Lead and calcium produce rod photoreceptor cell apoptosis by opening the mitochondrial permeability transition pore

Calcium overload is suggested to play a fundamental role in the process of rod apoptosis in chemical-induced and inherited retinal degenerations. However, this hypothesis has not been tested directly. We developed an in vitro model utilizing isolated rat retinas to determine the mechanisms underlying Ca(2+)- and/or Pb(2+)-induced retinal degeneration. Confocal microscopy, histological, and biochemical studies established that the elevated [Ca(2+)] and/or [Pb(2+)] were localized to photoreceptors and produced rod-selective apoptosis. Ca(2+) and/or Pb(2+) induced mitochondrial depolarization, swelling, and cytochrome c release. Subsequently caspase-9 and caspase-3 were sequentially activated. Caspase-7 and caspase-8 were not activated. The effects of Ca(2+) and Pb(2+) were additive and blocked completely by the mitochondrial permeability transition pore (PTP) inhibitor cyclosporin A, whereas the calcineurin inhibitor FK506 had no effect. The caspase inhibitors carbobenzoxy-Leu-Glu-His-Asp-CH(2)F and carbobenzoxy-Asp-Glu-Val-Asp-CH(2)F, but not carbobenzoxy-Ile-Glu-Thr-Asp-CH(2)F, differentially blocked post-mitochondrial events. The levels of reduced and oxidized glutathione and pyridine nucleotides in rods were unchanged. Our results demonstrate that rod mitochondria are the target site for Ca(2+) and Pb(2+). Moreover, they suggest that Ca(2+) and Pb(2+) bind to the internal metal (Me(2+)) binding site of the PTP and subsequently open the PTP, which initiates the cytochrome c-caspase cascade of apoptosis in rods.

The retina of c-fos-/- mice: electrophysiologic, morphologic and biochemical aspects

PURPOSE

Mice without a functional c-Fos protein (c-fos-/- mice) do not exhibit light-induced apoptotic cell death of rods in contrast to their wild-type littermates (c-fos+/+ mice). To analyze the consequences of the absence of c-fos in the retina, we investigated whether the retinas of c-fos-/- mice have a reduced capacity to absorb and transduce light compared with c-fos+/+ mice.

METHODS

Retinal function was evaluated in dark-adapted mice by full-field electroretinograms (ERGs) over more than 6 log units of intensity. Retinal morphology was studied by light- and electron microscopy. Arrestin and the heat shock protein 70 (Hsp70) were detected by Western blot analysis. The rhodopsin content and the kinetics of rhodopsin regeneration were determined in retinal extracts.

RESULTS

Although the configuration of the ERGs was comparable in both groups of mice, c-fos-/- mice showed a marked variability in all quantitative ERG-measures with lower mean amplitudes, longer latencies, and a 0.9-log-unit lower b-wave sensitivity on average. Morphometry showed that c-fos-/- mice have 23% fewer rods on average, whereas the number of cones was comparable among c-fos+/+ and c-fos-/- mice. Arrestin levels appeared slightly reduced in c-fos-/- mice when compared with c-fos+/+ mice, whereas Hsp70 levels were comparable in both genotypes. The kinetics of rhodopsin regeneration were similar, but c-fos-/- mice had a 25% lower rhodopsin content on average.

CONCLUSIONS

Compared with c-fos+/+ mice, retinal function in c-fos-/- mice is attenuated to a variable but marked degree, which may be, at least in part, related to the reduced number of rods and the reduced rhodopsin content. However, c-fos does not appear to be essential for the ability to absorb photons, nor for phototransduction or the function of second-order neurons. The resistance to light-induced apoptosis of photoreceptor cells in c-fos-/- mice may result from the acute deficit of c-fos in the apoptotic cascade rather than from developmental deficits affecting rod photoreceptor function.

