Marked differences in the efficiency of expression of distinct alpha beta T cell receptor heterodimers

Ag recognition by most T lymphocytes is mediated by clonally distributed alpha beta heterodimeric receptors. A major fraction of TCR diversity is believed to be due to the random coexpression in individual T cells of the products of independently rearranging alpha- and beta-genes (combinatorial diversity). However, analysis of cell surface receptors on transfected T hybridoma cells synthesizing various sets of alpha- and beta-chains revealed marked differences in the efficiency of expression of certain alpha beta-pairs. Specifically, using the functionally rearranged gene products of the 2B4 cytochrome c specific T hybridoma (V beta 3, V alpha 11.2) and BW5147 parent lymphoma (V beta 1, V alpha BW), a hierarchy of expression efficiency relative to indirectly measured precursor chain levels in the cell was shown to be 2B4 alpha-BW beta greater than 2B4 alpha - 2B4 beta greater than BW alpha - BW beta greater than BW alpha - 2B4 beta. The estimated difference between the best expressed and worst expressed pairs is on the order of 50-fold. For the beta-chain, the primary determinant of expression efficiency with a given alpha-chain appears to be the V segment, as a second V beta 1-chain with distinct D and J regions from BW beta was expressed with the same pattern. These data imply that alpha- and beta-chains do not form well-expressed TCR in a random manner and that limitations on the useful combinatorial association of these chains may significantly affect the functional T cell repertoire.     

The biosynthesis and assembly of T cell receptor alpha- and beta-chains with the CD3 complex

The biosynthesis, processing, and assembly of the TCR alpha- and beta-chains with each other and with the CD3 complex were investigated on both cell surface positive (TCR+CD3-) and negative (TCR-CD3-) cell lines. The results indicate that 1) in cell surface TCR-CD3- cell lines (MOLT 3, CCRF-CEM), TCR-beta, but not alpha-chains are present intracellularly. TCR-beta-CD3 complexes are readily found in these cell lines, but no evidence for final processing or cell surface expression of such incomplete TCR-CD3 complexes is observed. 2) In the cell surface TCR+CD3+ cell line HPB-ALL, both alpha- and beta-chains are present intracellularly. Whereas non-glycosylated forms of TCR-beta chain can be detected, only more mature forms of TCR alpha-chains are detected indicating that the alpha-chains are more rapidly glycosylated than the beta-chains. 3) The large majority of the intracellular alpha- and beta-chains is not disulfide linked and a small fraction of these is associated with CD3. 4) Only small amounts of the total intracellular TCR chains are found as CD3-associated disulfide-linked alpha beta-heterodimers. 5) Final processing of TCR chains for cell surface expression takes place after formation of these TCR-alpha beta-CD3 complexes. Thus, both the TCR alpha- and beta-chains are over-produced and only relatively small amounts of these chains form CD3-associated heterodimers that are processed for cell surface expression. Analogous results were obtained with a non-leukemic CTL clone. Based on these observations, a model for the biosynthesis and assembly of the TCR-CD3 complex is presented.     

Restricted usage of T cell receptor V alpha/J alpha gene segments with different nucleotide but identical amino acid sequences in HLA-DR3+ sarcoidosis patients.

