The functional significance, distribution, and structure of LFA-1, LFA-2, and LFA-3: cell surface antigens associated with CTL-target interactions

Three cell surface antigens associated with the cytolytic T lymphocyte(CTL)-target cell interaction were identified by generation of monoclonal antibodies (MAb) against OKT4+, HLA-DR-specific CTL and selection for inhibition of cytolysis in a 51Cr-release assay. These MAb block cytolysis by both OKT4+ and OKT8+ CTL and the proliferative responses to PHA and the mixed lymphocyte response (MLR). LFA-1 is an antigen widely distributed on lymphoid tissues and is composed of two polypeptides of 177,000 and 95,000 Mr on all cell types studied. Anti-LFA-1 MAb block NK cell-mediated cytolysis in addition to T lymphocyte-mediated cytotoxicity and proliferation. LFA-2 (Mr = 55,000 to 47,000), a determinant on the sheep red blood cell receptor, is expressed by T cells but not B cells and appears specific for T cell functions. LFA-3 (Mr = 60,000) is a widely distributed antigen present on both hematopoietic and nonhematopoietic tissues and appears to only be involved in T cell functions. MAb to LFA-1 and LFA-2 inhibit function by binding to effector cell surface molecules, whereas anti-LFA-3 MAb appear to block by binding to the target cells. Together with previously described molecules, LFA-1, LFA-2, and LFA-3 demonstrate the complexity of CTL-mediated cytotoxicity at the molecular level.     

Human lymphocyte function associated antigen-1 (LFA-1): identification of multiple antigenic epitopes and their relationship to CTL-mediated cytotoxicity

Human lymphocyte function-associated antigen (LFA)-1, a heterodimeric lymphocyte surface glycoprotein of 177,000 and 95,000 relative molecular weight has been implicated to function in the cytotoxic T lymphocyte (CTL) effector mechanism. Seven mouse hybridoma lines producing monoclonal antibodies (MAb) reactive with this structure were studied. Three unique and 3 partially over-lapping epitopes on human LFA-1 were defined by competitive cross inhibition binding assays using biosynthetically labeled anti-LFA-1 MAb. In contrast, of five rat antimouse LFA-1 MAb, all five recognized a common or shared epitope. An HLA-B7 specific human CTL line expressed 1.1 X 10(5) LFA-1 sites per cell with a direct saturation binding assay. Human CTL expressed two to four times more LFA-1 than peripheral blood lymphocytes or B and T lymphoblastoid cell lines. Titration of each of the anti-LFA-1 MAb in a 51chromium release cytolytic assay revealed quantitative differences in the ability of the different anti-LFA-1 MAb to block cytolysis indicating distinct functional and antigenic epitopes exist on the human LFA-1 molecule. Anti-LFA-1 MAb reversibly inhibited the CTL reaction by slowing the initial rate of cytolysis. These results suggest anti-LFA-1 MAb inhibit CTL function by specific blockade of a functionally relevant molecule.     

Intercellular adhesion molecule-1 (ICAM-1) is involved in the cytolytic T lymphocyte interaction with a human synovial cell line

The cell surface molecules involved in the human cytolytic T lymphocyte (CTL)-synovial cell interaction may play an important role in T cell interactions with connective tissue mesenchymal cells. To examine the molecular basis for the CTL-synovial cell interaction, we immortalized synovial cell explants to establish the cell line SYN.SPP. The SYN.SPP cell line was compared to the established B lymphoblastoid cell line JY. Cell surface immunofluorescence demonstrated significantly different levels of the immunologically relevant cell surface molecules ICAM-1 and LFA-3. Both cell lines were used to stimulate CTL precursors. After several months in culture, CTL lines stimulated by the SYN.SPP and JY cell lines demonstrated HLA class I-directed cytolytic activity. The cell surface molecules utilized by the anti-SYN.SPP and anti-JY CTL lines were identified by monoclonal antibody (MAb) inhibition. MAb recognizing the CTL cell surface molecules CD3, CD8 and LFA-1 (CD11a) significantly inhibited CTL-mediated lysis of both target cells. An interesting observation was that the anti-SYN.SPP CTL line appeared to utilize the ICAM-1 and not the LFA-3 target cell molecule. In contrast, the anti-JY CTL line utilized the LFA-3 and not the ICAM-1 membrane molecule. These results indicate that CTL interactions with connective tissue mesenchymal cells may be regulated by a unique pattern of antigen nonspecific cell-cell interaction molecules.     