Retinoic acid produces rod photoreceptor selective apoptosis in developing mammalian retina

PURPOSE

All-trans retinoic acid (ATRA) or 9-cis retinoic acid (9CRA), added to dissociated developing neural retinal cells, induces progenitor cells to adopt the rod cell's fate. Retinoic acid (RA) also produces apoptotic cell death in developing tissues. The effects of retinoids on mouse retinal development were examined.

METHODS

Retinas were explanted on postnatal day (PN)1 and cultured with or without the retinal pigment epithelium (RPE) attached. Retinas were cultured for 3 weeks in the absence or presence of 100 or 500 nM ATRA or 9CRA. Morphologic development and apoptotic cell death were examined using cell-specific immunocytochemical markers, the TdT-dUTP terminal nick-end labeling (TUNEL) method, and a caspase assay.

RESULTS

Retinal explants, with and without RPE, had similar age-dependent increases in opsin expression. In contrast, explants with RPE had less apoptosis during the first week than retinas without RPE. In explants with RPE, ATRA or 9CRA produced rod-selective apoptotic cell death in which 20% to 25% were lost by PN7 with no further loss by PN21. 9CRA-treated explants without RPE had a decreased number of apoptotic cells and a higher number of (rhod)opsin-positive cells at PN3.

CONCLUSIONS

Factors in RPE appear to regulate rod apoptosis in developing retina. Retinoids produce rod-selective apoptotic cell death during normal rod differentiation. In contrast, retinoids accelerate the expression of opsin in retinas without RPE. These differential effects of RA on rod photoreceptors-apoptosis and differentiation-are similar to those observed in other developing tissues and play an important role in both normal and pathologic development.

Cytokine blockade as a new strategy to treat rheumatoid arthritis: inhibition of tumor necrosis factor

Rheumatoid arthritis (RA) is a common, frequently severe, chronic inflammatory disease. Although the cause of RA remains unknown, recent advances in understanding its pathogenesis have been substantial. Despite the use of a variety of medications, particularly methotrexate, treatment of RA is not fully effective in most patients. Until recently, insights into inflammatory mechanisms in RA had not been successfully translated into novel classes of therapeutic agents. This gap now will likely be bridged in the form of a new strategy for treating RA-cytokine blockade. Although a variety of cytokines are important in the pathogenesis of RA, tumor necrosis factor (TNF) seems to play a pivotal role. Neutralizing TNF in patients with RA, by means of soluble TNF receptors or anti-TNF monoclonal antibodies, has proven to be a powerful means of controlling disease activity. Studies are in progress to obtain additional information regarding long-term safety of TNF blockade and its effects on disease progression.

Evidence for the expression of a second CD6 ligand by synovial fibroblasts

OBJECTIVE

CD6, a cell surface glycoprotein expressed primarily on T cells, may function as a costimulatory molecule and may play a role in autoreactive immune responses. Recently, a CD6 ligand termed CD166 (previously known as activated leukocyte cell adhesion molecule [ALCAM]) has been identified and shown to be expressed on activated T cells, B cells, thymic epithelium, keratinocytes, and in rheumatoid arthritis synovial tissue. However, the results of functional studies have suggested the existence of a second CD6 ligand. The present study was undertaken to seek evidence for a second CD6 ligand on cultured synovial fibroblasts.

METHODS

Flow cytometric and biochemical techniques were applied, using anti-CD166 monoclonal antibody (mAb) and a recombinant CD6 fusion protein, to determine whether cultured synovial fibroblasts and other cell types expressed a non-ALCAM CD6 ligand.

RESULTS

CD14- fibroblastic synoviocytes showed greater binding of a recombinant CD6 fusion protein than of anti-ALCAM mAb. With interferon-gamma treatment of synovial fibroblasts, binding of both reagents increased, but this was more marked for binding of CD6 fusion protein. Exposure of synovial fibroblasts to other cytokines or to the superantigen staphylococcal enterotoxin A also regulated binding of CD6 fusion protein and anti-ALCAM mAb in a discordant manner. Immunoprecipitation of proteins from membrane extracts of synovial fibroblasts with a CD6-Ig fusion protein revealed a novel 130-kd band distinct from CD166; an identical molecule was also precipitated from membranes of HBL-100 tumor cells.