BACKGROUND: Sarcoidosis is a granulomatous disease characterized by the accumulation of activated T cells in the lungs. We previously showed that sarcoidosis patients expressing the HLA haplotype DR3(17),DQ2 had increased numbers of lung CD4+ T cells using the T cell receptor (TCR) variable region (V) alpha 2.3 gene segment product. In the present study, the composition of both the TCR alpha- and beta-chains of the expanded CD4+ lung T cells from four DR3(17),DQ2+ sarcoidosis patients was examined. MATERIALS AND METHODS: TCR alpha-chains were analyzed by cDNA cloning and nucleotide sequencing. TCR beta-chains were analyzed for V beta usage by flow cytometry using TCR V-specific monoclonal antibodies or by the polymerase chain reaction (PCR) using V beta- and C beta-specific primers. J beta usage was analyzed by Southern blotting of PCR products and subsequent hybridization with radiolabeled J beta-specific probes. RESULTS: Evidence of biased J alpha gene segment usage by the alpha-chains of V alpha 2.3+ CD4+ lung T cells was found in four out of four patients. Both different alpha-chain nucleotide sequences coding for identical amino acid sequences and a number of identically repeated alpha-chain sequences were identified. In contrast, the TCR beta-chains of FACS-sorted V alpha 2.3+ CD4+ lung T cells were found, with one exception, to have a nonrestricted TCR V beta usage. CONCLUSIONS: The finding of V alpha 2.3+ CD4+ lung T cells with identical TCR alpha-chain amino acid sequences but with different nucleotide sequences strongly suggests that different T cell clones have been selected to interact with a specific sarcoidosis associated antigen(s). The identification of T cells with restricted TCR usage, which may play an important role in the development of sarcoidosis, and the possibility of selectively manipulating these cells should have important implications for the treatment of the disease.     

Expression of prohibitins on the surface of activated T cells

Prohibitins (prohibitin-1 and -2) comprise a family of highly conserved proteins that are mainly localized to mitochondria. Recent studies showed that prohibitins are up-regulated upon T cell activation and play an essential role in maintaining mitochondrial homeostasis. In the present study, we found that a considerable proportion of prohibitin-1 and -2 induced in response to T cell activation was expressed on the surface of activated T cells. When mouse and human T cells were stimulated with PMA and ionomycin, prohibitins expressed on the cell surface were increased significantly, peaking at 48 h after stimulation. Stimulation of mouse T cells with anti-CD3 and anti-CD28 antibodies also remarkably induced the cell surface expression of prohibitins. Their expression on the cell surface was also detected in T cell leukemia cells such as Jurkat cells. In Jurkat cells, prohibitin-1 and -2 were co-localized with CD3 on the cell surface, and anti-CD3 antibody-induced signaling, the MAP kinase cascade, was inhibited on treatment with protein A magnetic beads co-conjugated with anti-CD3 antibody and anti-prohibitin-1 or anti-prohibitin-2 antibody. These results suggest that prohibitins expressed on the surface of activated T cells are involved in the T cell receptor-mediated signaling cascade.     

Structural and functional analyses of glycosylation on the distinct molecules of human GM-CSF receptors.

We have previously demonstrated that granulocyte-macrophage colony-stimulating factor (GM-CSF) receptors are composed of at least two molecules of 80 and 135 kDa, which were denoted alpha- and beta-chains, respectively [Chiba, S., Shibuya, K., Piao, Y.-F., Tojo, A., Sasaki, N., Matsuki, S., Miyagawa, K., Miyazono, K. & Takaku, F. (1990) Cell Regul. 1, 327-335]. In this paper, we describe an investigation of the biochemical disparity noted between the alpha- and beta-chains of GM-CSF receptors using proteolytic and deglycosidic enzymes, and further demonstrate the potential importance of carbohydrate structures of the GM-CSF receptors using different lectins and glycoprotein synthesis inhibitors. Cross-linked alpha- and beta-chains with 125I-GM-CSF were digested by Staphylococcus aureus V8 protease and gave a different pattern. Furthermore, the size of the alpha-chain was reduced by 25 kDa by the removal of the N-linked oligosaccharides with peptidase: N-glycosidase F treatment, whereas that of the beta-chain remained unmodified by the enzyme. These results suggest that the alpha-chain of GM-CSF receptors agrees with the recently cloned low-affinity GM-CSF receptor [Gearing, D.P., King, J.A., Gough, N. M. & Nicola, N.A. (1989) EMBO J. 8, 3667-3676] having approximately 30% N-linked oligosaccharides and is biochemically different from the alpha beta-chain. By analyses using lectins, some of the oligosaccharides in the alpha-chain seem to be the complex-type and/or hybrid-type, because wheat germ agglutinin and leukoagglutinating phytohemagglutinin inhibited both GM-CSF-induced proliferation and GM-CSF binding to its receptors. Further analyses using glycoprotein synthesis inhibitors showed that N-linked processing of the alpha-chain, especially glucose removal by glucosidase I and II (whose activities are inhibited by deoxynojirimycin), appeared to be required for the expression onto the cell surface although the beta-chain expression was little affected by their inhibitors. Thus the beta-chain, probably located near the alpha-chain on the cell surface, was associated with a high-affinity class of GM-CSF receptors.     

