Identification and characterization of a hamster monoclonal antibody anti-2.28 directed against a 70-kilodalton activation antigen on human monocytes

Hamster mAb against activated human monocytes were examined for their reactivities against monocyte activation Ag. One mAb, anti-2.28, stained only monocytes activated with LPS plus IFN-gamma, but not unactivated peripheral blood monocytes, polymorphonuclear leukocytes, lymphocytes, RBC, and platelets. However, it stained peripheral blood T cells activated with PMA plus anti-CD3 and peripheral blood and tonsillar B cells activated with PMA plus anti-mu. Of the 35 cell lines of diverse origin examined for immunofluorescence staining by anti-2.28, only EBV-transformed cell lines showed strong staining by this mAb. One pre-B cell line, Nalm-12, could be induced by PMA to exhibit intermediate staining. Immunoprecipitation studies identified the 2.28 Ag as a 70- to 85-kDa monomer. Immunofluorescence staining, immunoprecipitation, and peptide mapping studies indicated that 2.28 was different from a number of monocyte and lymphocyte surface Ag including Mo3e, B-4 (CD19), B-5, CD39, and the G28-8 Ag Bgp 95. These studies suggest that 2.28 may be a novel hemopoietic non-lineage-specific activation Ag.     

Development of a monoclonal antibody, anti-6C2, which is involved in the interaction of CD4 T helper cells and activated B cells.

We have developed a mAb anti-6C2, by immunizing mice with T cell line derived from the Callithrix jacchus (common marmoset). Anti-6C2 is reactive with approximately 50% of unfractionated T cells, 50% of CD4+ cells, and 40% of CD8+ cells. Regarding CD4+ cells, anti-6C2-reactive cells substantially overlap with the CD29+CD45RO+ Th cell population. Moreover, anti-6C2 can divide these T cells into 6C2+ and 6C2- subpopulations. The CD4+CD45RO+6C2+ cells maximally respond to soluble Ag such as tetanus toxoid and provide strong helper function for PWM-driven B cell IgG synthesis. Most interestingly, anti-6C2 was also reactive against activated B cells but not resting B cells; furthermore, this epitope was inducible through activation of resting B cells or B cell line. Biochemical characterization showed that anti-6C2 precipitated two glycoproteins with the relative molecular weights of 180,000 and 95,000 from 125I-surface labeled cell lysate. Sequential immunoprecipitation studies demonstrated that these two glycoproteins were the lymphocyte function-associated antigen (LFA-1) Ag complex (CD11a/18). Significantly, although this antibody did not inhibit cytotoxic killer T cell responses and Ag-induced T cell proliferation as did conventional anti-LFA-1, it did inhibit PWM-driven B cell IgG synthesis. Because 6C2 expression was induced after B cell activation, the above results strongly suggest that the 6C2 molecule may play a role in the interaction of CD4 helper cells and activated B lymphocytes.     

A major 50-kDa human B-cell growth factor-II induces both Tac antigen expression and proliferation by several types of lymphocytes

Many cytokines have been documented to have a multiplicity of biological effects by acting on a variety of cells. In order to determine whether human BCGF-II acts on any cells in addition to normal B cells, the effect of human BCGF-II on murine thymocytes, human peripheral blood T cells, a human natural killer-like cell line, YT, and Epstein-Barr virus (EBV)-transformed B-cell lines was further examined. BCGF-II augmented incorporation of [3H]thymidine by murine thymocytes in combination with suboptimal doses (0.5 microgram/ml) of concanavalin A (Con A) but not at lower doses (0.1 microgram/ml) of Con A, a concentration usually used for interleukin 1 (IL-1) assays. BCGF-II could not induce proliferation or Tac antigen (Ag) expression on normal peripheral blood T cells stimulated with OKT3 antibody. Both proliferation and Tac Ag expression on YT cells were also augmented by BCGF-II. BCGF-II induced both high- and low-affinity IL-2 receptor (IL-2R) on YT cells as determined by 125I-IL-2-binding assay. Two of seven EBV-transformed B-cell lines tested (ORSON and AUM cells) in response to BCGF-II exhibited augmentation of proliferation and cell surface Tac Ag expression. BCGF-II in the presence of low doses (0.1 microgram/ml) of phorbol myristate acetate (PMA) also induced Tac Ag mRNA (3.5 and 1.5 kb) in these B-cell lines. The IL-2R induced on these B-cell lines, however, consisted mostly of low-affinity receptors. Both Tac Ag and its mRNA in these B-cell lines were not induced by Forskolin but by PMA, suggesting that this induction may involve protein kinase C. The present study shows that human BCGF-II can stimulate YT cells, murine thymocytes, and some EBV-transformed B-cell lines but not peripheral blood T cells. Consequently, BCGF-II can induce the growth and differentiation of a number of cell types in addition to normal B cells.     