CONCLUSION

Taken together with previous data regarding CD6 and CD166 function, the present findings strongly suggest the existence of a second CD6 ligand distinct from CD166, which can be expressed by synovial fibroblasts as well as other cells.

Rod photoreceptor maturation does not vary with retinal eccentricity in mammalian retina

PURPOSE

Test the hypothesis that the development of mammalian rod outer segments (ROS) varies with retinal eccentricity.

METHODS

During the period of photoreceptor cell development, ROS lengths, opsin mRNA and (rhod)opsin were measured in central and peripheral retina of cows and pigmented rats. Published ROS length and/or rhodopsin data from albino rats, cows and monkeys were re-analyzed. Logistic growth curves were fitted to the newly obtained and published data. Within a species, growth in central and peripheral regions was compared.

RESULTS

The logistic growth curves fit all the data well and provide an excellent view of the developmental increases in ROS length, opsin mRNA and (rhod)opsin in each retinal region. Within a species, the growth curves for ROS length, opsin mRNA and (rhod)opsin concentration are superimposable. The age at which ROS length reaches 50% of its adult value is invariant with eccentricity. An exception to this pattern is the simian parafoveal ROS, which appears to have a delayed course of development.

CONCLUSIONS

The hypothesis is disproved. Unlike rod photoreceptor cell genesis, ROS development is invariant with retinal eccentricity. Primate parafoveal ROS appear to have a different pattern of development.

Systemic toxicity following administration of sirolimus (formerly rapamycin) for psoriasis: association of capillary leak syndrome with apoptosis of lesional lymphocytes

BACKGROUND

Sirolimus (formerly rapamycin) is an immunosuppressive agent that interferes with T-cell activation. After 2 individuals with psoriasis developed a capillary leak syndrome following treatment with oral sirolimus lesional skin cells and activated peripheral blood cells were analyzed for induction of apoptosis.

OBSERVATIONS

A keratome skin specimen from 1 patient with sirolimus-induced capillary leak syndrome had a 2.3-fold increase in percentage of apoptotic cells (to 48%) compared with an unaffected sirolimus-treated patient with psoriasis (21%). Activated peripheral blood T cells from patients with psoriasis tended to exhibit greater spontaneous or dexamethasone-induced apoptosis than did normal T cells, particularly in the presence of sirolimus.

CONCLUSIONS

Severe adverse effects of sirolimus include fever, anemia, and capillary leak syndrome. These symptoms may be the result of drug-induced apoptosis of lesional leukocytes, especially activated T lymphocytes, and possibly release of inflammatory mediators. Because patients with severe psoriasis may develop capillary leak from various systemic therapies, clinical monitoring is advisable for patients with inflammatory diseases who are treated with immune modulators.

Apoptosis of human T-cells: induction by glucocorticoids or surface receptor ligation in vitro and ex vivo

Activated T-cells are susceptible to induction of apoptosis or programmed cell death in response to ligation of several cell surface structures, including CD2, CD3, and CD95/Fas. These mechanisms may be important in the regulation of immune responses and in prevention of autoimmunity. We used flow cytometric quantitation of DNA strand breaks to detect T-cells committed to programmed cell death. Activated human peripheral blood T-lymphocytes, and freshly isolated human thymocytes underwent apoptosis when exposed to dexamethasone or to monoclonal antibodies directed at CD2 or CD3. Interleukin-2 reduced spontaneous or dexamethasone-induced apoptosis, but augmented apoptosis due to ligation of CD2. A neutralizing anti-Fas antibody reduced the amount of DNA strand breakage, not only in T-cells exposed to antibodies to CD2 or CD3, but also in dexamethasone-treated cultures. In vivo activated T-cells, from inflammatory synovial fluids, were sensitive to immediate induction of DNA strand breaks without prior in vitro activation by lectin and IL-2. Taken together, the results indicated that: 1. Human lymphocytes, like murine thymocytes, are sensitive to glucocorticoid-induced apoptosis, as well as to programmed cell death triggered through surface receptors; 2. The effects of IL-2 on T-cell apoptosis depend on the apoptotic stimulus; 3. Fas/Fas ligand interactions may be relevant for both membrane receptor and glucocorticoid-induced cell death; and 4. Induction of T-cell apoptosis may be important in therapeutic effects of glucocorticoids in human disease.