Expansion of murine T cells bearing a unique T cell receptor beta-chain in Friend virus-induced tumor in situ.

Heterogeneity of V alpha 1+ and V beta 10+ TCR alpha beta-chains, which are predominantly used in anti-FBL-3 CTL clones established in vitro, was investigated at a nucleotide level in FBL-3 tumor-infiltrating lymphocytes (TIL) in vivo. The majority (90%) of V beta 10+ beta-chains dominated in TIL used homogeneous V beta 10D beta 2.1 sequences identical to that used in the T cell clones with cytotoxic functions. The homogeneous TCR beta-chain expression was dominant and found to be about 10% of the total TCR beta-chains in the TIL population, which was a greater than 300-to 900-fold increase than in the regional lymph nodes. This is in good agreement with the in vitro data showing that about 11% CTL clones used the homogeneous V beta 10D beta 2.1+ beta-chain. However, the J beta segment does not seem to contribute greatly to the recognition and selection of this TCR because some of homogeneous VD+ beta-chains were associated with J beta segments other than J beta 2.7 of the CTL clones. The frequency of the V alpha 1J alpha 112-2+ alpha-chain expression of the CTL type was much less (3- to 80-fold increase compared to that of lymph node) and also varied in sample materials, indicating the lower contribution of the alpha-chain for the oligoclonality of the TCR. The results were also confirmed by quantitative PCR and RNase protection assays. This suggests that the dominant expression of the homogeneous TCR beta-chain is due to the expansion of the particular anti-FBL-3 CTL in the tumor in situ. Also, the TCR beta-chain, especially the V beta D beta region, rather than alpha-chain is more important for the recognition and selection of the anti-FBL-3 TIL with cytotoxic functions.     

An analysis of the structure of the antigen receptor on a pigeon cytochrome c-specific T cell hybrid

The monoclonal antibody A2B4-2 has been shown to bind to the antigen receptor on the cloned pigeon cytochrome c-specific T cell hybrid, 2B4. Initial immunoprecipitation and SDS-PAGE analysis with this clonotypic antibody demonstrated that the antigen receptor on this cell had a m.w. of 85,000 to 90,000. Under reducing conditions, the receptor protein appeared as two bands of 45,000 to 50,000 and 40,000 to 44,000 on an SDS-PAGE gel. In this paper the antigen receptor on this T cell hybrid is further characterized. The molecule is shown to be a heterodimer that exists in two different forms on the cell surface. Receptor molecules with an apparent m.w. of 84,000 and 86,000 were isolated by immunoprecipitation and separation on polyacrylamide gradient gels. After reduction, the individual alpha- and beta-chains were separated by isoelectric focusing. In both forms of the receptor, the acidic alpha-chain had an apparent m.w. of 42,000 to 44,000. This alpha-chain associated with one of two forms of beta-chain. One beta-chain had a m.w. of 42,000 to 44,000, with a pI range of 7.5 to 7.9, and the alternate form of the beta-chain, beta', had a m.w. of 46,000 to 48,000 and a more acidic pI range of 6.5 to 7.5. The results of this investigation indicate that under reducing conditions on SDS-PAGE gels, the original upper 45,000 to 50,000 m.w. band represented beta'-chains alone, whereas the lower 40,000 to 44,000 m.w. band represented a mixture of alpha- and beta-chains. Additional data are presented to indicate that this heterodimeric protein has intrachain as well as interchain disulfide bonds. This conclusion was reached from the characteristic pattern of protein migration on SDS-PAGE gels in the presence of a reducing agent concentration gradient. Thus, both chains of the antigen receptor must have intrachain disulfide bonds and may have similar domain structures.     