Antibodies to 5'-nucleotidase (CD73), a glycosyl-phosphatidylinositol-anchored protein, cause human peripheral blood T cells to proliferate

Human peripheral blood T cells were stimulated to proliferate when cultured with submitogenic doses of PMA and goat antibodies to 5'-nucleotidase (5'-NT). The degree of proliferation, as measured by [3H]TdR incorporation on day 3, was similar to that achieved by stimulation with PHA. Anti-5'-NT antibodies had no effect on PHA-induced proliferation. Maximal stimulation was achieved with 0.6 to 1.0 ng/ml of PMA and 125 micrograms/ml of IgG isolated from a goat anti-5'-NT antiserum. Both intact IgG and F(ab')2 fragments were stimulatory. IL-2R expression and IL-2 secretion were also induced by anti-5'-NT antibodies and PMA. Anti-5'-NT-induced proliferation was inhibited greater than 95% by a murine anti-IL-2 receptor mAb and required less than 0.3% monocytes. Similar results have been obtained with a murine mAb specific for 5'-NT. As expected, anti-5'-NT antibodies and PMA did not induce the proliferation of ecto-5'-NT-T cells isolated by cell sorting. Pretreatment of total T cells with phosphatidylinositol-specific phospholipase C removed an average of 89% of the 5'-NT activity from the cell surface and also inhibited by 83% the ability of the cells to proliferate in response to anti-5'-NT antibodies and PMA. Thus, the activation signal provided by anti-5'-NT antibodies is apparently transduced, in large part, by a form of the enzyme that is attached to the membrane via glycosyl-phosphatidylinositol linkage. These data suggest that 5'-NT may play a role in lymphocyte activation as has been proposed for other glycosyl-phosphatidylinositol-anchored lymphocyte surface proteins.     

The 1A4 molecule (CD27) is involved in T cell activation.

We developed a new mAb, anti-1A4, which recognizes an epitope on the CD27 molecule distinct from those recognized by several known anti-CD27 mAb. Although it has been suggested that the CD27 molecule is a T cell activation Ag, there was little direct evidence that the structure was involved in the T cell activation process. In this study, we showed that anti-1A4 inhibited anti-CD2, anti-CD3, mitogens, or soluble Ag-induced T cell proliferation as well as PWM-driven B cell IgG synthesis. Interestingly, anti-1A4 inhibited IL-2 secretion without affecting IL-2R expression. In addition, pretreatment of T cells with anti-1A4 inhibited the normally sustained intracellular calcium mobilization seen after triggering of T cells via the CD2 or CD3 pathways. Thus, binding of anti-1A4 to the CD27 molecule appears to induce a negative effect on T cell activation. This may be due to either a direct signal to T cells or the blocking of an interaction between T cells and accessory cells or both. These findings support the notion that the CD27 molecule plays an integral role in the process of T cell activation.     