Spatial and temporal expression of AP-1 responsive rod photoreceptor genes and bZIP transcription factors during development of the rat retina

PURPOSE

The promoter region of the rod-specific beta subunit of cGMP PDE (beta-PDE) and opsin genes contains highly conserved cis-acting elements, which include an AP-1 and/or Nrl response element (NRE: An extended AP-1 like sequence). Transactivation of AP-1 or NRE appears necessary to drive expression of these rod-specific genes during adulthood, however, their role during development is relatively unknown. Therefore, we determined the spatial and temporal relationships between rod morphological and functional development, rod-specific gene expression, and expression of the bZIP transcription factors c-fos, junD and Nrl.

METHODS

Retinas from 0-45 day old (PN0-45) dark- and light-adapted Long-Evans rats were used. Morphological development was monitored by light and electron microscopy. Whole retinal trypsin-activated cGMP-PDE activity and rhodopsin content were measured biochemically. The expression of opsin, beta-PDE, c-fos, junD and Nrl mRNAs were determined by Northern blot analysis. The cellular localization of Nrl was examined with in situ hybridization.

RESULTS

The mRNAs for opsin, beta-PDE and c-fos were observed at PN0-2, while cGMP-PDE activity and rhodopsin were detected first at PN5: coincident with rod outer segment development. The developmental pattern of cGMP-PDE activity and rhodopsin accumulation paralleled the expression of beta-PDE and opsin mRNA and all reached their maximal levels by PN45. Nrl expression, for all three transcripts found in the rat retina, was low on PN2 and reached its maximal level at PN14. The c-fos and Nrl expression preceded beta-PDE and opsin mRNA expression by 1-2 days. Nrl expression was detected first in the distal post-mitotic retina at PN5 and then in all nuclear layers during retinal development. Maximal expression shifted from the ganglion cells to the outer nuclear layer as the neural retina matured. In contrast, junD expression was highest at PN0 and declined to a stable level by PN10.

CONCLUSIONS

Colocalization of Nrl and c-Fos suggests that expression of rod-specific genes, which utilize AP-1 or NRE sites in their promoter, could be regulated through the formation of Nrl-Fos dimers. We hypothesize that Nrl and c-Fos play a fundamental role in the initiation and regulation of the rod-specific gene expression in developing and adult rod photoreceptors.

Lead-induced alterations in retinal cGMP phosphodiesterase trigger calcium overload, mitochondrial dysfunction and rod photoreceptor apoptosis

Lead exposure results in the selective apoptotic loss of rods and bipolar cells. During and following developmental lead exposure rod/retinal cGMP phosphodiesterase expression and activity are delayed in onset and decreased, [Ca2+] is elevated, and mitochondrial ATP synthesis is decreased. In vitro studies, using retinas incubated in Ca2+ and/or Pb2+, demonstrate that rods selectively die by apoptosis, retinal mitochondrial ATP synthesis is decreased, mitochondrial cytochrome c is released and caspase activity is increased. These results suggest that lead-induced rod and bipolar cell apoptosis is triggered by Ca2+ and Pb2+ overload due to altered cGMP phosphodiesterase activity and that mitochondrial alterations play a central role in this process.

