Reproductive cytotoxicity is predicted by magnetic resonance microscopy and confirmed by ubiquitin-proteasome immunohistochemistry in a theophylline-induced model of rat testicular and epididymal toxicity.

This study investigated the testicular changes in the rat induced by the nonspecific phosphodiesterase inhibitor, theophylline using magnetic resonance microscopy (MRM) and ubiquitin immunostaining techniques. In vivo T1- and T2-weighted images were acquired at 2 T under anesthesia. Increased signal observed in the theophylline-treated rats suggests that leakage of MRM contrast was occurring. In vivo MRM results indicate that day 16 testis displayed an increased T1-weighted water signal in the area of the seminiferous tubule that decreased by day 32. These findings were validated by histopathology, suggesting that in vivo MRM has the sensitivity to predict changes in testis and epididymal tissues. The participation of the ubiquitin system was investigated, using probes for various markers of the ubiquitin-proteasome pathway. MRM can be used to detect subtle changes in the vascular perfusion of organ systems, and the up-regulation/mobilization of ubiquitin-proteasome pathway may be one of the mechanisms used in theophylline-treated epididymis to remove damaged cells before storage in the cauda epididymis. The combined use of in vivo MRM and subsequent tissue or seminal analysis for the presence of ubiquitin in longitudinal studies may become an important biomarker for assessing testis toxicities drug studies.

Co-stimulation of human peripheral blood mononuclear cells with IL-2 and anti-CD3 monoclonal antibodies induces phosphorylation of CREB.

Phosphorylation of the cAMP-response element binding protein CREB within 1 h of CD2 but not CD3 cross-linking of human PBMC was recently demonstrated. The absence of P-CREB following CD3 cross-linking was unexpected, as other laboratories reported increased phosphorylation of CREB following CD3 cross-linking of the Jurkat lymphocyte cell line. Due to Jurkat T-cells being IL-2-independent, it was postulated that IL-2 might provide a necessary co-stimulus for phosphorylation of CREB in primary lymphocytes. Therefore, P-CREB was evaluated following co-stimulation of human PBMC through the IL-2 and CD2 or CD3 receptors. IL-2 did not further augment phosphorylation of CREB following CD2 cross-linking. However, while neither IL-2 nor CD3 cross-linking alone induced P-CREB, a 4.5-fold increase in phosphorylation of CREB within 1 h of IL-2/CD3 co-stimulation was observed. Phosphorylation was not associated with the induction of cAMP, and inhibition of PKA signaling had no effect on P-CREB. Consistent with signal transduction through p56lck or p59fyn, inhibition of PTK signaling reduced phosphorylation 50%. Interestingly, inhibiting PKC signaling with calphostin C further increased P-CREB levels 3-fold over that observed in IL-2/CD3 co-stimulated cells not pretreated with a PKC inhibitor. In contrast to previous studies performed in the absence of exogenous IL-2, no increase in binding of CREB to a 32P-labeled oligonucleotide probe was observed by electrophoretic mobility shift assay. These data suggest that the IL-2 and CD3 signaling pathways provide a necessary and co-operative stimulus promoting phosphorylation of CREB following receptor cross-linking.

CD2 signalling induces phosphorylation of CREB in primary lymphocytes.

Promoter sequences responsive to cyclic AMP (cAMP) are found in a number of cellular genes, and bind transcription factors of the cAMP response element binding protein (CREB)/activating transcription factor-1 (ATF-1) family. We have used a human T-lymphotropic virus type 1 (HTLV-1) model of cAMP response element (CRE) transcription to investigate the influence of lymphocyte activation on transcription from homologous regions in the viral promoter. We previously demonstrated increased HTLV-1 transcription following CD2 but not CD3 receptor cross-linking. We hypothesized that this increased viral transcription was mediated, in part, through the phosphorylation of CREB. Therefore, we investigated CD2 and CD3 receptor-mediated signalling in primary human peripheral blood mononuclear cells (PBMC). CD2, but not CD3, cross-linking increased cAMP detected by competitive enzyme-linked immunosorbent assay (ELISA) approximately fourfold. CD2 cross-linking concurrently increased phosphorylation of CREB detected by immunoblot assay eightfold. Consistent with post-translational regulation, no change in total level of CREB protein was observed. Phosphorylation of CREB occurred through a herbimycin A and Rp-cAMP-sensitive pathway, suggesting phosphorylation required antecedent activation of both protein tyrosine kinases (PTK) and protein kinase A (PKA). Both CD2 and CD3 cross-linking increased binding of nuclear proteins to a radiolabelled CRE oligonucleotide probe in electrophoretic mobility shift assays suggesting that lymphocyte activation enhances binding independently of phosphorylation of CREB at serine 133. These data indicate specific modulation of the CREB/ATF-1 family of transcription factors by the CD2 signalling pathway and suggest CD2 receptor modulation of CRE-mediated transcription following ligand engagement (e.g. cell-to-cell contact).