Comitogenic effect of solid-phase immobilized anti-1F7 on human CD4 T cell activation via CD3 and CD2 pathways

We have recently developed a mAb, anti-1F7, which defines a family of structures found to include the molecule recognized by anti-Ta1 (CD26). In this paper, we demonstrated that binding of 1F7 by solid-phase immobilized anti-1F7 mAb but not anti-Ta1 mAb has a comitogenic effect by inducing proliferation of human CD4+ T lymphocytes in conjunction with submitogenic doses of anti-CD3 or anti-CD2. The proliferative response induced via the CD3-1F7 or CD2-1F7 pathways is associated with the IL-2 autocrine pathway, including IL-2 production. IL-2R expression and anti-IL-2R (Tac) inhibition. Furthermore, solid-phase immobilization of anti-1F7 but not anti-Ta1 acts in conjunction with submitogenic doses of PMA to mediate a comitogenic effect in the absence of anti-CD3 or anti-CD2, leading to CD4+ T cell proliferation. PMA treatment, in the meantime, leads to enhanced expression of 1F7 on the T cell surface. Despite its functional association with both pathways of activation, however, the 1F7 structure is not comodulated with the CD3/TCR complex nor the CD2 molecule. These findings thus suggest that the CD26 Ag is involved in CD3 and CD2-induced human CD4+ T cell activation.     

Mechanisms of immune memory. T cell activation and CD3 phosphorylation correlates with Ta1 (CDw26) expression

The Ta1 (CDw26) Ag distinguishes a subset of circulating T lymphocytes that is the major population proliferating to recall Ag challenge. Unlike receptors for growth factors such as IL-2 and transferrin, the Ta1 Ag is present on T cell lines and clones irrespective of cell cycle. The appearance of Ta1 on T cells that respond to recall Ag allowed us to investigate activation requirements that may be associated with T cell immune memory. Ta1+ peripheral blood T cells were induced to proliferate by mAb recognizing either the invariant chains of the TCR, or by pairs of mitogenic antibodies directed to the CD2 molecule. In contrast, Ta1- cells were not stimulated by these antibodies. In addition, Ta1-cells did not proliferate maximally after addition of the phorbol ester PMA in combination with the calcium ionophore Ionomycin, suggesting that the intracellular targets of these agents may not be fully active. Anti-CD3-induced elevation of intracellular calcium levels was equivalent in the two subpopulations, suggesting that calcium mobilization mechanisms were intact. In contrast, PMA-induced phosphorylation of TCR CD3 chains was significantly greater in Ta1+ cells as compared to Ta1- T cells. Taken together, our results indicate that Ta1 expression, which is associated with T cell activation and memory, may be causally related to TCR and CD2-mediated activation mechanisms. The PMA inducible TCR phosphorylation in Ta1+ memory cells associated with their increased ability to proliferate after CD3/TCR or CD2 stimulation suggests that intracellular phosphorylation events may be causally associated with T cell immune memory.     

Triggering of co-mitogenic signals in T cell proliferation by anti-LFA-1 (CD18, CD11a), LFA-3, and CD7 monoclonal antibodies

Proliferative T cell responses were elicited in a comitogenic assay when purified mAb against CD 18, CD11a, LFA-3, and CD7 were immobilized onto solid plastic surfaces together with submitogenic doses of mAb against the CD3 complex. The proliferative response was associated to the production of IL-2 and to the expression of IL-2R. We explored the possibility that a second signal provided by either PMA or a Ca2+ ionofore could replace the anti-CD3 mAb in the comitogenic assay. Interestingly, our data clearly indicate that PMA but not the ionofore was capable of mediating the co-mitogenic effect in conjunction with solid-bound mAb (CDw18, CD11a, LFA-3, and CD7). We also demonstrate that the mAb (anti-CD4 and anti-CD2) which have been previously described as co-mitogenic in combination with anti-CD3 are capable of eliciting this activating signal in the presence of PMA. These data indicate that mAb to certain cell surface differentiation Ag that in soluble form inhibit T cell function such as LFA-1, LFA-3, and CD2 can under appropriate conditions induce co-mitogenic signals on T cells. Our results support the hypothesis that several cell surface differentiation Ag may participate in conjunction with the T3-Ti complex in the transmembrane signal transduction leading to T cell activation.     