Lead-induced alterations in retinal cGMP phosphodiesterase trigger calcium overload, mitochondrial dysfunction and rod photoreceptor apoptosis

Lead exposure results in the selective apoptotic loss of rods and bipolar cells. During and following developmental lead exposure rod/retinal cGMP phosphodiesterase expression and activity are delayed in onset and decreased, [Ca2+] is elevated, and mitochondrial ATP synthesis is decreased. In vitro studies, using retinas incubated in Ca2+ and/or Pb2+, demonstrate that rods selectively die by apoptosis, retinal mitochondrial ATP synthesis is decreased, mitochondrial cytochrome c is released and caspase activity is increased. These results suggest that lead-induced rod and bipolar cell apoptosis is triggered by Ca2+ and Pb2+ overload due to altered cGMP phosphodiesterase activity and that mitochondrial alterations play a central role in this process.

Antibodies to recoverin induce apoptosis of photoreceptor and bipolar cells in vivo

Autoantibodies against recoverin are found in the sera of patients with cancer-associated retinopathy (CAR) syndrome. In these studies we examined the effect of anti-recoverin antibodies from the sera of patients with CAR and rat monoclonal antibody on the retinas of Lewis rats. Anti-recoverin autoanti-bodies penetrated into the photoreceptor and bipolar cell layers following intravitreal injection. Their presence in the retina could be detected by immunofluorescence 24 h after injection. At the same time, individual cells undergoing apoptosis were identified throughout photoreceptor and bipolar cell layers using terminal transferase-mediated dUTP nick-end labeling (TUNEL) and electron microscopy. Normal antibodies used in control experiments did not produce TUNEL labeling. At 24 h, DNA fragmentation was confirmed by DNA ladder electrophoresis. At the electron microscopic level, there was clear evidence of cells undergoing apoptotic cell death in the retinas treated with anti-recoverin antibodies. At 24 and 96 h, nuclear chromatin condensation and increased vacuolization of photoreceptor outer segments were observed. An examination of retinas from animals receiving anti-retinal antibodies revealed a loss of 1-2 rows of nuclei in the outer and inner nuclear layers whereas all controls (sham, normal IgG, phosphate buffered saline) showed an unchanged number of nuclei rows. In addition, there was an increase in spacing between the rows of nuclei of the outer nuclear layer in retinas treated with anti- recoverin antibodies, indicating additional cell loss. These studies provide clear evidence that anti-recoverin antibodies are capable of penetrating photoreceptor and bipolar cells, the normal site of recoverin expression in the retina, and that anti-recoverin antibodies produce apoptotic cell death. A similar mechanism may occur in patients with CAR, which may lead to visual loss and blindness.

Functional alterations and apoptotic cell death in the retina following developmental or adult lead exposure

Long-term visual system deficits occur in man and animals following developmental and occupational lead exposure. Recent experimental data suggests that the adult brain is not altered following lead exposure. Therefore, the aim of these studies was to use the retina as a CNS model to examine and compare the morphological, biochemical and electroretinographic (ERG) changes occurring in rats exposed to low or moderate levels of lead during development (0-21 days of age) with those occurring in adult rats with equivalent blood and retinal levels of lead for three or six weeks. Five main results were obtained. First, developmental and adult lead exposure for six weeks produced age- and dose-dependent retinal degeneration such that rods and bipolar cells were selectively lost. At the ultrastructural level, all dying cells exhibited the classical morphological features of apoptotic cell death. Second, in the lead-exposed groups, the decrease in the number of rods was correlated with the loss of rhodopsin content per eye confirming that rods were directly affected by lead. Third, single-flash rod ERGs and cone ERGs obtained from developmentally and adult lead-exposed rats demonstrated that there were age- and dose-dependent decreases in the rod a-wave and b-wave sensitivity and maximum amplitudes without any effect on cones. In adult rats exposed to lead for three weeks, qualitatively similar ERG changes occurred in the absence of cell loss or decrease in rhodopsin content. Fourth, developmental and adult lead exposure for three and six weeks produced age- and dose-dependent decreases in retinal cGMP phosphodiesterase (PDE) activity resulting in increased cGMP levels. Fifth, picomolar to micromolar concentration of free lead directly inhibited rat retinal and purified bovine rod cGMP PDE. In summary, there are three main conclusions. First, the retinas of developing and adult rats exposed to lead exhibit qualitatively similar rod-mediated ERG alterations as well as rod and bipolar apoptotic cell death. Thus, developing and mature retinas are both sensitive to the adverse effects of lead: albeit to significantly different extents. Second, a similar biochemical mechanism such as the inhibition of rod and bipolar cell cGMP PDE, varying only in degree and duration, underlies both the lead-induced ERG rod-mediated deficits and the rod and bipolar apoptotic cell death. Third, the composite results from our experiments and those of others suggest that the developing retina might be more sensitive to preweaning lead exposure than the hippocampus and thus may serve as a good model for studying the cellular and molecular mechanisms underlying developmental and adult lead neurotoxicity.