Thrombospondin binding to specific sequences within the A alpha- and B beta-chains of fibrinogen

Thrombospondin is a multifunctional adhesive glycoprotein which binds to the surface of resting and activated platelets. Thrombospondin also binds to a variety of proteins, including fibrinogen. The interactions between platelet-bound thrombospondin and fibrinogen are thought to facilitate irreversible platelet aggregation. Both the A alpha- and B beta-chains of fibrinogen specifically bind to thrombospondin. Cyanogen bromide cleavage products of the fibrinogen A alpha- and B beta-chains, and synthetic peptides corresponding to specific regions of these cleavage products were utilized to identify the regions of the fibrinogen A alpha- and B beta-chains which bind to thrombospondin. Cyanogen bromide fragments of the A alpha- and B beta-fibrinogen chains, resolved by gel filtration and reversed-phase chromatography, were examined for thrombospondin binding activity. Thrombospondin specifically bound to the A alpha-chain fragment encompassing residues 92-147 and the B beta-chain fragment encompassing residues 243-305. Analyses of the binding characteristics of two series of overlapping synthetic peptides revealed that peptides corresponding to residues 113-126 of the A alpha-chain and residues 243-252 of the B beta-chain retained thrombospondin binding activity. Separate bovine serum albumin conjugates of the active A alpha-chain and B beta-chain peptides inhibited platelet aggregation. These studies reveal that fibrinogen possesses at least two unique sequences which are recognized by thrombospondin and that such interaction may affect platelet aggregation.     

Arsonate-specific murine T cell clones. V. Antigen presentation by L cells transfected with normal and mutant class II genes

Class II-restricted murine T cell clones specific for the immunogenic determinant L-tyrosine-p-azobenzenearsonate failed to proliferate to Ag presented by L cell lines transfected with and expressing the appropriate class II genes, but are activated to kill the APC in an Ag-dependent, MHC-restricted manner. Inhibition of APC proliferation was used as an assay to determine the relative contributions of polymorphic sites on the class II alpha- and beta-chains to MHC-restricted activation of I-A beta k-restricted cloned T cells. Transfectants expressing A beta k in conjunction with the alpha chain of k, u, or d were equally effective APCs, whereas transfectants expressing A beta u were completely ineffective, implicating the beta-chain as more critical for the presentation of L-tyrosine-p-azobenzenearsonate. Site-directed mutagenesis of polymorphic positions in the beta chain revealed a remarkable stringency for the k haplotype, in contrast to the relaxed alpha-chain requirement. These results, in conjunction with others, indicate that the relative contribution of polymorphic sites on class II alpha- and beta-chains to T cell Ag recognition can differ markedly, and, furthermore, may vary as a function of the Ag.     

Restricted V-(D)-J junctional regions in the T cell response to lambda-repressor. Identification of residues critical for antigen recognition.

The T cell response to lambda-repressor is directed to a 15 amino acid peptide (P12-26) of the protein in A/J mice. Previous studies have demonstrated a preferential use of V alpha 2 and V beta 1 amongst the T cell hybridomas specific for P12-26 in the context of I-Ek. By using the polymerase chain reaction, the sequences of a panel of the T cells using V alpha 2 and V beta 1 were determined. A highly conserved alpha-chain V-J junctional sequence was found in six of the eight T cell hybrids. This consensus alpha-chain VJ sequence may be combined with different members of V alpha 2, indicating a more restricted selection on the junctional region than on the V element in these T cells. In contrast, greater diversities were found on the V-D-J region of beta-chains despite the same V beta 1 and J beta 2.1 were used. However, a highly conserved glutamic acid residue was found at the same position of beta-chains where a similar conservation was identified in cytochrome c-specific T cells. The correlation of the TCR sequence with the fine specificities of these T cells suggests that a single amino acid deletion in the V alpha-J alpha region may reduce the P12-26 response and abolish the recognition of an altered peptide [Phe22] P12-26. In addition, three amino acid difference in the V-D-J region of the beta-chain also determine the P12-26 reactivity. Thus the V(D)J junctional regions of both alpha- and beta-chains may be critical for the recognition of the peptide Ag presented by the specific MHC molecule.     

