HTLV-1 cell lines differ in constitutively activated signaling pathways that can be altered by cytokine exposure

Examination of signaling pathways used by HTLV-1-infected rabbit cell lines revealed differences between one, RH/K30, that mediates asymptomatic infection and another, RH/K34, that causes lethal experimental leukemia. Both lines are IL-2 independent; RH/K30 produces IL-4 while RH/K34 produces IL-10. Examination of the Jak/STAT (Janus kinase/signal transducer and activator of transcription) activation of the lines revealed constitutive phosphorylation of Jak1 in both STAT6 phosphorylation, not previously reported for HTLV-1 cells, was observed in RH/K30; STAT1 and STAT3 were phosphorylated in RH/K34. Treatment with cytokines altered the activation of the STAT proteins: IL-2 induced STAT5 phosphorylation in both lines. Supernatant from RH/K34 or IL-10 induced STAT3 phosphorylation in RH/K30 cells. Supernatant from RH/K30 or IL-4 induced STAT6 phosphorylation in RH/K34 cells, which could be reversed with a Jak kinase inhibitor--AG-490.

Improved typing procedure for the polymorphic single-copy RLA-DQA gene of the rabbit reveals a new allele

The DQA gene of the rabbit major histocompatibility complex (MHC, RLA) is highly polymorphic and, in contrast to those reported for other mammalian species, is present as a single copy. These properties allow use of this gene in a method to type the class II locus of RLA by a combination of single-stranded conformational polymorphism (SSCP) and heteroduplex (HD) analysis. Familial segregation of RLA-DQA was shown and RLA class II types for rabbits of unknown pedigree were determined using migration patterns of amplified genomic DNA. Typing results were confirmed in experiments where unknown samples were mixed with products from rabbits of RLA types defined by sequence analysis. These analyses detected an RLA-DQA allele in addition to the five previously described; this new allele is designated RLA-DQA-F.

Thoracoscopy as a nonpharmacotherapeutic research modification for limiting postoperative chest pain

Diminished tissue injury and shortened clinical recovery are benefits of using an endoscopic approach for patients needing operative procedure. In the course of developing an experimental model requiring procurement of topographically precise lung biopsy specimens, we sought to apply thoracoscopy as a research alternative to thoracotomy. In addition, we investigated the influence of thoracoscopy on postprocedure recovery practices using rabbits divided into four treatment groups. Rabbit groups 1 and 2 underwent thoracoscopy and lung biopsy while maintained by one-lung anesthesia. Additionally, group 2 had ketoprofen and bupivacaine HCl analgesics injected for treatment during postprocedure recovery. These two groups were compared to control rabbits in groups 3 and 4, which underwent inhalant anesthesia without thoracoscopy. Control group 3 also received the injection analgesic combination. During recovery, rabbit behavior was systematically assessed for evidence of pain. No behavior considered indicative of pain needing intervention was observed regardless of treatment group. Limited changes in plasma corticosterone, catecholamines, and prostaglandin E2 levels measured during recovery were difficult to associate with any treatment. Unexpectedly, significantly different mean corticosterone and catecholamines levels were detected in rabbits given the injection analgesic combination in the absence of thoracoscopic procedure, as compared to other treatment groups. The results highlight the importance of awareness that analgesic drug administration has the potential to alter homeostasis and affect interpretation of some study findings by its own guise. Correlation of the mean pain study results with plasma biochemical data supports preferential use of thoracoscopy as a refinement for limiting postprocedural pain in research models.

Evidence for humoral and cellular reactivity against keratin and thyroglobulin in HTLV-I infected rabbits

Human T cell leukemia virus type I (HTLV-I) infection was initially associated with T cell leukemia and a progressive neurologic disease but has since been linked to an increasing number of autoimmune disorders, including Sjogren's syndrome, uveitis, and polyarthritis. A survey of serum samples from a rabbit model of HTLV-I infection revealed that all had antibodies against keratin and thyroglobulin. Sera from several infected rabbits also reacted with collagen, while antibody reactions with other autoantigens tested, including DNA, were rare and sporadic. In addition to antibodies, cellular reactivity to keratin, but not thyroglobulin, was demonstrated by cellular proliferation in presence of IL-2 and keratin. Expanded cell cultures were positive for T cell activation markers and CD8. Association of the auto-reactivity with HTLV-I infection rather than random anti-cellular responses was supported by the fact that no antikeratin or antithyroglobulin was seen in uninfected controls, including that inoculated with uninfected lymphocytes. Finding autoantibodies in rabbits infected using naked HTLV-I DNA clones provided further assurance that infection induced the autoimmune reactions detected.

Functional characterization of a lysosomal sorting motif in the cytoplasmic tail of HLA-DObeta

HLA-DO is an intracellular non-classical class II major histocompatibility complex molecule expressed in the endocytic pathway of B lymphocytes, which regulates the loading of antigenic peptides onto classical class II molecules such as HLA-DR. The activity of HLA-DO is mediated through its interaction with the peptide editor HLA-DM. Here, our results demonstrate that although HLA-DO is absolutely dependent on its association with DM to egress the endoplasmic reticulum, the cytoplasmic portion of its beta chain encodes a functional lysosomal sorting signal. By confocal microscopy and flow cytometry analysis, we show that reporter transmembrane molecules fused to the cytoplasmic tail of HLA-DObeta accumulated in Lamp-1(+) vesicles of transfected HeLa cells. Mutagenesis of a leucine-leucine motif abrogated lysosomal accumulation and resulted in cell surface redistribution of reporter molecules. Finally, we show that mutation of the di-leucine sequence in DObeta did not alter its lysosomal sorting when associated with DM molecules. Taken together, these results demonstrate that lysosomal expression of the DO-DM complex is mediated primarily by the tyrosine-based motif of HLA-DM and suggest that the DObeta-encoded motif is involved in the fine-tuning of the intracellular sorting.

Passage of human T-cell leukemia virus type-1 during progression to cutaneous T-cell lymphoma results in myelopathic disease in an HTLV-1 infection model

Studies comparing functional differences in human T-cell leukemia virus type 1 (HTLV-1) clones that mediate distinct outcomes in experimentally infected rabbits, resulted in a dermatopathic smoldering adult T-cell leukemia/lymphoma following chronic infection with HTLV-1 strain RH/K34. During the 3.5 years' follow-up, HTLV-1 skin disease progressed to cutaneous T-cell lymphoma. When infection was passed to several naive rabbits, progressive paraparesis due to myelopathic neurodegeneration, analogous to HTLV-associated myelopathy, resulted in one of 4 transfusion recipients. Similar proviral loads were detected in the two diseases, regardless of stage of progression or tissue compartment of infection. Complete proviral sequences obtained from the donor and affected recipient aligned identically with each other and with the inoculated virus clone. Existence of disparate pathogenic outcomes following infectious transmission further extends the analogy of using rabbits to model human infection and disease. Although the experimental outcomes shown are limited by numbers of animals affected, they mimic the infrequency of HTLV-1 disease and authenticate epidemiological evidence of virus sequence stability regardless of disease phenotype. The findings suggest that further investigation of a possible role for HTLV-1 in some forms of cutaneous T-cell lymphoma is warranted.