Characterization of a CD3-like rat T cell surface antigen recognized by a monoclonal antibody

A mouse mAb, which recognized a rat T cell surface Ag responsible for the T cell activation, was produced by a regular hybridoma method using F344 rat T cells stimulated with PMA and a calcium ionophore, as the Ag. The mAb termed 1F4 (kappa-IgM) was reactive with rat T cells but not with B cells and immunohistochemically it stained rat thymus tissues strongly at medulla and weakly rat cortex. Addition of 1F4 mAb to a culture of T cells resulted in the proliferation of T cells by a help of PMA or a solid support. 1F4 mAb also caused the modulation of the corresponding Ag but not other T cell markers such as CD5, CD2, and OX-52-defined Ag. The 1F4 mAb immunoprecipitated a cell surface component having an apparent m.w. of 25,000 from rat T cells which could be associated with a disulfide-linked heterodimer (m.w. 92,000) consists of subunits having m.w. of about 52,000 and 43,000. These results strongly suggest that the 1F4 mAb recognizes a rat T cell Ag homologous to the human and mouse CD3.     

Activation of human T4 cells by cross-linking class I MHC molecules

These studies examined whether cross-linking class I MHC molecules results in functional or biochemical responses in human T4 cells. The initial studies demonstrated that cross-linking class I MHC molecules either by culturing highly purified T4 cells with immobilized mAb to class I MHC Ag or reacting the T4 cells with mAb to class I MHC Ag and then cross-linking the mAb with goat antimouse Ig (GaMIg) enhanced T4 cell proliferation induced by an immobilized mAb to CD3, OKT3. More-over, immobilized but not soluble mAb to class I MHC Ag enhanced T4 cell proliferation induced by the combination of two mAb to CD2, OKT11, and D66.2. Finally, T4 cells reacted with mAb to CD3 and class I MHC Ag proliferated in the presence of IL-2 when cross-linked with GaMIg more vigorously than T4 cells reacted with either mAb alone. Cross-linking class I MHC molecules was also found to stimulate T4 cells directly. T4 cells reacted with mAb to class I MHC Ag or beta 2 microglobulin and cross-linked with GaMIg proliferated vigorously in the presence of IL-2 or PMA. In addition, it was demonstrated that cross-linking class I MHC molecules by culturing T4 cells with immobilized mAb to class I MHC Ag induced T4 cell proliferation in the presence of IL-2. T4 cell proliferation in the presence of IL-2 and PMA could also be induced by reacting the cells with specific mAb to polymorphic determinants on class I MHC molecules and cross-linking with GaMIg. Cross-linking mAb to CD4 or CD11a did not have a similar functional effect on T4 cells. Finally it was demonstrated that adding GaMIg to T4 cells reacted with mAb to class I MHC Ag but not CD11a resulted in an increase in intracellular calcium concentration. The data demonstrate that cross-linking class I MHC molecules results in the generation of at least one activation signal, a rise in intracellular calcium concentration, and, thereby, stimulates human T4 cells.     

Cell surface modulation of CD26 by anti-1F7 monoclonal antibody. Analysis of surface expression and human T cell activation