Monocyte-dependent regulation of T lymphocyte activation through CD98

CD98 is a 125 kDa heterodimer, which is strongly expressed on the surface of activated and proliferating cells. Its expression is strikingly regulated during T cell differentiation and activation, but the role of CD98 during T lymphocyte responses is not yet understood. We report here that proliferation of resting peripheral blood mononuclear cells (PBMC) induced by lectin, superantigen (SAg) or conventional antigens was blocked by anti-CD98 heavy chain (CD98hc) mAb. In contrast, anti-CD98hc did not block responses of T cell clones or lines. Anti-CD98hc inhibited IL-2 receptor expression and progression of T cells from G1 to S phase, but did not reduce expression of the IL-2 gene. Anti-CD98hc mAb did not regulate the initial activation events involving the TCR and co-receptor structures, but instead inhibited T lymphocyte responses even when added 18 h or more after the activation stimulus. Further experiments demonstrated that anti-CD98 was not directly affecting T cells in this system, but was instead acting on accessory cells. This was supported using a novel xenogeneic system that takes advantage of the lack of xenoreactivity of purified human T cells against mouse splenocytes. Despite absence of a direct xenoresponse to murine spleen cells, human T cells were activated by SAg presented by murine splenic antigen-presenting cells (APC). Murine anti-human CD98hc did not block T cell proliferation in this system. Furthermore, responses using monocyte-depleted PBMC as APC were not blocked by anti-CD98hc. Taken together, the present data suggests that triggering of human monocyte CD98 can suppress T cell proliferation by a process that halts progression through the cell cycle of recently activated T lymphocytes. This may represent a novel pathway for monocyte regulation of T cell activation.

The pattern of expression of CD147/neurothelin during human T-cell ontogeny as defined by the monoclonal antibody 8D6

A novel monoclonal antibody termed 8D6 was generated against the human leukemic T-cell line Molt 13 and was found to recognize the neurothelin structure, recently termed CD147. UM8D6 precipitated a single band from HSB2 cells of molecular weight 35 kDa nonreduced and 40 kDa reduced. CD147 is broadly expressed on human hematopoietic cells and is expressed more intensely on thymocytes than on mature peripheral blood T cells. A clear distinction was found by three-color flow cytometry between antigen density on single positive mature thymocytes subsets compared with the corresponding subset from peripheral blood. The 8D6 antibody did not have direct effects on T-cell activation or apoptosis, and the function of CD147 in development and activation of T cells is not yet clear. Nevertheless, its highly regulated expression during T-cell differentiation and the structural characteristics of this antigen suggest that it has an interesting and important role in T-cell biology.