Nucleotide sequence analyses of partial envgp46 gene of human T-lymphotropic virus type I from inhabitants of Fujian Province in Southeast China

Partial sequences from the env(gp46) gene of two human T-lymphotropic virus type I (HTLV-I) isolates (LIN and WEN) obtained from inhabitants of Fujian Province in southeast China were analyzed. A phylogenetic tree was constructed from these sequence data and those of other known HTLV-I isolates from all over the world. Comparisons of the LIN and WEN nucleotide sequences with other HTLV-I isolates showed diversity ranging from 0.73 to 7.00% for LIN and from 0.87 to 7.00% for WEN. Sequences of isolates LIN, WEN, MT-2, TSP1, and CH were most closely related, and the phylogenetic tree showed that all belong to the widespread subtype A of the cosmopolitan group. These preliminary data indicate that HTLV-I isolates from Fujian Province, China are closely related to HTLV-I strains from Japan and the Caribbean.

Cellular distribution of a mixed MHC class II heterodimer between DRalpha and a chimeric DObeta chain

Human MHC class II antigens include HLA-DR, -DQ, and -DP molecules that present antigens to CD4+ T cells, as well as the non-classical molecules HLA-DM and -DO. HLA-DM promotes peptide binding to class II molecules in endocytic compartments and HLA-DO, which is physically associated with HLA-DM in B lymphocytes, regulates HLA-DM function. Antibodies specific for the DObeta chain were obtained by immunization of mice with a heterodimer consisting of a chimeric DObeta chain (DR/DObeta), containing 18 N-terminal residues of DRbeta, paired with the DRalpha chain and isolated from transfected murine fibroblasts. The specificity of this serum for the DObeta chain and the lysosomal expression of the HLA-DO protein was confirmed using mutant human B cell lines lacking DR or DO molecules. The lysosomal localization of HLA-DO in human B cells contrasts with the cell surface expression of the mixed pair in transfected murine fibroblasts and raises questions concerning the role of the putative targeting motifs in HLA-DO. Transfection of the chimeric DR/DObeta chain along with DRalpha into human epithelial HeLa cells resulted in high levels of expression of the mixed isotypic pair at the surface of transfectants as well as in lysosomes. The same pattern was observed in HeLa cells transfected with the DObeta chimera and a DRa chain lacking the cytoplasmic tail. Taken together, these results suggest that functional sorting motifs exist in the DObeta chain but that the tight compartmentalization of HLA-DO observed inside B lymphocytes is controlled by the HLA-DOalpha chain and HLA-DM.

Rabbit cells expressing human CD4 and human CCR5 are highly permissive for human immunodeficiency virus type 1 infection

To evaluate the feasibility of using transgenic rabbits expressing CCR5 and CD4 as a small-animal model of human immunodeficiency virus type 1 (HIV) disease, we examined whether the expression of the human chemokine receptor (CCR5) and human CD4 would render a rabbit cell line (SIRC) permissive to HIV replication. Histologically, SIRC cells expressing CD4 and CCR5 formed multinucleated cells (syncytia) upon exposure to BaL, a macrophagetropic strain of HIV that uses CCR5 for cell entry. Intracellular viral capsid p24 staining showed abundant viral gene expression in BaL-infected SIRC cells expressing CD4 and CCR5. In contrast, neither SIRC cells expressing CD4 alone nor murine 3T3 cells expressing CCR5 and CD4 exhibited significant expression of p24. These stably transfected rabbit cells were also highly permissive for the production of virions upon infection by two other CCR5-dependent strains (JR-CSF and YU-2) but not by a CXCR4-dependent strain (NL4-3). The functional integrity of these virions was demonstrated by the successful infection of human peripheral blood mononuclear cells (PBMC) with viral stocks prepared from these transfected rabbit cells. Furthermore, primary rabbit PBMC were found to be permissive for production of infectious virions after circumventing the cellular entry step. These results suggest that a transgenic rabbit model for the study of HIV disease may be feasible.

Source and route of exposure influence infectivity of a molecular clone of human T cell leukemia virus type I

Infection with human T cell leukemia virus type I (HTLV-I) is typically asymptomatic, but does result in diverse diseases ranging from adult T cell leukemia to spastic neuromyelopathy. To date, differences in HTLV-I provirus structure have not been correlated with pathogenic or asymptomatic outcome of infection. Molecular clones of HTLV-I are now available and represent a powerful tool to link virus structure to pathogenesis. Present studies to explore in vivo infectivity and pathogenicity of an HTLV-I molecular clone, K30p, have utilized the rabbit as a model system. This clone was administered to neonatal or adult rabbits by several different routes and infectivity and pathogenicity were examined. Detection of antiviral humoral immune responses, presence of provirus in tissue samples, and isolation of virus in cultures of blood lymphocytes were used to establish systemic HTLV-I infection. Intramuscular, but not nervous system, exposure to K30p HTLV-I naked DNA resulted in infection. Conversely, neural exposure to T cells that had been transfected with the K30p HTLV-I DNA consistently resulted in systemic infection. Despite detection of HTLV-I provirus in brain and spinal cord of some infected rabbits, no clinical or neuropathological changes occurred. Source and route of virus exposure played a role in infectivity, but did not influence the pathogenic outcome of HTLV-I infection.

Genes in the pX region of human T cell leukemia virus I influence Vav phosphorylation in T cells

Human T cell leukemia virus I (HTLV-I) causes acute leukemic disease in a low percentage of infected individuals through obscure mechanisms. Our studies compare two rabbit HTLV-I-infected T cell lines: one, RH/K34, causes lethal experimental leukemia and the other, RH/K30, mediates asymptomatic infection. We show herein that the product of the protooncogene vav is constitutively Tyr-phosphorylated in RH/K34 but not in RH/K30. A role for the retrovirus in phosphorylation of Vav was assigned by transfection experiments with molecular clones of HTLV-I derived from the two lines. The HTLV-I molecular clone from RH/K30, but not that from RH/K34, down-regulates Vav phosphorylation in a Herpesvirus ateles-transformed T cell line. Use of recombinant virus clones revealed that a pX region sequence differing by two nucleotides between the two clones mediates this down-regulation. Because Vav is involved in T cell signaling and Vav phosphorylation occurs upon activation of T cells, control of the activation state of Vav by viral proteins may relate to the leukemogenic potential of certain HTLV-I-infected cells.