Signaling via the CD2 receptor enhances HTLV-1 replication in T lymphocytes.

Human T lymphotropic virus type 1 (HTLV-1) is considered the etiologic agent of adult T cell leukemia/lymphoma and several chronic progressive immune-mediated diseases. Approximately 1-4% of infected individuals develop disease, generally decades following infection. Increased proviral transcription, mediated by the viral 40-kDa trans-activating protein, Tax, has been implicated in the pathogenesis of HTLV-1-associated diseases. Since the HTLV-1 promoter contains sequences responsive to cyclic AMP and protein kinase C, we hypothesized that lymphocyte activation signals initiated through the TCR/CD3 complex or CD2 receptor promote viral replication in HTLV-1-infected lymphocytes. We demonstrate that mAbs directed against the CD2, but not the CD3 receptor increase viral p24 capsid protein 1.5- to 5.7-fold in CD2/CD3+ HTLV-1-infected cell culture supernatants. Northern blot analysis demonstrated a 2.5- to 4-fold increase in all species of viral mRNA following CD2 cross-linking of OSP2/4 cells, an immortalized HTLV-1 cell line. Consistent with transcriptional regulation, reporter gene activity increased approximately 11-fold in CD2-stimulated Jurkat T cells cotransfected with a Tax-expressing plasmid and a CAT reporter gene construct under control of the HTLV-1 promoter. These data suggest a possible physiologic mechanism, whereby CD2-mediated cell adhesion and lymphocyte activation may promote viral transcription in infected lymphocytes.

Stimulation of the CD2 receptor pathway induces apoptosis in human T lymphotropic virus type I-infected cell lines.

We demonstrate that CD2 receptor engagement, but not CD3 crosslinking, induces apoptosis in lymphocytes transformed by human T-cell lymphotrophic virus type I (HTLV-I). Mitogenic pairs of anti-CD2 monoclonal antibodies inhibited [3H]thymidine incorporation from 25 to 62% in CD2+ HTLV-I-infected lymphocytes. This inhibition was associated with a 20-40% reduction in cell number and viability over a 3-day period, morphologic evidence of apoptosis, and irreversible DNA fragmentation. While cyclosporin A abrogated CD2-mediated proliferation in peripheral blood mononuclear cells, it had no effect on CD2-induced apoptosis in the HTLV-I-infected cell lines. Since HTLV-I is mitogenic to resting lymphocytes through CD2 activation pathways, these results suggest that HTLV-I-infected lymphocytes are primed for apoptosis following additional CD2 stimulation. This CD2-mediated apoptosis might be a factor in immune regulation of HTLV-I-associated diseases or might offer a novel adjunctive approach to treatment.

Enhanced human T-cell lymphotropic virus type I expression following induction of the cellular stress response.

Human T-cell lymphotropic virus type I (HTLV-I) infection is typically associated with long incubation periods between virus exposure and disease manifestation. Although viral protein expression is considered to play an important role in the pathogenesis of HTLV-I-associated diseases, limited information is known regarding host cell mechanisms that control viral gene expression. This study was designed to evaluate modulation of HTLV-I gene expression following induction of the cellular stress response in HTLV-I-infected lymphocytes. The cellular stress response was elicited by treatment with either Na arsenite or thermal stress and was monitored by demonstrating increased expression of the 72-kDa heat shock protein. Induction of the cellular stress response in HTLV-I-infected lymphocytes resulted in significantly increased HTLV-I-mediated syncytia formation due to enhanced HTLV-I envelope (gp46) expression. Intracellular viral proteins and released p24 capsid protein were increased in stressed infected lymphocytes as compared to nonstressed infected lymphocytes. Furthermore, HTLV-I-LTR reporter gene constructs had increased activity (three- to sixfold) in a transiently transfected, uninfected lymphocyte cell line following induction of the cellular stress response. Quantitation of HTLV-I RNA expression by slot blot analysis of infected lymphocytes suggested variable increases in RNA accumulation. Northern blot analysis demonstrated no qualitative changes in expression of RNA species. These data suggest a relationship between modulation of viral replication and a basic cellular response to stress and have important implications for understanding host cell control mechanisms of HTLV-I expression.

Rosette formation assays in dogs: lack of specificity of E rosettes for T lymphocytes.

The present study examined the specificity of guinea pig erythrocyte (E) and erythrocyte-antibody-complement (EAC) rosette formation assays with suspensions of canine peripheral blood lymphocytes. Neutrophils, monocytes, and lymphocytes bound EAC but not erythrocyte-antibody (EA) controls. Similarly, all three cell types formed rosettes with guinea pig E. Adherence of guinea pig E to these cells was apparently mediated by natural cytophilic antibodies present in the serum used in the suspension medium. The nonspecificity of the guinea pig E-rosette formation assay with canine lymphocytes renders the technique unreliable for the identification of thymus-derived lymphocytes in dogs.