CD6 dependent interactions of T cells and keratinocytes: functional evidence for a second CD6 ligand on gamma-interferon activated keratinocytes

The CD6 glycoprotein is expressed by T lymphocytes and is hypothesized to interact with one or more ligands expressed on antigen presenting cells (APCs). We show that CD6 mediates binding of the transformed CD4+ T cell line Hut 78 to gamma-interferon activated keratinocytes (KCs). A recombinant CD6-Ig fusion protein has been reported to bind to a CD6 ligand ALCAM, but this is the first demonstration that cell-cell adhesion of human T lymphocytes can be CD6 dependent. The known CD6 ligand ALCAM (CD166) is expressed on cultured KCs but does not appear to mediate KC-Hut 78 binding, suggesting the existence of additional CD6 ligands expressed on KCs. In functional studies using autologous KCs as APCs for tetanus toxoid specific T cell clones, KCs +/- gamma-interferon are unable to stimulate autologous T cells with recall antigen. Therefore interaction of T cell CD6 with CD6 ligands on KCs does not provide sufficient co-stimulation of primed T cells to support responses to nominal antigen.

Lesional psoriatic T cells contain the capacity to induce a T cell activation molecule CDw60 on normal keratinocytes

In this report we demonstrate, that in psoriatic skin, basal and suprabasal keratinocytes express CDw60. The CDw60-specific monoclonal antibody, UM4D4, has recently been shown to recognize the 9-O-acetylated disialosyl group on ganglioside GD3. The CDw60 antigen on cultured keratinocytes also seems to be identical with the 9-O-acetylated disialosyl group, because the anti-UM4D4 binding was markedly reduced after neuraminidase treatment of keratinocytes. To examine whether factors from T cells in psoriatic lesions are responsible for the overexpression of CDw60 on keratinocytes, T cell lines obtained from lesional skin were initiated and cloned by limiting dilution. Factors released from 19 of 19 activated T cell clones up-regulated CDw60 expression on cultured normal keratinocytes. T-cell-secreted cytokines, including interleukin (IL)-2, IL-3, IL-4, IL-6, IL-13, transforming growth factor-beta, granulocyte/macrophage colony-stimulating factor, and interferon-gamma were tested for their capacity to modulate keratinocyte CDw60 expression. IL-4 and IL-13 strongly up-regulated the expression of CDw60; by contrast, interferon-gamma down-regulated keratinocyte CDw60 expression. Interestingly, IL-13 may in part be responsible for the T-cell-induced up-regulation of CDw60, because anti-IL-13 partly neutralized this effect of the T cell supernatant. In conclusion, CDw60 expression on psoriatic epidermal keratinocytes is likely induced by intralesionally activated T cells and may in part be due to IL-13. These findings would represent a novel mechanism by which T cells participate in the pathogenesis of psoriasis.

A novel murine model for the assessment of human CD2-related reagents in vivo

CD2 is a T cell surface glycoprotein that mediates both cell-cell adhesion and transmembrane signal transduction. To construct a model for the in vivo evaluation of human (h)CD2 function and hCD2-related reagents, hCD2 transgenic mice and murine (m)CD2 knockout mice were crossed, and the F2 generation selected for mCD2-hCD2+ animals by fluorescent flow cytometry. The mCD2-hCD2+ mice are healthy and have a normal distribution of mCD3, mCD4, and mCD8 in thymus, spleen, and lymph node. Therefore expression of the hCD2 transgene does not appear to disrupt normal T cell development. The functionality of hCD2 was demonstrated by T lymphocyte proliferation upon stimulation by combined anti-CD2 plus anti-CD2R (anti-T11(2) plus anti-T11(3)) mAbs. Anti-T11(2) plus anti-T11(3) anti-human CD2 mAbs also induced proliferation of mCD2+hCD2+ F1 lymphocytes, but not mCD2+hCD2- wild-type murine lymphocytes. Either an anti-murine or the human CD2 specific (anti-T11(1)) mAbs inhibited proliferation in alloantigen, PHA, or anti-CD3 mAb stimulated cultures and inhibited only cells bearing the appropriate cognate CD2. In vivo studies of immune function yielded results consistent with these in vitro assays. Thus, anti-T11(1) mAb suppressed contact sensitivity in vivo in the transgenic/knockout mice. mCD2-hCD2+ mice treated with anti-T11(1) or LFA-3 fusion proteins also showed significant prolongation of cardiac allograft survival. This prolongation was associated both with depletion and down-modulation of CD2 on remaining T cells. These data suggest that the transgenic/knockout mice provide a useful in vivo model for the assessment of hCD2-related reagents and CD2 function, free from any potential interactions with mCD2 and mCD2 ligands.