Experimental perinatal transmission of human immunodeficiency virus type 1 by passage of infected T cells

Pediatric AIDS typically follows transmission of human immunodeficiency virus type 1 (HIV-1) from infected mothers to their offspring. The possibility that infected maternal-origin cells serve as a conveyance for mother-to-child HIV-1 transmission was investigated in a rabbit infection model. Administration of HIV-1-infected human T cells to pregnant rabbits was followed by evaluation of offspring, from newborn to 1.5 years of age. HIV-1 was detected in 11 of 19 vaginally delivered offspring born to mothers given infected cells during gestation. Interstitial pneumonias or lymphoid organ lesions, similar to those seen in human pediatric AIDS, occurred in some offspring. Persistence of inoculum cell (HLA)-specific gene sequences in offspring indicated that vertical transmission can be effected by T cell-associated virus. These results along with features of rabbit biology, including primate-type placentation, short gestation, and delivery of litters, suggest that the rabbit model is advantageous for studies of perinatal HIV-1 transmission.

Infectivity of chimeric human T-cell leukemia virus type I molecular clones assessed by naked DNA inoculation

Two human T-cell leukemia virus type I (HTLV-I) molecular clones, K30p and K34p were derived from HTLV-I-infected rabbit cell lines. K30p and K34p differ by 18 bp with changes in the long terminal repeats (LTRs) as well as in the gag, pol, and rex but not tax or env gene products. Cells transfected with clone K30p were infectious in vitro and injection of the K30p transfectants or naked K30p DNA into rabbits leads to chronic infection. In contrast, K34p did not mediate infection in vitro or in vivo, although the cell line from which it was derived is fully infectious and K34p transfectants produce intact virus particles. To localize differences involved in the ability of the clones to cause infection, six chimeric HTLV-I clones were constructed by shuffling corresponding fragments containing the substitutions in the LTRs, the gag/pol region and the rex region between K30p and K34p. Cells transfected with any of the six chimeras produced virus, but higher levels of virus were produced by cells transfected with those constructs containing the K30p rex region. Virus production was transient except in cells transfected with K30p or with a chimera consisting of the entire protein coding region of K30p flanked by K34p LTRs; only the transfectants showing persistent virus production mediated in vitro infection. In vivo infection in rabbits following intramuscular DNA injection was mediated by K30p as well as by a chimera of K30p containing the K34p rex gene. Comparisons revealed that virus production was greater and appeared earlier in rabbits injected with K30p. These data suggest that several defects in the K34p clone preclude infectivity and furthermore, provide systems to explore functions of HTLV-I genes.

Experimental acute adult T cell leukemia-lymphoma is associated with thymic atrophy in human T cell leukemia virus type I infection

Human T cell leukemia virus type I (HTLV-1) infection may lead to an acutely fatal adult T cell leukemia-lymphoma (ATLL), but HTLV-1-infected people usually remain asymptomatic. Why only certain HTLV-I infections lead to acute ATLL, which is characterized by leukemic infiltration of multiple organs and immune suppression, remains unknown. A readily accessible animal model in which the spectrum of consequences resulting from HTLV-I infection can be observed would greatly aid studies of this retrovirus. New Zealand White rabbits inoculated with either HTLV-1-infected CD25+ T cells or cell-free virus, were serially necropsied at different intervals after death or humane sacrifice. Tissues were preserved at necropsy or cultured in vitro and subsequently prepared for morphologic or molecular examination. Rabbits inoculated with RH/K34, a productively infected rabbit T cell line that contains a monoclonally integrated full-length HTLV-I provirus, developed acute ATLL-like biologically malignant lymphoproliferative disease with lymphocyte infiltration of viscera; lymphomas consisting primarily of monoclonal expansions of RH/K34 manifested a variety of diffuse pleomorphic histologic types. Concurrently, lymphoproliferative disease was associated with onset of thymic atrophy in the presence of rapidly increasing thymic proviral load. In contrast, rabbits given two other HTLV-1 inocula, originally derived (as was RH/K34) using the human T cell line MT-2 as virus source, also became infected but did not develop thymic atrophy or the ATLL-like disease. HTLV-1 infection, thymic atrophy, and leukemic infiltration similar to acute ATLL occurred reproducibly in a New Zealand White rabbit model independent of RH/K34 inoculum and host histocompatibility. Thymic atrophy in RH/K34-inoculated rabbits, but not in rabbits given other similar HTLV-1, was consistent with immunosuppression sufficient to prevent rejection of the inoculum. Although the short, 8-day course of the experimental ATLL precludes its having a molecular pathogenesis identical to the human condition, the systemic consequences of acute ATLL, including its association with thymic atrophy, are closely modeled.

Cutaneous manifestations of human T cell leukemia virus type I infection in an experimental model

Skin diseases ranging from infective dermatitis to cutaneous lymphoma have been associated with human T cell leukemia virus (HTLV) type I. A generalized exfoliative papillated dermatopathy occurred in a rabbit 20 months into a course of chronic HTLV-I infection. Biopsies revealed epidermotropic T cell infiltrates, including Sezary-like cells, that resulted in a pattern mimicking cutaneous T cell lymphoma. HTLV-I was isolated from affected skin, and virus expression was detected in cutaneous cultures. Sezary-like cells also occurred in circulation. Interleukin-2-independent lymphocyte cultures, established from blood exhibiting elevated CD8 T cell levels and CD25 expression, had polyclonal integration of provirus. The findings are similar to those in evolving adult T cell leukemia lymphoma and may represent a prelymphomatous change. The cutaneous lymphoproliferative lesion resulted from HTLV-I infection and further establishes the New Zealand White rabbit inoculated with the RH/K34 cell line as a suitable model for investigation of HTLV-I pathogenesis.