In this paper, we examined in detail the ability of anti-1F7 to modulate 1F7 (CD26) surface expression as well as analyzed the functional relationship between the surface expression of CD3, CD2, and CD26 and human T cell activation. We showed that anti-1F7-induced modulation is an energy-dependent process that occurs via capping and internalization of the Ag-antibody complex. Although the recovery rate for Ag reexpression of 1F7 following optimal modulation is relatively delayed, reexpression of 1F7 is greatly accelerated following phorbol ester treatment. Most importantly, we demonstrated that modulation of the CD26 Ag leads to an enhancement in the proliferative activity of modulated human T cells treated with anti-CD3 or anti-CD2, which is preceded by an enhancement in Ca2+ mobilization. CD26 modulation also led to an increase in anti-CD3- or anti-CD2-mediated T cell clone proliferation. Finally, whereas modulation of the CD26 Ag has an effect on CD3- or CD2-induced T cell activation, modulation of the CD3/TCR complex inhibits the proliferative response of T cells incubated with anti-CD3 plus anti-1F7 or anti-CD2 plus anti-1F7. However, modulation of the CD2 structure does not affect anti-CD3- plus anti-1F7-induced human T cell activation. The above results thus provide additional evidence that the CD26 Ag plays an integral role in the regulation of human T cell activation.     

Differential activation requirements for virgin and memory T cells

Most studies of the activation requirements for T cells have used either T cell lines or populations of normal T cells that consist of a mixture of virgin and Ag-primed T cells. These two subpopulations of T cells can now be distinguished in humans by their reactivity with mAb. The anti-CD45R antibody HB10 identifies virgin T cells (T degrees) that are non-reactive to recall Ag and relatively poor at providing help for B cell differentiation. Conversely, memory T cells (T') that can react to recall Ag and enhance Ig production are non-reactive with anti-CD45R, but can be identified with the UCHL1 antibody. We have used these antibodies to separate the T degrees and T' populations and examine their activation requirements. On activation CD45R+ cells rapidly began to lose the CD45R Ag and express the UCHL1 Ag in increased amounts, whereas the UCHL1+ cells retained this phenotype. Both populations responded to PHA in the presence of monocytes, but when triggered by an antibody to CD3 only the T' cells were induced to express IL-2R, produce IL-2, and to proliferate. The T degrees population of cells remained relatively quiescent by all of these parameters. However, anti-CD3 stimulation conditioned the T degrees cells for IL-2 responsiveness, inasmuch as the addition of rIL-2 resulted in significant IL-2R expression and proliferation. When the CD4+ T degrees and CD4+ T' subpopulations were isolated and examined in the same assays similar results were obtained. The data indicate that fundamental differences exist in the triggering requirements for T degrees and T' cells.     

Activation of IL 1-dependent and IL 1-independent T cell lines by calcium ionophore and phorbol ester

We have studied the activation of interleukin 1 (IL 1)-dependent and IL 1-independent T cell lines, specifically their capacity to produce and secrete interleukin 2 (IL 2). The IL 1-dependent T cell lymphoma LBRM33-1A5.47, which requires phytohemagglutinin (PHA) and IL 1 to produce IL 2, was compared with the IL 1-independent T cell lymphoma LBRM33-5A4 and T cell hybridomas DO-11.10/S4.4 and 3DO-54.8. The latter hybridomas do not require exogenous IL 1 to produce IL 2 in response to mitogens or ovalbumin (OVA)/I-Ad. Even though IL 1 is not required by these IL 1-independent T cell lines, we tested whether IL 1 could modulate their response but found no significant effect of exogenous IL 1. We then studied the activation of these T cell lines by the calcium ionophore A23187 and phorbol myristate acetate (PMA). In the case of the IL 1-dependent line LBRM33-1A5.47, there was a strong response when both A23187 and PMA were used simultaneously. We subsequently found that A23187 can replace PHA, and PMA can replace IL 1 in the activation of this cell line to IL 2 production. These observations suggest that the signal(s) provided by PHA and IL 1 involve at least in part a calcium flux, and activation of protein kinase C. Parallel experiments with the use of the IL 1-independent T cell lines showed a strong response to both agents when used simultaneously. A modest response observed to A23187 alone was always enhanced by the addition of PMA. No response was observed to PMA alone. IL 1-rich P388D1 supernatant could replace the enhancing effect of PMA in the response of the IL 1-independent T cell lines. We suggest that the activating signals provided by A23187 and PMA are at least part of the sequence of events that lead to production of IL 2 in either IL 1-dependent or IL 1-independent T cell lines. In IL 1-independent T cell lines, however, both of the activating signals studied may be delivered through stimulation of the Antigen-MHC T cell receptor.     