Effects of monoclonal antibodies directed against murine T lymphocyte cell surface antigens on lymphokine production by cloned T lymphocytes reactive with class I MHC or Mls alloantigens

Monoclonal antibodies recognizing murine T lymphocyte cell surface structures implicated in T lymphocyte-mediated cytolysis, including Lyt-2, L3T4, LFA-1, and a cytolytic T lymphocyte (CTL) clonotypic determinant, were used as probes to investigate the role of these structures in lymphokine production by T cell clones induced by antigen or lectin. The clone-specific antibody 384.5 bound to and inhibited antigen-induced lymphokine production by the L3 CTL clone, but did not affect lymphokine production by other T cell clones. Antibodies against the T cell surface structures Lyt-2 or L3T4, which are expressed by mutually exclusive T cell subsets, inhibited antigen-induced lymphokine production by class I major histocompatibility complex (MHC) antigen-reactive CTL clones or an M1s-reactive helper T lymphocyte (HTL) clone, respectively. Antibody against the broadly distributed LFA-1 molecule inhibited antigen-induced lymphokine production by all of the clones tested. Lectin-induced lymphokine production by cloned T cells was not inhibited by the clonotypic antibody, anti-Lyt-2, or anti-LFA-1; slight inhibition of the HTL clone was observed with the anti-L3T4 antibody. None of these structures appear to be uniquely involved with a particular functional response. Our results suggest that each of these structures is involved with the interactions between the effector cell and the stimulating cell leading to lymphokine production.     

Delta 9-tetrahydrocannabinol decreases cytotoxic T lymphocyte activity to herpes simplex virus type 1-infected cells.

The purpose of this study was to examine the effect of delta 9-tetrahydrocannabinol (delta 9-THC), the major psychoactive component of marijuana, on T lymphocyte functional competence against herpes simplex virus Type 1 (HSV1) infection. Spleen cells from C3H/HeJ (H-2k) mice primed with HSV1 and exposed to delta 9-THC were examined for anti-HSV1 cytolytic T lymphocyte (CTL) activity. Flow cytometry was used to determine whether delta 9-THC altered T cytotoxic (Lyt-2+) and T helper (L3T4+) lymphocyte numbers or cell ratios. Nomarski optics microscopy was used to determine whether effector lymphocytes from drug-treated mice were able to bind to virally infected L929 (H-2k) target cells. Cytotoxicity assays demonstrated that CTL from mice exposed to delta 9-THC were deficient in anti-HSV1 cytolytic activity. delta 9-THC in vivo treatment had little effect on the number of T lymphocytes expressing the Lyt-2 or L3T4 antigens. Nomarski optics microscopy revealed that the CTL from the drug-treated mice were able to bind specifically to the HSV1-infected targets. However, delta 9-THC in vivo exposure affected CTL cytoplasmic polarization toward the virus-infected target cell. CTL granule reorientation toward the effector cell-target cell interface following cell conjugation occurred at a lower frequency in co-cultures containing CTL from drug-treated mice. These results suggest that delta 9-THC elicits dysfunction in CTL by altering effector cell-target cell postconjugation events.     

Defective CD8+ T cell activation and cytolytic function in the absence of LFA-1 cannot be restored by increased TCR signaling.