A novel murine model for the assessment of human CD2-related reagents in vivo

CD2 is a T cell surface glycoprotein that mediates both cell-cell adhesion and transmembrane signal transduction. To construct a model for the in vivo evaluation of human (h)CD2 function and hCD2-related reagents, hCD2 transgenic mice and murine (m)CD2 knockout mice were crossed, and the F2 generation selected for mCD2-hCD2+ animals by fluorescent flow cytometry. The mCD2-hCD2+ mice are healthy and have a normal distribution of mCD3, mCD4, and mCD8 in thymus, spleen, and lymph node. Therefore expression of the hCD2 transgene does not appear to disrupt normal T cell development. The functionality of hCD2 was demonstrated by T lymphocyte proliferation upon stimulation by combined anti-CD2 plus anti-CD2R (anti-T11(2) plus anti-T11(3)) mAbs. Anti-T11(2) plus anti-T11(3) anti-human CD2 mAbs also induced proliferation of mCD2+hCD2+ F1 lymphocytes, but not mCD2+hCD2- wild-type murine lymphocytes. Either an anti-murine or the human CD2 specific (anti-T11(1)) mAbs inhibited proliferation in alloantigen, PHA, or anti-CD3 mAb stimulated cultures and inhibited only cells bearing the appropriate cognate CD2. In vivo studies of immune function yielded results consistent with these in vitro assays. Thus, anti-T11(1) mAb suppressed contact sensitivity in vivo in the transgenic/knockout mice. mCD2-hCD2+ mice treated with anti-T11(1) or LFA-3 fusion proteins also showed significant prolongation of cardiac allograft survival. This prolongation was associated both with depletion and down-modulation of CD2 on remaining T cells. These data suggest that the transgenic/knockout mice provide a useful in vivo model for the assessment of hCD2-related reagents and CD2 function, free from any potential interactions with mCD2 and mCD2 ligands.

Role of the CD6 glycoprotein in antigen-specific and autoreactive responses of cloned human T lymphocytes

CD6 is a 130 000 MW T-cell surface glycoprotein that can deliver coactivating signals to mature T lymphocytes. Studies using monoclonal antibodies (mAb) have defined at least four epitopes on CD6, and distinct functional responses are elicited by mAb to the different epitopes. The function of CD6 is unknown. Multiple CD6 ligands are predicted, based on data that a soluble CD6 fusion protein precipitates at least three peptides. A cDNA clone for one of these ligands, termed activated leucocyte-cell adhesion molecule (ALCAM) has recently been isolated. In order to further characterize the role of CD6 in cell-cell interactions, we have examined the role of CD6 in a variety of responses by tetanus toxoid (TT) specific human T-cell clones. Anti-CD6 mAb UMCD6 (epitope 3) inhibits antigen-specific responses of such clones to TT, but not to the superantigen SEA. Responses of clones to nominal antigen are CD6-dependent using either peripheral blood mononuclear cells (PBMC) or macrophage-depleted E rosette negative cells as the antigen-presenting cell (APC) population. Furthermore, these clones made autoreactive with DNA methyltransferase inhibitors express increased CD6, and autoreactivity is inhibited by UMCD6. Taken together, the data suggests the existence of a functional CD6 ligand in peripheral blood which is expressed by APC, including cells other than macrophages. Interactions between CD6 and CD6 ligands may regulate both antigen specific and autoreactive responses of human T lymphocytes.