Thy-1- and Ly-6-mediated lymphokine production and growth inhibition of a T cell hybridoma require co-expression of the T cell antigen receptor complex

Repetitive subcloning of an Ag-specific T cell hybridoma yielded a variant that lacked functional mRNA for the Ag receptor (Ti, T cell Ag receptor alpha/beta heterodimer) beta-chains and failed to express CD3/Ti on the cell surface. Transfection with the original Ti alpha- and beta-chain genes restored CD3/Ti expression to normal levels. Whereas the parental T cell hybridoma produced IL-2 when stimulated with mAb against CD3, Thy-1, and Ly-6, the CD3/Ti negative cell failed to do so. Reconstitution of CD3/Ti expression restored normal IL-2 production in response to these mAb. A separate response to activation, the inhibition of transformed growth, was also dependent upon co-expression of CD3/Ti. These data demonstrate that cell surface expression of CD3/Ti is required for IL-2 production and growth inhibition initiated by two distinct activating molecules, and suggest that CD3/Ti may be a final common pathway for many transmembrane activation signals.     

Ordered and coordinated rearrangement of the TCR alpha locus: role of secondary rearrangement in thymic selection

The Ag receptor of the T lymphocyte is composed of an alphabeta heterodimer. Both alpha- and beta-chains are products of the somatic rearrangement of V(D)J segments encoded on the respective loci. During T cell development, beta-chain rearrangement precedes alpha-chain rearrangement. The mechanism of allelic exclusion ensures the expression of a single beta-chain in each T cell, whereas a large number of T cells express two functional alpha-chains. Here we demonstrate evidence that TCR alpha rearrangement is initiated by rearranging a 3' Valpha segment and a 5' Jalpha segment on both chromosomes. Rearrangement then proceeds by using upstream Valpha and downstream Jalpha segments until it is terminated by successful positive selection. This ordered and coordinated rearrangement allows a single thymocyte to sequentially express multiple TCRs with different specificities to optimize the efficiency of positive selection. Thus, the lack of allelic exclusion and TCR alpha secondary rearrangement play a key role in the formation of a functional T cell repertoire.     

Lymphocyte function-associated antigen 1 (LFA-1) contains sulfated N-linked oligosaccharides

The murine lymphocyte function-associated antigen 1 (LFA-1) is a glycoprotein heterodimer consisting of an Mr 180,000 alpha-chain and an Mr 95,000 beta-chain. Although LFA-1 has been studied extensively in the past few years due to its involvement in various antigen-specific T lymphocyte responses, virtually nothing is known about its glycosylation. In this report, we have analyzed the oligosaccharide moieties of the murine LFA-1 molecule. Utilizing a T lymphoma cell line, EL-4, it was found that [35S] sulfate, [3H]glucosamine, [3H]mannose, and [3H]fucose were incorporated into both the alpha- and beta-chains of LFA-1. Isolated alpha- and beta-chains from anti-LFA-1 immunoprecipitates of [3H]glucosamine-labeled NP-40 lysates were subjected to tryptic-chymotryptic digestion, and the resulting glycopeptides were fractionated by reverse-phase high performance liquid chromatography. Five major [3H]glucosamine-labeled glycopeptides were generated by this procedure from each of the two polypeptide chains. Treatment of the individual glycopeptides with almond emulsin peptide:N-glycosidase or Endo F demonstrated that the [3H]glucosamine label existed almost entirely in N-linked oligosaccharide structures (Mr 5000 to 10,000). By using similar techniques, the majority of the [35S]sulfate moieties were also found covalently bound to N-linked oligosaccharides. In addition, both [35S]sulfate-labeled alpha- and beta-chains were susceptible to Keratanase and endo-beta-galactosidase digestions, indicating the presence of sulfated N-acetyllactosamine sequences. The expression of [35S]sulfate-labeled LFA-1 on various cell types was also examined. LFA-1 was found to be sulfated only on thymocytes and splenic T cells, but not on macrophages, splenic B, or bone marrow cells.     