Signaling through the TCR as well as engagement of costimulatory molecules are required for efficient T cell activation and progression into differentiated effector cells. The beta2 integrin LFA-1 (CD11a/CD18) has been implicated in TCR costimulation as well as in cell-cell adhesion function, but its exact role is still ambiguous. The present study focuses on the requirement for LFA-1 in CD8+ T cell activation and effector function using LFA-1-deficient cells expressing the 2C transgenic TCR as a model system. The lack of LFA-1 expression in 2C T cells resulted in severely diminished proliferative response toward allogeneic BALB/c splenocytes. Increase in TCR signaling alone by pulsing stimulators with high affinity peptides, p2Ca or QL9, had minimal effects in restoring proliferation. Addition of exogenous IL-2, however, enhanced the effect of peptide pulsing on proliferation of LFA-1-deficient 2C T cells. LFA-1-deficient 2C CTLs generated from alloantigen stimulation exhibited a defective cytotoxic activity when tested on a variety of target cells. Cytolysis could be improved, but not fully rectified by peptide pulsing of target cells. Thus, in the 2C TCR model, LFA-1 has a requisite role for optimal CD8+ T cell activation and effector function, which cannot be overcome by increasing peptide/MHC density on either the APCs or target cells, respectively.     

Enhanced cytotoxic T cell activity in IL-4-deficient mice

CD8+ effectors are critical components of type 1 responses against viral infections as well as for antiviral vaccines. IL-4 plays a clear role as an inhibitor of CD4+ Th1 cells; however, its role in CD8+ T cell regulation appears to be more complex. Thus, IL-4 may augment CD8+ T cell growth, but also limit effector function. Moreover, abundant IL-4 is inhibitory for viral clearance, but the lack of IL-4 appears not to affect CTL-mediated immunity. This report investigates these disparate roles of IL-4 in CD8+ T lymphocyte regulation by comparing T cell responses specific for a single HIV-IIIIB gp120-derived epitope in BALB/c mice deficient in IL-4 to those in wild-type controls. CTL activation was monitored during the acute and memory phases following immunization with recombinant vaccinia virus. Similar frequencies of gp120-specific CTL precursors in splenocytes from both groups indicated that IL-4 plays no significant role in either CTL priming or the establishment of memory. However, cytolytic activity in cultures derived from IL-4-deficient mice developed earlier and was strikingly enhanced following in vitro restimulation, an effect exhibited by both primary and memory T cells. Secretion of IL-2 and IFN-gamma by CD8+ T cells from IL-4-deficient mice was also elevated, reflecting their enhanced activation. Thus, IL-4 appears to limit the activation, expansion, and differentiation of CD8+ T cells with high cytolytic potential.     

A human intercellular adhesion molecule (ICAM-1) distinct from LFA-1

Homotypic adhesion by phorbol ester-stimulated lymphocytes requires LFA-1 and Mg+2 and does not involve like-like interactions between LFA-1 molecules on adjacent cells. The latter finding suggested that a second molecule, distinct from LFA-1, also participates in LFA-1-dependent adhesion. The identification of such a molecule was the object of this investigation. After immunization with LFA-1-deficient EBV-transformed lymphoblastoid cells, a MAb was obtained that inhibits phorbol ester-stimulated aggregation of LFA-1+ EBV lines. This MAb defines a novel cell surface molecule, which is designated intercellular adhesion molecule 1 (ICAM-1). ICAM-1 is distinct from LFA-1 in both cell distribution and structure. In SDS-PAGE, ICAM-1 isolated from JY cells is a single chain of Mr = 90,000. As shown by MAb inhibition, ICAM-1 participates in phorbol ester-stimulated adhesion reactions of B lymphocyte and myeloid cell lines and T lymphocyte blasts. However, aggregation of one T lymphocyte cell line (SKW-3) was inhibited by LFA-1 but not ICAM-1 MAb. It is proposed that ICAM-1 may be a ligand in many, but not all, LFA-1-dependent adhesion reactions.     

Differential impairment of lytic and cytokine functions in senescent human immunodeficiency virus type 1-specific cytotoxic T lymphocytes

