in the activation of apoptotic pathways (e.g., TNF-related apoptosis-inducing ligand, Fas ligand, TNF-alpha) were ruled out as candidate effectors for the suppression mechanism. The immortalized myeloid lines represent a novel, useful tool to shed light on the molecules involved in the differentiation of myeloid-related suppressors as well as in the inhibitory pathway they use to control T lymphocyte activation.     

Cutting edge: CD43 functions as a T cell counterreceptor for the macrophage adhesion receptor sialoadhesin (Siglec-1)

Sialoadhesin (Siglec-1) is a macrophage-restricted sialic acid-binding receptor that mediates interactions with hemopoietic cells, including lymphocytes. In this study, we identify sialoadhesin counterreceptors on T lymphocytes. Several major glycoproteins (85, 130, 240 kDa) were precipitated by sialoadhesin-Fc fusion proteins from a murine T cell line (TK-1). Binding of sialoadhesin to these glycoproteins was sialic acid dependent and was abolished by mutation of a critical residue (R97A) of the sialic acid binding site in the membrane distal Ig-like domain of sialoadhesin. The 130- and 240-kDa sialoadhesin-binding glycoproteins were identified as the sialomucins CD43 and P-selectin glycoprotein ligand 1 (CD162), respectively. CD43 expressed in COS cells supported increased binding to immobilized sialoadhesin. Finally, sialoadhesin bound different glycoforms of CD43 expressed in Chinese hamster ovary cells, including unbranched (core 1) and branched (core 2) O:-linked glycans, that are normally found on CD43 in resting and activated T cells, respectively. These results identify CD43 as a T cell counterreceptor for sialoadhesin and suggest that in addition to its anti-adhesive role CD43 may promote cell-cell interactions.     

Branched O-linked oligosaccharides ectopically expressed in transgenic mice reduce primary T-cell immune responses.

Core 2 beta-1,6-N-acetylglucosaminyltransferase, C2GnT, is a key enzyme in O-linked oligosaccharide (O-glycan) biosynthesis and the resultant core 2 branch serves as a backbone for additional glycosylation to form oligosaccharide ligands such as sialyl Le(x). Since the expression of C2GnT is highly regulated during T-cell development and increases in pathological conditions such as the Wiskott-Aldrich syndrome, we have generated transgenic mice overexpressing C2GnT in the T-cell lineage. Surprisingly, T lymphocytes in the transgenic mice develop normally, but they exhibit a reduced immune response when assayed by delayed-type hypersensitivity, proliferation upon stimulation and cytokine production. Moreover, T lymphocytes from the transgenic mice adhere much less efficiently to ICAM-1 and fibronectin than do T lymphocytes from non-transgenic mice. These results indicate that overexpression of the core 2 branched O-glycans in T lymphocytes results in reduced immune responses due to impaired cell-cell interaction. Such an impaired immune response may be one of the causes for immunodeficiency in the Wiskott-Aldrich syndrome.     

Blockade of physiologically secreted IFN-gamma inhibits human T lymphocyte and natural killer cell activation

The role of physiologically secreted human IFN-gamma in T lymphocyte and NK cell activation has been probed with a panel of mouse mAb directed against various epitopes of the human IFN-gamma molecule, or human IFN-gamma R. Addition to the culture medium of those mAb that neutralize the antiviral activity of IFN-gamma or interact with its receptor inhibited proliferative and cytotoxic responses elicited in PBL by HLA alloantigens, anti-CD3 mAb, and IL-2, but not the proliferative response to PHA. The IFN-gamma blockade also inhibited IFN-gamma, IL-2, and TNF-alpha release during MLC. Kinetic experiments showed that reduction of proliferative and cytotoxic responses to HLA alloantigens is maximal when IFN-gamma is blocked within the first 48 h. Exogenous rIFN-gamma restored the proliferative response only when added at the beginning. Moreover, when IFN-gamma was blocked, T lymphocytes recovered from 6-day MLC displayed a profound decrease in their expression of p55 and p75 chains of the IL-2R, as well as in the number of high-affinity IL-2 binding sites. These findings strongly suggest that IFN-gamma is required in the early phases of induction of the oligo- and polyclonal proliferative and cytotoxic responses of lymphocytes.     

Cyclosporin A does not inhibit the PHA-stimulated increase in intracellular Ca2+ concentration but inhibits the increase in E-rosette receptor (CD2) expression and appearance of interleukin-2 receptors (CD25)

The immunosuppressive drug cyclosporin A (CsA) inhibits mixed lymphocyte responses, blocks the generation of cytotoxic T lymphocytes, and inhibits the T lymphocyte proliferative response stimulated by polyclonal activators such as phytohemagglutinin (PHA). Nevertheless, there have been contradictory reports attempting to explain the mechanism(s) for this immunosuppressive activity. In the current studies, human peripheral blood mononuclear cells (PBM) were stimulated with PHA in the presence or absence of CsA. Flow cytometric examination of PBM loaded with the Ca2+-sensitive dye Indo-1 showed that concentrations of CsA sufficient to inhibit 90-100% of tritiated thymidine incorporation had no effect on the PHA-stimulated increase in the intracellular Ca2+ concentration ([Ca2+]i). Likewise, inhibitory amounts of CsA had virtually no effect on the increase in cell volume that occurs during T lymphocyte activation. These results were not altered by pretreating the PBM with CsA for 30 min at 37 degrees C prior to adding the PHA. On the other hand, inhibitory concentrations of CsA prevented the expression of receptors for T cell growth factor (interleukin-2, IL-2), as measured by monoclonal antibodies to CD25 after 16-24-hr incubation. In like manner, CsA also prevented the increase in the expression of the E-rosette receptor (CD2) on these same cells. If cultures containing PHA and inhibitory amounts of CsA were incubated for 40-72 h, there was partial recovery both of proliferative activity and of the expression of CD25 and CD2. Thus, CsA does not appear to affect the initial activation signal(s), but does interfere with one or more subsequent events necessary to initiate the appearance of "activation antigens."     