Replication of HIV type 1 in rabbit cell lines is not limited by deficiencies in tat, rev, or long terminal repeat function

HIV-1 infection has been documented in rabbits, but infection proceeds slowly in this species. Human and rabbit cell lines were compared in order to identify barriers to efficient HIV-1 infection of rabbit cells. A direct comparison of human and rabbit CD4 as receptor for HIV-1 indicated that the rabbit CD4 homolog did not function well even when expressed by human cells. Examination of viral RNA production indicated that the major HIV transcripts were produced in HIV-infected rabbit cells, but were present at levels significantly lower than those found for human cells. Ability of HIV-1 LTRs to direct protein expression in human and rabbit cells was compared using gene constructs with the chloramphenicol acetyltransferase (cat) gene flanked by HIV-1 LTRs. Chloramphenicol acetyltransferase protein expression was equivalent in rabbit and human cell lines transfected with the HIV-1/CAT constructs and cotransfections with the HIV-1 tat gene led to similar increases in CAT expression. Subsequent transfections with an infectious molecular HIV clone yielded approximately equal levels of HIV protein expression in rabbit and human cell lines, suggesting that major barriers to virus production in rabbit lines exist at steps prior to transcription of the viral genome. Because HTLV-I replicates with high efficiency in rabbit cells, a chimeric virus clone was constructed consisting of the 5' portion of HIV-1 through the nef coding sequence followed by the 3' HTLV-I LTR. Transfection of most rabbit cell lines with the chimera produced levels of p24gag protein higher than those transfected with the parent HIV-1 clone. By contrast, the unmodified HIV clone replicated more efficiently in all human cell lines tested.

HIV-1 mediates rapid apoptosis of lymphocytes from human CD4 transgenic but not normal rabbits

Normal rabbit lymphocytes can be infected with HIV-1 although infection is much less efficient than in human lymphocytes. When peripheral blood mononuclear cells (PBMC) from rabbits transgenic for human CD4 (HuCD4) were exposed to HIV-1, enhanced infection and a rapid depletion of lymphocytes were observed. Cell death in the infected cultures occurred via apoptosis, but no similar effect was seen in nontransgenic rabbit PBMC cultures. Induction of apoptosis in HuCD4-expressing cells required virus replication; heat-inactivated virus or recombinant viral proteins had no effect on cell viability. Expression of the Fas antigen was increased in HIV-1-infected CD4+ rabbit lymphocytes. Characterization of the infected PBMC cultures revealed that apoptosis occurs both in HuCD4+ and HuCD4- cells, indicating that bystander cells are killed. These data define a requirement for HuCD4 in initiation, but not the spread, of HIV-1-induced apoptosis in rabbit PBMC and provide a model to probe mechanisms leading to lymphocyte depletion in HIV-1 infection.

Characterization of an infectious molecular clone of human T-cell leukemia virus type I

An infectious molecular clone of human T-cell leukemia virus type I (HTLV-I) was derived from an HTLV-I-transformed rabbit T-cell line, RH/K30, obtained by coculture of rabbit peripheral blood mononuclear cells (PBMC) with the human HTLV-I-transformed cell line MT-2. The RH/K30 cell line contained two integrated proviruses, an intact HTLV-I genome and an apparently defective provirus with an in-frame stop codon in the env gene. A genomic DNA fragment containing the intact HTLV-I provirus was cloned into bacteriophage lambda (K30 phi) and subcloned into a plasmid vector (K30p). HTLV-I p24gag protein was detected in culture supernatants of human and rabbit T-cell and fibroblast lines transfected with these clones, at levels comparable to those of the parental cell line RH/K30. Persistent expression of virus was observed in one of these lines, RL-5/K30p, for more than 24 months. Biologic characterization of this cell line revealed the presence of integrated HTLV-I provirus, spliced and unspliced mRNA transcripts, and typical extracellular type C retrovirus particles. As expected, these virus particles contained HTLV-I RNA and reverse transcriptase activity. The transfected cells also expressed surface major histocompatibility complex class II, whereas no expression of this molecule was detected in the parental RL-5 cell line. Virus was passaged by cocultivation of irradiated RL-5/K30p cells with either rabbit PBMC or human cord blood mononuclear cells, demonstrating in vitro infectivity. The virus produced in these cells was also infectious in vivo, since rabbits injected with RL-5/K30p cells became productively infected, as evidenced by seroconversion, amplification of HTLV-I-specific sequences by PCR from PBMC DNA, and virus isolation from PBMC. Availability of infectious molecular clones will facilitate functional studies of HTLV-I genes and gene products.

Developmental and tissue-specific expression of human CD4 in transgenic rabbits

A major obstacle to understanding AIDS is the lack of a suitable small animal model for studying HIV-1 infection and the subsequent development of AIDS, and for testing diagnostic, therapeutic, and preventive modalities. Our goal is to produce a rabbit model for the study of AIDS. Here we report on the generation of transgenic rabbits that express the human CD4 (hCD4) gene. The transgene, which contains the coding region for hCD4 and approximately 23 kb of sequence upstream of the translation start site, was used previously to direct hcD4 expression on the surface of CD4+ T cells of transgenic mice (Gillespie et al., 1993: Mol Cell Biol 13:2952-2958). The hCD4 transgene was detected in five males and two females derived from the microinjection in five males and two females derived from the microinjection of 271 rabbit embryos. Both hCD4 RNA and protein were expressed in peripheral blood lymphocytes (PBLs) from all five males but neither of the females. Human CD4 was expressed on PBLs from F1 offspring of all founder males. T-cell subset analysis revealed that hCD4 expression was restricted to rabbit CD4 (rCD4) expressing lymphocytes; mature rCD4- rCD8+ lymphocytes did not express hCD4. In preliminary studies, PBLs from hCD4 transgenic rabbits produced greater amounts of HIV-1 p24 core protein following HIV-1 infection in vitro than HIV-1 p24 antigen in nontransgenic rabbit infected cultures. These results extend to rabbits our previous observation that this transgene contains the sequence elements required for high-level expression in the appropriate cells of transgenic mice. Furthermore, these and previous studies demonstrating that expression of hCD4 protein enhances HIV-1 infection of rabbit T cells in vitro, coupled with reports that normal, nontransgenic rabbits are susceptible to HIV-1 infection, suggests that the hCD4 transgenic rabbits described herein will have an increased susceptibility to HIV-1 infection. In vivo HIV-1 infection studies with these rabbits are under way.