Telomere length is abnormally short in the CD8(+) T-cell compartment of human immunodeficiency virus type 1 (HIV-1)-infected persons, likely because of chronic cell turnover. Although clonal exhaustion of CD8(+) cytotoxic T lymphocytes (CTL) has been proposed as a mechanism for loss of antigen-specific responses, the functional consequences of exhaustion are poorly understood. Here we used telomerase transduction to evaluate the impact of senescence on CTL effector functions. Constitutive expression of telomerase in an HIV-1-specific CTL clone results in enhanced proliferative capacity, in agreement with prior studies of other human cell types. Whereas the CTL remain phenotypically normal in terms of antigenic specificity and requirements for proliferation, their cytolytic and antiviral capabilities are superior to those of control CTL. In contrast, their ability to produce gamma interferon and RANTES is essentially unchanged. The selective enhancement of cytolytic function in memory CTL by ectopic telomerase expression implies that loss of this function (but not cytokine production) is a specific consequence of replicative senescence. These data suggest a unifying mechanism for the in vivo observations that telomere lengths are shortened in the CD8(+) cells of HIV-1-infected persons and that HIV-1-specific CTL are deficient in perforin. Telomerase transduction could therefore be a tool with which to explore a potential therapeutic approach to an important pathophysiologic process of immune dysfunction in chronic viral infection.     

Cyclosporine-induced tolerance in experimental organ transplantation. Evidence of diminished donor-specific cytotoxicity relative to donor-specific proliferative response

Alloreactivity of intragraft and peripheral blood lymphocytes from tolerant canine lung allograft recipients was examined. Tolerance was induced by variable periods of treatment with cyclosporine. Analysis of effector cells from lung allografts (obtained by bronchoalveolar lavage) revealed the absence of specific cytolytic T lymphocyte (CTL) activity and the presence of a low level of cytolytic activity detected in a lectin-dependent cell-mediated cytotoxicity assay. In contrast, high levels of specific CTL activity and lectin-dependent activity were detected in cell preparations from lung allografts undergoing rejection. Tolerant recipients retained normal ability to generate specific CTL activity to third party alloantigens in mixed lymphocyte cultures (MLC) but had diminished ability to generate CTL to donor alloantigens in recipient X donor MLC. Addition of exogenous interleukin 2 to these MLC was unable to restore donor-specific CTL activity. Lymphocytes from tolerant recipients were, however, capable of generating proliferative responses and lectin-dependent cytotoxicity on exposure to donor alloantigens in MLC. Evidence presented in this report suggests that the lectin-dependent cytolytic activity generated in these MLC is mediated by lymphokine-activated killer cells. Such cells are likely to be activated by interleukin 2 released in the proliferative response. The results support the proposal that the cyclosporine-induced tolerant state is characterized by the relative inability to respond against major histocompatibility complex class I antigens in contrast to class II antigens and/or minor histocompatibility antigens since MLC-induced CTL are directed, for the most part, against class I molecules.     

Cytokine-stimulated T lymphocyte proliferation is regulated by p27Kip1

T lymphocyte growth is regulated by the cyclin-dependent kinase inhibitor p27(Kip1). Mice deficient in p27(Kip1) have increased proliferative responses to multiple cytokines, including IL-2, IL-4, and IL-12, but not to anti-CD3. In the absence of p27(Kip1), T cells proliferate faster than control cells, as evidenced by increased [(3)H]thymidine uptake, increased cell growth and division, and an increased number of cells in S phase. Importantly, this regulation is specific for p27(Kip1) in T cells, because hyperproliferation of T cells from mice deficient in p21(Cip1/Waf1) was not observed. In vivo, there is an expansion of activated/memory CD4(+) cells in p27(Kip1)-deficient mice before and after immunization. Furthermore, Ag-stimulated spleen cells from immunized p27(Kip1)-deficient mice demonstrated increased proliferative responses to IL-2 and increased secretion of IFN-gamma. Although IL-4 stimulated proliferative responses are diminished in Stat6-deficient T cells, activated T cells from mice doubly deficient in both p27(Kip1) and Stat6 recover normal proliferative responses to IL-4. Together, these data firmly support a role for p27(Kip1) as a negative regulator of cytokine-stimulated T cell growth.     