Changes in gene expression induced by a phorbol diester: expression of IL 2 receptor, T3, and T cell antigen receptor

Phorbol esters cause an apparent differentiation of human T leukemic cell lines. It was shown previously that TPA induces the expression of the interleukin 2 (IL 2) receptor and the T3 complex on some T cell lines, including CCRF-CEM. We demonstrate that expression of the IL 2 receptor correlated with an induction of the 3.5 and 1.5 kb IL 2 receptor mRNA. In addition, the TPA-induced expression of the T3 polypeptides was found to be accompanied by induction of a putative T cell antigen receptor heterodimer on CEM cells. This was demonstrated by the co-precipitation of the T cell receptor with T3 from digitonin-solubilized cells. The cells expressed high levels of T3 delta- and T cell receptor beta-chain mRNA in the absence of TPA. The effect of TPA was to cause a rapid accumulation of T cell receptor alpha-chain mRNA. This suggested that the alpha-chain gene was rearranged before TPA induction and that expression of the T cell receptor/T3 complex on the cell surface was regulated by the level of alpha-chain expression. It was also shown that cloned sublines of CEM cells which expressed different T cell antigen phenotypes differed in their response to TPA.     

Haemoglobin binding with haptoglobin. Unequivocal demonstration that the beta-chains of human haemoglobin bind to haptoglobin.

Haptoglobin binding to haemoglobin and its isolated alpha- and beta-chains was studied by use of a highly sensitive solid-phase radiometric assay. As expected, adsorbents of haemoglobin bound 125I-labelled haptoglobin more efficiently than did adsorbents of the alpha-chain. However, unexpectedly, adsorbents of the beta-chain were found to be essentially identical with those of the alpha-chain in their ability to bind haptoglobin. These results demonstrate, unequivocally, the ability of beta-chains to bind to haptoglobin, and indicate that this assay is particularly convenient and useful for studying haptoglobin interactions with haemoglobin and its alpha- and beta-chains.     

Synergy between the T3/antigen receptor complex and Tp44 in the activation of human T cells

In addition to the T3/antigen receptor complex (T3/Ti), other T cell surface molecules participate in early events involved in human T cell activation. In this report we document that monoclonal antibody 9.3, which recognizes a 90,000 dalton homodimer expressed on human T cells, synergizes with ligands reacting with T3/Ti to activate purified T cells and Jurkat, a human T cell leukemic line. Unlike phorbol myristate acetate (PMA), 9.3 was able to synergize only with anti-T3 or anti-Ti if these antibodies were immobilized. Moreover, 9.3 failed to synergize with the calcium ionophore ionomycin. At high concentrations only, 9.3 could synergize with PMA in the activation of Jurkat and a T3/Ti negative mutant of Jurkat. At such high concentrations of 9.3, small transient increases in cytoplasmic free calcium ((Ca++)i) were detected in quin 2-loaded Jurkat cells. This increase in (Ca++)i was the result of release of internal stores of calcium. 9.3 induced the hydrolysis of polyphosphoinositides, albeit the magnitude of inositol phosphates generated in response to 9.3 was substantially less than that observed with anti-Ti. No effect on pkC translocation was observed in Jurkat cells stimulated with 9.3. Although the small increase in (Ca++)i induced by 9.3 may account for its synergy with PMA, this effect is unlikely to account for the more potent synergistic effect observed with 9.3 and phytohemagglutinin or immobilized anti-T3 and anti-Ti antibodies.     