Participation of the CD27 antigen in the regulation of IL-2-activated human natural killer cells.

The CD27 Ag is expressed by the majority of resting T lymphocytes and appears to play a crucial role in T cell activation. We found that some resting peripheral blood NK cells also express CD27. Furthermore, CD27 expression was up-regulated on NK cells stimulated by IL-2. The cytolytic activity of IL-2-activated, but not resting, NK cells was inhibited by an anti-CD27 mAb (anti-1A4). However, anti-1A4 did not affect conjugate formation between IL-2-activated NK cells and tumor cell targets. In contrast, anti-1A4 inhibited CD2-mediated calcium mobilization and the serine esterase activity of NK cell granules. These inhibitory effects could be mediated in part by increase in intracellular cAMP levels induced by anti-1A4. Our results suggest that the CD27 Ag plays an important role in the regulation of activated NK cells.     

Cross-reactive idiotypic determinants on antibodies and antigen-specific helper T cell continuous lines

Anti-idiotypic antibodies produced in C57BL/6 mice (H-2b, Igh-1b) against (T,G)-A--L-specific antibodies of C3H.SW mice (H-2b, Igh-1j) were used to probe (T,G)-A--L-specific helper T cell lines and clones for the expression of idiotypic determinants on the cell surface of the monoclonal functional T cells. By using the fluorescence-activated cell sorter (FACS II), anti-idiotypic sera of individual mice that specifically bind C3H.SW anti-(T,G)-A--L antibodies were shown to stain significantly cells of the E-9M(+) continuous T helper line originated from C3H.SW (T,G)-A--L "educated" T cells. The same antisera did not react with a helper T cell line of C3H.SW origin specific to human gamma-globulin. They also did not stain a (T,G)-A--L-specific helper T cell line derived from CWB (H-2b, Igh-1b) mice, which differ from C3H.SW mice only in their heavy chain allotypes. Thus, the expression of the idiotypic determinants on the T cell lines appears to be antigen-specific and linked to the heavy chain allotypic marker as shown for the specific antibodies. Different clones derived from the E-9 M(+) line were tested their reactivity with the individual anti-idiotypic sera. All clones but one (1.11) were stained significantly. The clones were tested for their biologic activity and all of them except clone 1.11 were found to exert helper activity specific to (T,G)-A--L. Thus, individual anti-idiotypic sera against C3H.SW anti-(T,G)-A--L antibodies recognize cross-reactive idiotypic structures on the surface of antigen-specific monoclonal helper T cells.     

1F7 (CD26): a marker of thymic maturation involved in the differential regulation of the CD3 and CD2 pathways of human thymocyte activation.

We have recently shown that solid-phase immobilization of anti-1F7 recognizing the 110-kDa CD26 Ag is comitogenic for human peripheral blood T cell activation via both the CD3 and CD2 pathways. We have also demonstrated that binding of anti-1F7 leads to the disappearance of CD26 surface expression, and this anti-1F7-induced modulation results in an increase in anti-CD3 or anti-CD2-mediated peripheral blood T cell activation. In this report, we extended these findings by examining the expression and functional relationship of 1F7 on the CD3 and CD2 pathways of activation of human thymocytes. We now demonstrated that most of the anti-1F7 reactivity is found on medullary thymocytes, the population of thymocytes expressing high level of CD3 (CD3H). We have also shown that binding of anti-1F7 can induce a decrease in CD26 surface expression, with no detectable effect on the surface expression of CD3 or CD2. Most importantly, we showed that solid-phase immobilization of anti-1F7 has a comitogenic effect on thymocyte activation induced by anti-CD3 but not anti-CD2. In addition, anti-1F7-induced modulation of CD26 results in an enhancement in CD3-mediated but not CD2-mediated human thymocyte activation. The observed functional effect of CD26 on the CD3/TCR pathway of activation is mainly restricted to mature thymocytes as distinguished by high surface expression of CD5, although CD26 is also functionally associated with the CD3/TCR pathway on cells expressing low level of CD5. Demonstrating that CD26 involvement in the regulation of human thymocyte activation is restricted mainly to the CD3 pathway, unlike its involvement with both the CD3 and CD2 pathways of mature peripheral blood T lymphocyte activation, our data hence suggested that CD26 may play a role in thymic differentiation and maturation via the differential engagement of the CD3 pathway.     