Human T lymphocyte virus 1 from a leukemogenic cell line mediates in vivo and in vitro lymphocyte apoptosis

HTLV-1 is implicated in the development of diverse diseases. However, most HTLV-1-infected individuals remain asymptomatic. How HTLV-1 infection leads to disparate consequences remains a mystery, despite extensive investigation of HTLV-1 isolates from infected individuals. As in human infection, experimental HTLV-1 infection in rabbits is generally benign, although HTLV-1-infected rabbit T cell lines that mediate lethal leukemia-like disease have been reported. We report here that thymuses from mature outbred rabbits inoculated with a lethal leukemia-like disease have been reported. We report here that thymuses from mature outbred rabbits inoculated with a lethal HTLV-1 T cell line (RH/K34) showed morphological and biochemical evidence of apoptosis, whereas thymuses from rabbits inoculated with nonlethal HTLV-1 T cell lines showed no signs of apoptosis. Exposure of rabbit or human lymphocytes to purified virus from RH/K34 caused rapid induction of apoptosis, providing an in vitro correlate to the pathogenic effects. By contrast, virus isolated from a nonlethal cell line mediated dose-dependent lymphocyte proliferation. These data implicate lymphocyte apoptosis as a potential mechanism by which the lethal HTLV-1 cell line causes fulminant disease and provide a means to identify factors contributing to HTLV-1 disease. Results from this HTLV-1 infection model can provide insight into variations in HTLV-1 pathogenicity in human infection.

Rabbits transfused with human immunodeficiency virus type 1-infected blood develop immune deficiency with CD4+ lymphocytopenia in the absence of clear evidence for HIV type 1 infection

Rabbits can be infected with human immunodeficiency virus (HIV-1), but no disease signs similar to acquired immunodeficiency syndrome (AIDS) have been reported to date. In our attempt to develop types of HIV-1 more virulent for rabbits, an immunodeficiency characterized by CD4+ lymphocytopenia and opportunistic infection was induced by transfusion from HIV-1-infected rabbits. The original donor was infected for 27 months; initial passage resulted in infection of two rabbits. Transfusions from these two infected rabbits. Transfusions from these two infected rabbits caused immunodeficiency in 12 recipients. One rabbit died at 3 months and a second at 8 months postransfusion with lymphocyte depletion in lymphoid organs; one of these and another of the CD4+ lymphocytopenic rabbits had opportunistic infections. Lentivirus-like particles were detected in thymus and spleen from an affected rabbit. Despite appearance of AIDS-like disease signs, antibodies to HIV-1 probes were detected in rabbits receiving passaged blood. However, RNA transcripts hybridizing with HIV-1 probes were detected in organs of some rabbits, implicating the initial HIV infection in the disease. Transfusion from uninfected donors produced no signs of immunodeficiency, which suggests the involvement of an HIV-related agent. The present data do not allow definitive characterization of the agent(s) involved in the immunodeficiency. Possibilities include activation of a rabbit retrovirus or, alternatively, development of a mutated HIV-1 strain.

Heat-shock proteins expressed on the surface of human T cell leukemia virus type I-infected cell lines induce autoantibodies in rabbits

Eight human T cell leukemia virus type I (HTLV-I)-infected cell lines were derived in vitro from peripheral blood mononuclear cells of 8 rabbits. Each rabbit was then inoculated with its own HTLV-I-transformed cells, after which all but 1 rabbit had anti-heat-shock protein (hsp) antibodies in sera. Cell line RH/K34, which failed to raise a response to hsp70, caused lethal leukemia when > 2 x 10(8) live cells were injected into unrelated outbred rabbits. Rabbits injected with cell-free virus isolated from RH/K34 cells produced anti-hsp70 antibodies and became infected but developed no fatal disease. ELISA inhibition and flow cytometry analyses indicated that hsp molecules are expressed on the surface of RH/K34 and RH/K30, a nonlethal HTLV-I cell line used for comparison; surface hsp expression does not occur normally. Two proteins of approximately 72 and 93 kDa were detected by Western blot in extracts of RH/K30 cells. Presence of anti-hsp70 antibodies correlated with resistance to lethal doses of live RH/K34 cells, suggesting that hsp immunity may influence the outcome of RH/K34 pathogenicity.

Selection of rabbit CD4- CD8- T cell receptor-gamma/delta cells by in vitro transformation with human T lymphotropic virus-I

In vitro transformation of rabbit peripheral blood mononuclear cells (PBMC) with human T lymphotropic virus-I (HTLV)-infected human or rabbit cells resulted in CD4- CD8- cell lines, some of which caused acute leukemia when injected into rabbits. Structural analyses of the proviruses from cell lines with diverse pathogenic effects provided no clear correlation with lethality. The rabbit lines were provisionally designated T cells because they express interleukin 2R (IL-2R) and CD5 and lack surface immunoglobulin, but none express functional T cell receptor (TCR) alpha or beta transcripts. A more detailed characterization of the HTLV-I-infected cells was required to determine cell lineage and its potential influence on pathogenic consequences. Probes for rabbit TCR gamma and delta genes were derived and used to detect gamma and delta TCR RNA transcripts, identifying the in vitro transformed lines as gamma/delta T cells. CD4+ and CD8+ lines were derived from PBMC of HTLV-I-infected rabbits and CD4+ TCR-alpha/beta HTLV-I lines were derived from rabbit thymus, eliminating the possibility that the HTLV-I isolates used here transform only CD4- CD8- TCR-gamma/delta cells. The percentage of gamma/delta cells in rabbit PBMC is relatively high (23% in adult rabbits); this with diminution of CD4+ and CD8+ cells in IL-2-supplemented PBMC or thymocyte cultures may account for selection of rabbit HTLV-I-infected gamma/delta T cell lines in vitro. The availability of well-characterized T cell lines with diverse in vivo effects in the rabbit HTLV-I disease model allows evaluation of roles played by cell type in HTLV-I-mediated disease.

Variation in HTLV-I sequences from rabbit cell lines with diverse in vivo effects

Comparison of nucleotide sequences determined for HTLV-I integrated provirus from two rabbit cell lines, RH/K30 and RH/K34, revealed greater than 99% identity to one another. Substitutions encoding amino acid interchanges were observed in the gag, pol, and rex regions whereas the env and tax proteins were identical in the two lines. Comparison with the human prototypic HTLV-I sequence revealed considerably more variation, especially in the viral envelope region where the rabbit sequences are identical. The HTLV-I lines differed in their potential to cause disease in rabbits: injection of the RH/K34 cell line caused human adult T-cell leukemia/lymphoma-like (ATLL) disease which was fatal within 10 days, whereas all rabbits injected with the same or higher doses of RH/K30 survived with a low-grade leukemia that showed evidence of acute rejection. Correlation of lethality with viral sequence was tested by injection of rabbits with two other rabbit cell lines with HTLV-I provirus identical to RH/K34 in LTR, gag, and env regions. The fact that only one of these lines produced fatal disease suggests that pathogenic determinants lie outside of these regions or, alternatively, that the structure of the integrated virus is not the sole factor in the cell lines' ability to cause ATLL-like disease.

