Mutations in the tyrosine phosphatase CD45 gene in a child with severe combined immunodeficiency disease.

The hematopoietic-specific transmembrane protein tyrosine phosphatase CD45 functions to regulate Src kinases required for T- and B-cell antigen receptor signal transduction. So far, there have been no reports to our knowledge of a human deficiency in a tyrosine-specific phosphatase. Here, we identified a male patient with a deficiency in CD45 due to a large deletion at one allele and a point mutation at the other. The point mutation resulted in the alteration of intervening sequence 13 donor splice site. The patient presented at 2 months of age with severe combined immunodeficiency disease. The population of peripheral blood T lymphocytes was greatly diminished and unresponsive to mitogen stimulation. Despite normal B-lymphocyte numbers, serum immunoglobulin levels decreased with age. Thus, CD45 deficiency in humans results in T- and B-lymphocyte dysfunction.

B-cell lines immortalized with an Epstein-Barr virus mutant lacking the Cp EBNA2 enhancer are biased toward utilization of the oriP-proximal EBNA gene promoter Wp1.

During Epstein-Barr virus (EBV) latent infection of B lymphocytes in vitro, six viral nuclear antigens (EBNAs) are expressed from one of two promoters, Cp or Wp, whose activities have previously been shown to be mutually exclusive in established lymphoblastoid cell lines. Initially after infection, the EBNA genes are transcribed from Wp, which is present in multiples copies within the major internal repeat of EBV. Approximately 48 to 72 h postinfection, Wp is downregulated, with a corresponding increase in transcription from Cp. An EBNA2-responsive enhancer exists upstream of Cp, and a role for EBNA2 in the induction of Cp activity during the establishment of viral latency has previously been proposed (Woisetschlaeger et al., Proc. Natl. Acad. Sci. USA 87:1725-1729, 1991). To critically assess the potential role for this enhancer region in determining relative usage of Cp and Wp, an EBNA2 enhancer deletion mutant virus was generated. Lymphoblastoid cell lines were screened by PCR and Southern blotting for the presence of mutant virus harboring the EBNA2 enhancer deletion. A quantitative S1 nuclease protection assay was developed to allow comparison of relative Cp and Wp activities for the cell lines containing mutant virus and those of the wild-type recombinants which lacked the enhancer deletion. In general, the wild-type recombinants had higher levels of Cp-initiated transcripts than Wp-initiated transcripts. In contrast, the Cp EBNA2 enhancer deletion mutants exhibited a strong bias toward Wp activity. Notably, only the first Wp (oriP-proximal Wp; Wp1) appears active in these mutants. S1 nuclease protection assays using a probe which hybridizes to the W2 exon, contained in both Cp- and Wp-initiated transcripts, indicated that the total level of transcription from Cp and Wp remained the same in wild-type and EBNA2 enhancer mutant cell lines. The presence of both Cp and Wp activity in the wild-type recombinants, as well as in newly derived lymphoblastoid cell lines established with the prototype B95.8 virus, demonstrated that Cp and Wp activities are not always mutually exclusive.

Mature B cells are required for acute splenic infection, but not for establishment of latency, by murine gammaherpesvirus 68.

Murine gammaherpesvirus 68 (gamma HV-68; also referred to as MHV-68) is a gammaherpesvirus which infects murid rodents. Previous studies showed that CD8 T cells are important for controlling gamma HV-68 replication during the first 2 weeks of infection and suggested a role for B cells in latent or persistent gamma HV-68 infection. To further define the importance of B cells and CD8 T cells during acute and chronic gamma HV-68 infection, we examined splenic infection in mice with null mutations in the transmembrane domain of the mu-heavy-chain constant region (MuMT; B-cell and antibody deficient) or in the beta2-microglobulin gene (beta2 -/-; CD8 deficient). Immunocompetent mice infected intraperitoneally with gamma HV-68 demonstrated peak splenic titers 9 to 10 days postinfection, cleared infectious virus 15 to 20 days postinfection, and harbored low levels of latent virus at 6 weeks postinfection. Beta2-/- mice showed peak splenic gamma HV-68 titers similar to those of normal mice but were unable to clear infectious virus completely from the spleen, demonstrating persistent infectious virus 6 weeks postinfection. These data indicate that CD8 T cells are important for clearing infectious gamma HV-68 from the spleen. Infected MuMT mice did not demonstrate detectable infectious gamma HV-68 in the spleen at any time after infection, indicating that mature B lymphocytes are necessary for acute splenic infection by gamma HV-68. Despite the lack of measurable acute infection, MuMT spleen cells harbored latent virus 6 weeks postinfection at a level about 100-fold higher than that in normal mice. These data demonstrate establishment of latency by a herpesvirus in an organ in the absence of acute viral replication in that organ. In addition, they demonstrate that gamma HV-68 can establish latency in a cell type other than mature B lymphocytes.