Characterization of a cell surface-expressed disulfide-linked dimer involved in murine T cell activation

We have produced a hamster mAb, H1.2F3, which was derived by immunization with a murine TCR-gamma delta + epidermal T cell line. H1.2F3 immunoprecipitates a cell surface-expressed disulfide-linked dimer that has a m.w. of 85,000 under non-reducing conditions and consists of subunits of 35,000 to 39,000 m.w. This dimer is distinct from the CD3-associated TCR-gamma delta complex (CD3/TCR), inasmuch as H1.2F3 does not co-precipitate or co-modulate with the CD3/TCR complex and recognizes an Ag with a single-peptide backbone of 22,000 m.w. after N-Glycanase treatment. H1.2F3 is weakly reactive with a small percentage of cells from unfractionated thymus, spleen, or lymph node, but reactivity with both T and B lymphocytes is markedly enhanced by a brief period of stimulation with Con A or PMA in vitro. This enhancement requires de novo protein synthesis. Enhanced expression of the H1.2F3 Ag can also be induced in vivo by injection of Con A or anti-CD3. H1.2F3 is a potent stimulator of T, but not B, cell proliferation in the presence of PMA and FcR-bearing accessory cells. These functional and biochemical studies strongly suggest that the Ag recognized by H1.2F3 is the murine homologue of the human CD28 Ag recognized by mAb 9.3.     

Functional characterization of ecto-5'-nucleotidase-positive and -negative human T lymphocytes

Functional studies were performed on human peripheral blood T lymphocytes stained with goat anti-5'-nucleotidase antibodies and separated into ecto-5'-nucleotidase (ecto-5'-NT)-positive and -negative populations using the FACSTAR fluorescence-activated cell sorter. On the average, ecto-5'-NT+ T cells contained 34 +/- 13% CD4+ and 55 +/- 15% CD8+ cells, whereas ecto-5'-NT-T cells contained 65 +/- 12% CD4+ and 23 +/- 8% CD8+ cells. Staining with anti-5'-NT antibodies did not significantly alter the ability of unseparated T cells to proliferate in response to PHA or PMA, or in a MLR. However, prior incubation with anti-5'-NT antibodies did inhibit the ability of irradiated T cells to provide help for PWM-stimulated Ig synthesis by as much as 55%. In five separate experiments, ecto-5'-NT-T cells demonstrated an equal or better ability to incorporate [3H]TdR after PHA stimulation or in a MLR, as compared with ecto-5'-NT+ T cells. Similarly, ecto-5'-NT- T cells were not diminished in their ability to provide help for autologous B cells in a PWM-driven system. Clearly, the inability of ecto-5'-NT- T cells from patients with a variety of immunodeficiency diseases to function in these assays cannot be explained solely by their lack of ecto-5'-NT activity. In contrast, ecto-5'-NT-positive and -negative T cells showed markedly different dose-response curves for proliferation in response to PMA. Ecto-5'-NT+ T cells responded to lower doses of PMA (1.0 ng/ml) than did ecto-5'-NT- T cells and showed a two- to eight-fold greater rate of [3H]TdR incorporation at 3 to 10 ng of PMA per ml. Ecto-5'-NT+ T cells may have a protein kinase C that is more accessible or more easily activated or may utilize an alternate pathway of activation when stimulated with low concentrations of PMA.