CD4 and its role in infection of rabbit cell lines by human immunodeficiency virus type 1

Human CD4 (HuCD4) is the principal receptor for human immunodeficiency virus type 1 (HIV-1) in human cell infection. Susceptibility of rabbit cell lines to infection with HIV-1 raised questions concerning whether a CD4 homolog serves as HIV-1 receptor on rabbit cells. Sequence comparisons of rabbit CD4 (RbCD4) cloned from a rabbit thymus cDNA library showed that 6 of the 18 residues implicated in HIV-1 binding by CD4 differ between the human and rabbit proteins. No correlation between RbCD4 expression by rabbit cell lines and their ability to support HIV-1 infection was seen. Transfection of RbCD4-negative, HTLV-I-transformed cell lines with HuCD4 significantly enhanced HIV-1 infectivity, suggesting that these lines lack a receptor present on other RbCD4-negative lines that produce high levels of p24 in their native state. Inhibition of HIV-1 infection with soluble HuCD4 was demonstrated for all rabbit lines tested, but complete inhibition was obtained only with a rabbit T-cell line expressing RbCD4 and with HuCD4 transfectants. The results suggest that HIV-1 infection of the RbCD4-positive line proceeds through a receptor similar to HuCD4 but that an additional receptor or receptors may serve this purpose in RbCD4-negative lines.

Linkage between T cell receptor genes and susceptibility to multiple sclerosis: a complex issue

Susceptibility to Multiple Sclerosis (MS) and to other autoimmune diseases has been linked to genes encoded within the HLA complex. More recent evidence indicates linkage between MS and genes encoded within or closely linked to the T cell receptor (TCR) beta chain gene complex. However, not all available data are concordant. Discrepancies are most likely rooted in the complex nature of TCR and MHC genes and interactions of their products in initiating and sustaining autoimmune responses. An evaluation of linkage of TCR and MHC genes to autoimmune disease processes must take into account the nature of polymorphism in the gene complexes, the complexity of autoimmune diseases along with the multigenic nature of genetic predisposition. These factors create a situation in which simple genetic linkage may be the exception rather than the rule. The present report reviews data concerning TCR and MS linkage and enumerates the complexities that arise in evaluating results from such studies.

Mapping of the rabbit MHC reveals that class I genes are adjacent to the DR subregion and defines an insertion/deletion-related polymorphism in the class II region

Molecular analyses of genes in the rabbit MHC (RLA) by pulsed field gel electrophoresis have shown that the relative order of class II genes (DP, DO, DQ, DR) is identical to that in humans and similar to that in the mouse. However, a major difference from either HLA or H-2 was observed at the DR end of the RLA class II complex: class I genes are located in close proximity to DR with no interposed class III sequences. A MluI fragment of 180 kb and a 210-kb SalI fragment both hybridized with the DR probe as well as with different class I probes including that for pR27, a class I gene with T cell-limited pattern of expression. Comparison of two different RLA haplotypes, A and B, indicated that the distance between the DQ and DR subregions differs by approximately 700 kb in the two haplotypes. Testing other unrelated rabbits suggested that this difference segregates within the rabbit population and presumably derives from an insertion/deletion event in different haplotypes. A further difference between the A and B haplotypes included variable distance between genes encoding DO beta and DP; the DR end of the complex and the class I genes linkage was conserved in the two haplotypes.

Mapping of the rabbit MHC reveals that class I genes are adjacent to the DR subregion and defines an insertion/deletion-related polymorphism in the class II region

Molecular analyses of genes in the rabbit MHC (RLA) by pulsed field gel electrophoresis have shown that the relative order of class II genes (DP, DO, DQ, DR) is identical to that in humans and similar to that in the mouse. However, a major difference from either HLA or H-2 was observed at the DR end of the RLA class II complex: class I genes are located in close proximity to DR with no interposed class III sequences. A MluI fragment of 180 kb and a 210-kb SalI fragment both hybridized with the DR probe as well as with different class I probes including that for pR27, a class I gene with T cell-limited pattern of expression. Comparison of two different RLA haplotypes, A and B, indicated that the distance between the DQ and DR subregions differs by approximately 700 kb in the two haplotypes. Testing other unrelated rabbits suggested that this difference segregates within the rabbit population and presumably derives from an insertion/deletion event in different haplotypes. A further difference between the A and B haplotypes included variable distance between genes encoding DO beta and DP; the DR end of the complex and the class I genes linkage was conserved in the two haplotypes.

Analysis of T cells and major histocompatibility complex class I and class II mRNA and protein content and distribution in antiglomerular basement membrane disease in the rabbit

The major interacting components of the immune system, major histocompatibility complex (MHC) class I and class II proteins and T cells were analyzed in a model of anti-GBM (glomerular basement membrane) disease in the rabbit that progresses to develop cellular crescents and glomerular and interstitial fibrosis. Class I and II mRNA and protein were measured in isolated glomeruli and whole renal cortex using cDNA probes and monoclonal antibodies. The distribution of T cells and class I and II proteins was assessed by immunofluorescence. Normal glomeruli contained no T cells and were class II negative. By day 4, glomeruli contained MHC class I and II mRNA and protein and class II positive T cells. Although some animals had T cells in the periglomerular area, these cells were class II negative. By day 7 periglomerular T cells were largely class II positive (activated) and there was increased MHC class I and II mRNA and protein in whole renal cortex. Later T cells accumulated in the tubulo-interstitial compartment, which became diffusely positive for MHC classes I and II, but to a variable extent in different animals. Those with high class II mRNA expression also had detectable T cell antigen receptor mRNA by Northern analysis. The authors conclude 1) in this model there was a close association between mRNA abundance and protein expression for both MHC classes I and II in glomeruli and renal cortex as a whole; 2) in this model of glomerular injury there are three phases of activation. The first phase takes place in the glomerulus and is associated with accumulation of activated T cells and MHC class I and II protein in the glomerulus. Phase 2 is associated with the accumulation of periglomerular T cells and their becoming class II positive. There is subsequent dissemination (phase 3) of activated T cells and accumulation of class I and II mRNA and protein throughout the interstitial compartment. This spacial progression of glomerulocentric inflammation is likely associated with degree of injury and permanent loss of renal function.