Identification of 5 topographic domains of the mouse LFA-1 molecule: subunit assignment and functional involvement in lymphoid cell interactions

We have evaluated the serologic and T cell function inhibiting properties of 10 rat mAb reactive with the mouse LFA-1 molecule. Binding inhibition studies revealed that these mAb identified five topographic domains on LFA-1, including an immunodominant epitope region (A) defined by 6 mAb (H35-89, H68-96, H85-326, H129-37, H154-595, and H155-141) and four other spatially separate epitopes each defined by a single mAb (i.e., B, H154-266; C, H129-296; D, H154-163; and E, H155-78). Immunoprecipitation studies carried out with T cell hybridoma detergent lysate containing native or dissociated alpha and beta LFA-1 subunits permitted assignment of the epitopes A, C, and D to the alpha-chain, while expression of the epitopes B and E required homologous pairing of the alpha and beta LFA-1 subunits. These anti-LFA-1 mAb did not bind to the Mac-1 positive P388D1 cells. All the six mAb directed at epitope A inhibited, in the range of 50 to 95%, the proliferative responses of alloantigen- or soluble-antigen GAT-specific T cell clones and the cytolytic activity of I-Ak-specific CTL clones. MAb reactive with the epitopes C and D also blocked these T cell responses, although to a lesser extent. No inhibition was observed with mAb specific to epitope B, whereas the epitope E-specific mAb H155-78 potentiated control T cell responses by 20 to 40%. Suboptimal amounts of anti-L3T4 mAb H129-19 were found to synergistically enhance the T cell function inhibiting properties of mAb to LFA-1 epitopes A, C, and D. These studies reveal an unexpected diversification of LFA-1 between mouse and rat species and further the functional dissection of this molecule.     

Cellular immune response of SIV-infected rhesus macaques

Optimal conditions for the assessment of T cell proliferation and cytolytic T lymphocyte (CTL) responses specific for primate lentivirus were established. CTL and T cell proliferative responses were demonstrated as early as two weeks post-infection. Although the majority of CTL were CD8+, MHC class I-restricted, this study demonstrated CD4+, MHC class II-restricted CTL. Experiments also demonstrated that CTL were CD16 negative. Target cell generation could be blocked with CD4 mAb specific for the SIV binding site.     

The lymphocyte function-associated antigen (LFA)-1 and CD2/LFA-3 pathways of antigen-independent human T cell adhesion

Human cytotoxic T lymphocyte clones form conjugates with both antigen-positive and antigen-negative lymphoblastoid cells. Conjugates with antigen-negative targets form as rapidly, and are almost as frequent, as those with antigen-positive targets; both types are strong. Monoclonal antibodies against lymphocyte function-associated antigen (LFA)-1, CD2, and LFA-3 (or their Fab fragments) each consistently inhibit conjugate formation, but only partially; mixes of alpha LFA-1 with either CD2 monoclonal antibodies or alpha LFA-3 cause complete inhibition. Our previous studies have demonstrated two distinct pathways of antigen-independent conjugate (AIC) formation, one involving LFA-1 and the other involving CD2/LFA-3. The present studies showing supra-additive inhibition with mixes of Fab indicate that at least a major fraction of the conjugates involve T cells which utilize both pathways. Preincubation studies (and restricted expression for CD2) demonstrate that in the CD2/LFA-3 pathway, CD2 is critical on the effector and LFA-3 on the target and that in the LFA-1 pathway, LFA-1 is critical on the effector. Analysis of conjugate formation by primary allosensitized T cells confirms the critical findings made with T cell clones. Among a panel of antigen-negative "target" cell lines tested, there is wide variation in the number of AIC formed with cytotoxic T lymphocyte clones; this variation correlates partially with differences in level of expression of LFA-3. Both pathways of adhesion are utilized in AIC formation with all five targets tested, but there was variation between targets in the relative contribution by each pathway. Studies of inhibition of lysis (rather than conjugate formation) support the relevance of the two-pathway model to the lytic process as a whole. These studies demonstrate the general involvement of two pathways of adhesion in human T cell interactions: one involving T cell LFA-1 and the other involving T cell CD2 binding to target cell LFA-3.     