Invariant chain influences post-translational processing of HLA-DR molecules

HLA class II MHC molecule alpha- and beta-chains are normally synthesized in the presence of a third molecule, the invariant chain (Ii). Although Ii is not required for surface expression of HLA class II molecules, the influence of Ii on post-translational processing and maturation HLA class II molecules has not been thoroughly studied. In the present study, BALB/c 3T3 cells were transfected with HLA-DR alpha- and beta-chains with or without co-transfection with human Ii. Although Ii had no effect on the surface expression of DR, Ii did have a profound effect on the post-translational processing of both the alpha- and beta-chains. In the absence of Ii, the major species of alpha- and beta-chains were of lower m.w. than when expressed in the presence of Ii. The differences in m.w. were shown to be caused by differences in glycosylation with the majority of alpha- and beta-chains remaining unprocessed and endo H sensitive in the absence of Ii. The small proportion of alpha-chains that were processed in the absence of Ii showed an altered m.w. and altered sensitivity to treatment with endo H relative to alpha-chains processed in the presence of Ii. Pulse/chase studies demonstrated that although the majority of the alpha- and beta-chains remained unprocessed in the absence of Ii, the small amount that was processed was done so at a rate similar to that observed for alpha- and beta-chains processed in the presence of Ii. These studies demonstrate that Ii influences the post-translational processing of human class II molecules by affecting the proportion of alpha- and beta-chains that are processed and by determining the degree of processing of oligosaccharides on mature alpha-chains.     

Role of protein kinase C in signal attenuation following T cell receptor engagement.

T lymphocyte activation through stimulation of the T cell receptor complex and co-stimulatory receptors is associated with acute tyrosine phosphorylation of intracellular proteins, which in turn mediate downstream signaling events that regulate interleukin-2 expression and cell proliferation. The extent of protein tyrosine phosphorylation is rapidly attenuated after only 1-2 min of stimulation as a means of tightly controlling the initial signaling response. Here we show that this attenuation of tyrosine phosphorylation of Shc, CrkL, and the proto-oncogene Cbl is mimicked by treatment of mouse T lymphocytes or cultured Jurkat cells with phorbol 12-myristate 13-acetate. This effect is blocked by the specific protein kinase C inhibitor GF109203X, but not by PD98059, an inhibitor of MEK1/2 kinase. Activation of protein kinase C by phorbol ester also causes rapid (t(1)/(2) = 2 min) dissociation of both CrkL and p85/phosphoinositide 3-kinase from Cbl concomitant with Cbl tyrosine dephosphorylation. More important, GF109203X treatment of Jurkat cells prior to T cell receptor stimulation by anti-CD3/CD4 antibodies results in an enhanced (2-fold) peak of Cbl phosphorylation compared with that observed in control cells. Furthermore, the rate of attenuation of both Cbl tyrosine phosphorylation and its association with CrkL following stimulation with anti-CD3/CD4 antibodies is much slower in Jurkat cells treated with GF109203X. Taken together, these data provide strong evidence that one or more isoforms of phorbol ester-responsive protein kinase C play a key role in a feedback mechanism that attenuates tyrosine phosphorylation of proteins and reverses formation of signaling complexes in response to T cell receptor activation.     

A dysfunctional Mo1 glycoprotein is present on a subline of the KG1 acute myelogenous leukemia cell line

Mo1 is a glycoprotein heterodimer found on the surface of phagocytic cells. By use of monoclonal antibodies directed against various epitopes of the 155 kd alpha-chain of Mo1, two distinct functions of this glycoprotein have been identified. Mo1 serves as the receptor (CR3) for iC3b, one of the breakdown products of the third component of complement, and in addition appears to be involved in promoting cell-cell adhesion of granulocytes. In studies performed with a subline of the acute myelogenous leukemia tumor cell line KG1, we found cells from this subline (KG1m) incapable of iC3b-mediated binding despite these cells having surface Mo1. Five distinct epitopes on Mo1 identifiable on normal cells by a panel of anti-Mo1 alpha-chain monoclonal antibodies (including OKM10, thought to be identical to or close to the iC3b binding site) were equally present on KG1m by indirect immunofluorescence. The electrophoretic mobilities of both the alpha- and beta-chains of Mo1 derived from KG1m were identical to those isolated from normal granulocytes. To determine whether altered receptor mobility or decreased surface density of Mo1 was responsible for the lack of Mo1-related functions, binding to EiC3b of isolated Mo1 derived from KG1m lysate was measured. KG1m-derived Mo1 did not bind to EiC3b when compared with normal granulocyte-derived Mo1, suggesting that the lack of iC3b binding is not secondary to decreased surface receptor number or mobility. This subline of KG1 provides an excellent model for the study of the relationship between surface receptor structure and function.