A gene remnant in the rabbit MHC related to HLA-DR alpha

The screening of a rabbit genomic library yielded 2 HLA-DR alpha-related clones. One of these was previously shown to contain a functional gene (RLA-DR alpha) closely related to HLA-DR alpha. The second DR-related clone, designated DF, was mapped to the rabbit MHC class II region by genetic studies. DF contains contiguous sequences that have significant homology to the RLA-DR alpha transmembrane-coding region (contained in exon 4 of RLA-DR alpha) and to part of intron 4. These 2 stretches were reversed in DF when compared to other class II genes, and were flanked on both sides by direct repeats of 130 bp with 85% sequence identity. The presence of the transmembrane sequence without the coding sequences that accompany it in DR alpha, and the observation of the repeats, suggests that the DF region played a role in evolution of class II genes. Genomic blots revealed sequences hybridizing to DF in all rabbits tested and in other lagomorph species. The ratio of replacement to silent substitutions in the DF transmembrane region differed significantly from functional class II genes suggesting an absence of recent selective pressure. An additional direct repeat of the C type, similar to that found in rabbit cytochrome p450, certain class I MHC, TcR beta and uteroglobin genes, was also present in the DF fragment.

A monocyte-derived factor interferes with detection of reverse transcriptase in HIV-1 infection

Culture supernatants from the rabbit macrophage cell line 6083 infected with a retrovirus, human immunodeficiency virus type 1 (HIV-1), were negative for reverse transcriptase (RT) expression although the line was shown to be productively infected by all other criteria tested. Supernatants from uninfected cultures of 6083, the human monocyte line U937, and from freshly isolated peripheral human monocytes, were found to contain a monocyte-derived inhibitory factor (MDIF) which interferes with a standard assay for RT. MDIF is a heat-labile activity of approximately of 40 kD. Both substrates and products of the reverse transcriptase assay are degraded by MDIF which is not affected by reduction and alkylation of disulfide bonds. MDIF is inhibited by the addition of a particular thioated oligonucleotide (S-dG30) to the reaction mixture but this addition also inhibits RT. The optimum method to minimize MDIF interference in the RT assay is by addition of ethylene glycol bis-(beta-aminoethyl ether)N,N,N',N'-tetraacetic acid (EGTA); MDIF requires divalent cations for activity and has a strong preference for calcium which is preferentially chelated by EGTA. The potential presence of this inhibitory activity should be considered when using RT levels as a measure of retroviral infection.

Insertion/deletion-related polymorphisms in the human T cell receptor beta gene complex

Insertion/deletion related polymorphisms (IDRP) involving stretches of 15-30 kb within the human TCR-beta gene complex were revealed by pulse-field gel electrophoresis. Two independent IDRP systems were detected by analysis of Sfi I- and Sal I-digested human DNA samples using probes for TCR C and V region gene segments. The allelic nature of these systems was verified in family studies, and mapping data allowed localization of one area of insertion/deletion among the V gene segments and the other near the C region genes. All but one of 50 individuals tested could be typed for the two allelic systems, and gene frequencies for the two allelic forms were 0.37/0.61 and 0.46/0.54, indicating that these polymorphisms are widespread.

A susceptibility locus for multiple sclerosis is linked to the T cell receptor beta chain complex

Inheritance of T cell receptor beta chain (TCR beta) genes was analyzed in families of 40 sibling pairs concordant for the relapsing-remitting form of multiple sclerosis (MS). TCR beta haplotypes were determined by segregation analysis of polymorphic markers within the TCR beta complex. The mean proportion of TCR beta haplotypes identical by descent (IBD) inherited by MS sibling pairs was significantly increased compared with expected values (means test, p less than 0.004), whereas the distribution of haplotype sharing was random when MS patients were compared with their unaffected siblings. Furthermore, one allelic form of a TCR beta variable region gene segment was overrepresented on MS chromosomes compared with those parental chromosomes not transmitted to MS offspring both in the MS sibling pair families and in a second group of families containing only one individual affected with MS. These results demonstrate that a gene within the TCR beta complex or a closely linked locus influences susceptibility to MS.

Evidence for dual infection of rabbits with the human retroviruses HTLV-I and HIV-1

Rabbits experimentally infected with HTLV-I and HIV-1 produced antibody to various viral proteins, and viral DNA could be detected by gene amplification using the polymerase chain reaction. HTLV-I genes were detected in cell lines derived from infected rabbits, and in some cases, both HIV-1 and HTLV-I DNA sequences were demonstrated in peripheral blood cells taken from rabbits one year after experimental infection. The polymerase chain reaction procedure was used to demonstrate the presence of HTLV-I gag, env and tax genes and HIV-1 gag and env genes. The amplified fragments were identified by size and by hybridization to specific probes. The ability of rabbits to support simultaneous infection with HTLV-I and HIV-1 will allow in vivo studies of the possible synergistic effects of these important human pathogens.

Infection of rabbits with human immunodeficiency virus 1. A small animal model for acquired immunodeficiency syndrome

Injection of rabbits with a human T cell line infected with HIV-1 caused seroconversion within 6 wk, and HIV-1 could be isolated from PBL cultures of infected rabbits. Identity of the isolated virus with HIV-1 was shown by analysis of products amplified by the polymerase chain reaction. HIV-1 infection was seen in rabbits injected with HIV-1-infected cells alone as well as in those that were first infected with HTLV-1 and subsequently with HIV-1. There were no consistent signs of disease in the rabbits infected with HIV-1 alone but HTLV-1/HIV-1-infected rabbits showed signs of illness including diarrhea and weight loss, transient neurologic impairment and, in one animal, a rapidly progressing mammary adenocarcinoma. Examination of organs taken at necropsy from both HIV-1- and HTLV-1/HIV-1-infected animals showed splenic hyperplasia and lymphocyte infiltration of the lungs, as well as moderate damage to liver and kidney in some cases.

Infection of rabbit T-cell and macrophage lines with human immunodeficiency virus

We report the successful infection of two rabbit T-cell lines and one rabbit macrophage line with human immunodeficiency virus 1 (HIV-1). One T-cell line was a herpesvirus ateles transformant, the other T-cell line was a human T-cell leukemia virus I transformant, and the macrophage line was a simian virus 40 transformant. After infection with a high-titered HIV-1 stock, the rabbit cultures exhibited properties that closely mimic those of HIV-1-infected human cells. Productive infection was evident in cultures 7-14 days after infection, as shown by an increase in reverse transcriptase activity, a concomitant increase in positive cells detected by indirect immunofluorescence using serum from a patient with acquired immunodeficiency syndrome, and a decrease in cell viability. RNA gel blot hybridization and protein immunoblot analyses of infected cells indicated that all predicted viral transcripts and proteins were synthesized during the course of the infection. Proof that cell-free culture supernatants of the infected rabbit cell lines contained infectious virus was given by successful passage onto a susceptible human T-cell line. The ability of HIV-1 to infect transformed rabbit cell lines in vitro suggests that, with appropriate manipulation, the rabbit may provide a model for infection with HIV-1.