Effect of cyclosporin A on human lymphocyte responses in vitro. III. CsA inhibits the production of T lymphocyte growth factors in secondary mixed lymphocyte responses but does not inhibit the response of primed lymphocytes to TCGF

The mechanism whereby Cyclosporin A (CsA) inhibits secondary mixed lymphocyte responses was assessed. CsA added to secondary MLR cultures inhibited proliferation and induction of cytolytic lymphocyte activity. This inhibition was found to be associated with the inhibition of T lymphocyte stimulating growth factor(s) (TCGF) production in the supernatants of secondary MLR cultures. As little as 1.0 micrograms/ml of CsA added to secondary MLR cultures resulted in no measurable TCGF activity. In contrast, moderate doses of CsA (1.0, 2.5 micrograms/ml), which completely inhibited the secondary MLR response to alloantigen, did not inhibit the proliferative and CML response of alloantigen-primed lymphocytes to these stimulating growth factors. Even at high doses of CsA (20 micrograms/ml), substantial levels of proliferation (50% of control response) and CML induction (60% of control response) were observed when the primed cells were exposed to secondary MLR supernatants containing TCGF activity. It was concluded that inhibition of secondary mixed lymphocyte responses by CsA may be due in part to the inhibition of TCGF production rather than the inhibition of the effect of TCGF on mature cytotoxic T lymphocytes.     

CTL adhesion and antigen recognition are discrete steps in the human CTL-target cell interaction

Th initial step in cytolytic T lymphocyte (CTL)-mediated cytolysis involves target cell adhesion and antigen recognition. To investigate these initial events in the CTL-target interaction, we used HLA-A2- and HLA-B7-specific human CTL clones and HLA-typed B lymphoblastoid target cells. By using two different adhesion assays, we demonstrated antigen nonspecific CTL-target cell adhesion. To more precisely define the contribution of the antigen-specific receptor to CTL-target cell adhesion, we used the HLA-A2, HLA-B7, and mock transfected RD target cells. Consistent with the results when using B lymphoblastoid target cells, the CTL clones demonstrated equivalent adhesions to the RD target cells whether or not they expressed HLA-A2 or HLA-B7. These results suggested that CTL-target cell adhesion occurred independent of the T cell receptor. By using the calcium-sensitive dye Indo-1 and flow cytometry, we assessed CTL-target cell adhesion and CTL activation. Simultaneous measurement of adhesion and intracellular free calcium demonstrated that CTL-target cell adhesion alone did not activate CTL clones. Both CTL-target cell adhesion and the presence of the appropriate HLA target molecule were necessary for the efficient activation of human CTL. MAb inhibition studies indicated that antigen nonspecific adhesion is largely regulated by the LFA-1, CD2 (LFA-2/T11), and LFA-3 cell surface molecules. These antigen nonspecific cell-cell interaction molecules appear to play an important role in facilitating antigen recognition and subsequent target cell lysis.     

Differential sensitivity of cytotoxic T lymphocytes and lymphokine-activated killer cells to inhibition by L-ornithine

The selective inhibition of murine cytotoxic T lymphocyte (CTL) differentiation in C57B1/6 (B6) anti-DBA/2 mixed leukocyte cultures (MLC) by the amino acid L-ornithine (Orn) could not be reversed by addition of up to 1000 U/ml IL-2. Analysis of the effects of Orn on induction of lymphokine-activated killer (LAK cells), using dosages of IL-2 from 10-1000 U/ml and measuring cytolytic activity against two tumor targets (P815 and YAC-1) over the course of 5 days, indicated that LAK cells were not suppressed by Orn. LAK precursors and effector cells were CD8- and ASGM1+, indicating that they were derived from natural killer (NK) cells. We also found that the growth and maintenance of cloned CTL lines were not sensitive to inhibition by Orn; nor was their acquisition of nonspecific cytolytic activity in the presence of high lymphokine concentrations. Thus, induction of naive CTL shows differential susceptibility to Orn inhibition relative to LAK and LAK-like activities by NK and cloned CTL lines in response to IL-2.     

Functional characteristics of BALB/c T cell lines: suppression in the mixed lymphocyte response and cell-mediated lysis.