An essential role of sialylated O-linked sugar chains in the recognition of mouse CD99 by paired Ig-like type 2 receptor (PILR)

The paired Ig-like type 2 receptor (PILR), which comprises both inhibitory and activating isoforms, is well conserved among most mammalians. The inhibitory PILRalpha possesses an ITIM in its cytoplasmic domain, whereas the activating PILRbeta does not have an ITIM but transduces activating signals by associating with the ITAM-bearing DAP12 adapter molecule. Both mouse PILRalpha and PILRbeta recognize mouse CD99, which is broadly expressed on various cells, including lymphocytes, and is involved in the regulation of immune responses. We herein report that sialylated O-linked sugar chains on CD99 are essential for the recognition by PILR. Mutations of one of two O-glycosylation sites on CD99 significantly reduced recognition of CD99 by the activating PILRbeta, whereas recognition by the inhibitory PILRalpha was not affected. In contrast, mutations of both O-glycosylation sites on CD99 completely abrogated the recognition by both PILRalpha and PILRbeta. PILR did not recognize CD99 treated with neuraminidase, and CD99 expressed on cells transfected with core 2 beta-1,6-N-acetylglucosaminyltransferase was not recognized by PILR. NK cells expressing endogenous activating PILRbeta receptors mediated cytotoxicity against cells expressing wild-type CD99 but not cells expressing mutant CD99 that lacked O-glycosylation sites. These findings indicate that sialylated O-linked sugar structures on CD99 play an important role in the recognition of PILR.     

Core 2 GlcNAc transferase and kidney tubular cell-specific expression

The expression of glycan chains is precisely regulated in a time- and space-dependent manner. We summarize here our recent work on the kidney tubular cell-specific regulation of core 2 β-1,6-GlcNAc transferase. Gsl5 gene was first identified by genetic analysis on the basis of polymorphic expression of kidney glycolipids among inbred strains of mice and turned out to be a regulatory gene controlling the level of mRNA of kidney-specific core 2 β-1,6-GlcNAc transferase. This kidney-specific core 2 GlcNAc transferase takes glycolipids having Galβ1-3GalNAc at their termini, Galβ1-3GalNAcα1- and β1-oligosaccharide derivatives, and glycoproteins having core 1 structure, as substrates. Immunohistochemistry with anti-core 2-Le ^x monoclonal antibody demonstrated that vesicles located just below the microvillous membrane of proximal tubule cells were clearly stained in a Gsl5-wild type mouse. Western blotting with the monoclonal antibody detected a major glycoprotein with a molecular mass of 500 kDa in the microsomal fraction of the wild type mouse kidney. In situ hybridization with anti-sense cDNA of kidney-specific core 2 GlcNAc transferase confirmed that Gsl5 gene controls the expression of the core 2 β-1,6-GlcNAc transferase mRNA in a proximal tubular cell-specific manner. The 5′ upstream sequences of the kidney-specific core 2 GlcNAc transferase gene in inbred and wild-derived strains of mice were analyzed, and the phylogenetic analysis of these sequences suggests that functional Gsl5 gene might be produced by the time of subspeciation of M. musculus, about one million years ago. Published in 2004. This revised version was published online in August 2006 with corrections to the Cover Date.     

Normal development but differentially altered proliferative responses of lymphocytes in mice lacking CD81.

CD81 (TAPA-1) is a member of the transmembrane 4 superfamily (TM4SF) which is expressed on the cell surface of most cells of the body throughout their cellular differentiation. It has been recognized in several cell surface complexes of lymphocytes, suggesting that it may have diverse roles in lymphocyte development and activation regulation. Mice with a CD81 null mutation revealed normal T- and conventional B-cell development, although CD19 expression on B cells was dull and B-1 cells were reduced in number. However, both T and B cells of mutant mice exhibited strikingly enhanced proliferation in response to various types of stimuli. Interestingly, while proliferative responses of T cells following T-cell antigen receptor (TCR) engagement was enhanced in the absence of CD81, B-cell proliferation in response to B-cell antigen-receptor (BCR) cross-linking was severely impaired. Despite these altered proliferative responses, both tyrosine phosphorylation and intracellular calcium flux in response to cross-linking of cell surface antigen receptors were normal in mutant mice, reflecting apparently normal initial signaling of antigen receptors. In conclusion, though CD81 is not essential for normal T- and conventional B-cell development, it plays key roles in controlling lymphocyte homeostasis by regulating lymphocyte proliferation in distinct manners, dependent on the context of stimulation.