B lymphoblastoid cell lines with rearranged T cell receptor beta-chain genes retain conventional B cell surface antigen and Ig expression

Transformation of peripheral blood lymphocytes by co-incubation with EBV produces B lymphoblastoid cell lines, but rearrangement of TCR beta-chain genes was observed in three different cell lines derived from two individuals. Because rearrangement of TCR genes in B lymphocytes is considered a rare event, these B lymphoblastoid cell lines with rearranged TCR beta-genes were examined in detail to determine whether there were any additional characteristics to distinguish them from B lymphoblastoid cell lines with germ-line TCR beta-genes. All B lymphoblastoid cell lines contained rearranged Ig H and kappa L chain genes, secreted Ig, and expressed B and not T cell surface markers. Cell lines with rearranged TCR beta-genes had rearranged both IgH genes and had rearranged and subsequently deleted both kappa C region genes. Furthermore all three B lymphoblastoid cell lines with rearranged TCR beta-genes produced small amounts of Ig with lambda-L chains. Although the cellular mechanisms maintaining lineage-specific rearrangement events remain unknown, extensive Ig gene rearrangement and inefficient Ig production by B cells may be indicators of a cellular status where normally stringent lineage-specific control elements fail to function efficiently.

B lymphoblastoid cell lines with rearranged T cell receptor beta-chain genes retain conventional B cell surface antigen and Ig expression

Transformation of peripheral blood lymphocytes by co-incubation with EBV produces B lymphoblastoid cell lines, but rearrangement of TCR beta-chain genes was observed in three different cell lines derived from two individuals. Because rearrangement of TCR genes in B lymphocytes is considered a rare event, these B lymphoblastoid cell lines with rearranged TCR beta-genes were examined in detail to determine whether there were any additional characteristics to distinguish them from B lymphoblastoid cell lines with germ-line TCR beta-genes. All B lymphoblastoid cell lines contained rearranged Ig H and kappa L chain genes, secreted Ig, and expressed B and not T cell surface markers. Cell lines with rearranged TCR beta-genes had rearranged both IgH genes and had rearranged and subsequently deleted both kappa C region genes. Furthermore all three B lymphoblastoid cell lines with rearranged TCR beta-genes produced small amounts of Ig with lambda-L chains. Although the cellular mechanisms maintaining lineage-specific rearrangement events remain unknown, extensive Ig gene rearrangement and inefficient Ig production by B cells may be indicators of a cellular status where normally stringent lineage-specific control elements fail to function efficiently.

Conservation of the immunoglobulin C lambda 5 gene in the Mus gene

A gene encoding the lambda 5 light chain constant region was isolated from a genomic library from the SPE mouse strain (C lambda 5S). SPE is an inbred wild mouse strain belonging to the Mus 3 or Mus spretus group that has been genetically isolated from Mus 1 (the group to which laboratory mice belong) for a period of 1-3 million years. The sequence of the C lambda 5S gene shows strong homology to C lambda 5 of (C57BL/6J x DBA/2)F1 both in the coding region (98% identity) and in the 5'- and 3'-flanking regions (98 and 95% identity, respectively). Sequence comparison of C lambda 5 genes with C lambda 1 of BALB/c shows only few substitutions in the C lambda 5 coding regions and suggests that the three genes have a common ancestor. These data indicate that the C lambda 5 gene has evolved under strong selective pressure and probably encodes a functional gene product. The conservation of the C lambda 5 gene in various Mus species was observed by high stringency Southern blot analyses using a C lambda 5S probe on DNA sample from members of four different groups of wild mice. All the laboratory and wild mouse strains tested, including those with amplified sets of C lambda 1 and C lambda 2 hybridizing sequences, showed only single C lambda 5 hybridizing fragments. Little variation in size of restriction fragments detected with the C lambda 5 probe was seen in the different Mus species suggesting a high degree of conservation.(ABSTRACT TRUNCATED AT 250 WORDS)

Genetic recombination within the human T-cell receptor alpha-chain gene complex

Genetic analyses of the human T-cell receptor (TCR) alpha-chain genes indicate that recombination events may occur frequently within this gene complex. Examination of the inheritance of restriction fragment length polymorphisms (RFLP) detected by using probes for constant or variable region gene segments made it possible to assign TCR alpha haplotypes to the 16 parents and 43 offspring of eight families studied. A total of six RFLP, three for the constant region and three for variable region gene segments, were examined in the present studies. Most enzyme and probe combinations tested revealed no polymorphism and those finally selected for the study showed limited polymorphism in that only two or, in one case, three allelic forms of the gene were seen. In spite of limited variability at this level, extensive heterogeneity was observed for the combinations of markers present in haplotypes, suggesting that frequent recombination events have occurred. Most strikingly, multiple combinations of RFLP occurring in close proximity of the TCR alpha constant region gene were observed in this study. A high recombination frequency for the TCR alpha gene complex is further supported by the observation that two children, one in each of two families, inherited recombinant TCR alpha haplotypes.

A rabbit class I major histocompatibility complex gene with a T cell-specific expression pattern

The class I gene family of the rabbit consists of 8 to 12 members and includes a gene that is transcribed only in T cells and in lymphoid tissues containing T cells. A cDNA clone, pR27, was isolated from a cDNA library constructed using mRNA from the T cell line RL-5. The pR27 insert was 1.9 kb long and included sequences that correspond to class I exons 2, 3, and 4 encoding external domains. Intron 4 sequence was found downstream followed by an unusually long 3' region which contained a sequence highly repeated in the rabbit genome. Although the pR27 exons encode structures typical of class I antigens, structural comparisons show no close relationship to other rabbit class I genes in the 3' regions, and no relationship to the 3' region of any murine gene including those encoded in the T1a region. By contrast, similarity of the 3' sequence has been found with human genes of the HLA-A type both by sequence comparison and by DNA hybridization studies. Southern blot analyses with a specific probe from this clone indicated that the gene encoding pR27 is present as a single copy in all rabbit DNA samples examined. Northern blot analysis and S1 nuclease mapping studies revealed that transcripts corresponding to pR27 are present in virally transformed T cell lines, thymus, and, to a lesser extent, in spleen and appendix but not in nonlymphoid tissue. The sizes of the detected transcripts (2.8 and 3.9 kb) were larger than that normally observed for a class I gene.