Previously, 10 BALB/c T cell lines (Thy 1.2+, Ig-) were shown to express different combinations of Ly 1 and Ly 2 antigens. The possible immunologic function(s) of these tumor cells was determined by investigating the effects of these cells on the responses to mitogens, the mixed lymphocyte response (MLR), and the generation of cell-mediated lysis (CML) by normal spleen cells. Five T cell lines, P1798 and BALENTL 3, 5, 8, and 9, continued to synthesize DNA after exposure to large doses of irradiation. Only BALENTL 4, 6, 7, and 14 (Ly 1-(2+)) and BALENTL 13 (Ly 1+(2-)) were radiosensitive and therefore amenable to study. BALENTL 4 and 14 gave significant suppression of the MLR between BALB/c and C57BL/6; BALENTL 14 also inhibited the generation of BALB/c effector cells against C57BL/6 spleen cells. None of these T cell lines had any effect on the proliferative response of BALB/c spleen cells induced by concanavalin A. However, there was approximately 50% suppression of the phytohemagglutinin response of BALB/c spleen cells by BALENTL 14.     

Identification of a novel mechanism for LFA-1 organization during NK cytolytic response

The elimination of transformed and viral infected cells by natural killer (NK) cells requires a specialized junction between NK and target cells, denominated immunological synapse (IS). After initial recognition, the IS enables the directed secretion of lytic granules content into the susceptible target cell. The lymphocyte function-associated antigen (LFA)-1 regulates NK effector function by enabling NK-IS assembly and maturation. The pathways underlying LFA-1 accumulation at the IS in NK cells remained uncharacterized. A kinase anchoring protein 350 (AKAP350) is a centrosome/Golgi-associated protein, which, in T cells, participates in LFA-1 activation by mechanisms that have not been elucidated. We first evaluated AKAP350 participation in NK cytolytic activity. Our results showed that the decrease in AKAP350 levels by RNA interference (AKAP350KD) inhibited NK-YTS cytolytic activity, without affecting conjugate formation. The impairment of NK effector function in AKAP350KD cells correlated with decreased LFA-1 clustering and defective IS maturation. AKAP350KD cells that were exclusively activated via LFA-1 showed impaired LFA-1 organization and deficient lytic granule translocation as well. In NK AKAP350KD cells, activation signaling through Vav1 was preserved up to 10 min of interaction with target cells, but significantly decreased afterwards. Experiments in YTS and in ex vivo NK cells identified an intracellular pool of LFA-1, which partially associated with the Golgi apparatus and, upon NK activation, redistributed to the IS in an AKAP350-dependent manner. The analysis of Golgi organization indicated that the decrease in AKAP350 expression led to the disruption of the Golgi integrity in NK cells. Alteration of Golgi function by BFA treatment or AKAP350 delocalization from this organelle also led to impaired LFA-1 localization at the IS. Therefore, this study characterizes AKAP350 participation in the modulation of NK effector function, revealing the existence of a Golgi-dependent trafficking pathway for LFA-1, which is relevant for LFA-1 organization at NK-lytic IS.     

Species-restricted recognition of transfected HLA-A2 and HLA-B7 by human CTL clones

Human cytolytic T lymphocytes (CTL) clones and HLA-A2- and HLA-B7-transfected human, monkey, and mouse cell lines were used to investigate the basis for species-restricted antigen recognition. Most allospecific CTL clones obtained after stimulation with the human JY cell line (source of HLA-A2 and HLA-B7 genomic clones) recognized HLA antigens expressed in human and monkey cell lines but did not recognize HLA expressed in murine cells. By initially stimulating the responder cells with HLA-transfected mouse cells, two CTL clones were obtained that recognized HLA expressed in murine cells. Functional inhibition of these CTL clones with anti-class I monoclonal antibodies (MAb) indicated that clones reactive with HLA+ murine cells were of higher avidity than clones that did not recognize HLA+ murine target cells. MAb inhibition of accessory molecule interactions demonstrated that the LFA-1 and T8 surface molecules were involved in CTL-target cell interactions in all three species. In contrast, the LFA-2/CD2 molecule, previously shown to participate in a distinct activation pathway, was involved in the cytolysis of transfected human and monkey target cells, but not in the lysis of HLA+ murine cells. Thus transfection of HLA genes into different recipient species cell lines provides us with the ability to additionally delineate the functional requirements for allospecific CTL recognition and lysis.