Somatic mosaicism in the Wiskott-Aldrich syndrome: molecular and functional characterization of genotypic revertants.

The reasons underlying the occurrence of multiple revertant genotypes in Wiskott-Aldrich syndrome (WAS) patients remain unclear. We have identified more than 30 revertant genotypes in a C995T WAS patient having 10-15% revertant, WAS protein (WASp)-expressing circulating lymphocytes. Of 497 allospecific T-cell clones generated from the peripheral blood, 47.1% carried a revertant sequence. All revertant T-cell clones exhibited restoration of WASp expression. However, anti-CD3-induced proliferative responses varied greatly amongst revertants. Several revertant T-cell clones expressed an internally deleted WASp mutant lacking much of the proline-rich region. This potentially accounts for the reduced anti-CD3 proliferative responses of these T-cell clones. We found no evidence for an increased DNA mutation rate in this patient. We conclude that the diversity of revertant genotypes in our patient does not result from an extraordinary mutation rate and that the amino acid sequence space explored by WASp in revertant T-cells is significantly smaller than might have been predicted from the diversity of revertant genotypes.

Tpl2 kinase regulates T cell interferon-gamma production and host resistance to Toxoplasma gondii.

Tpl2 (Tumor progression locus 2), also known as Cot/MAP3K8, is a hematopoietically expressed serine-threonine kinase. Tpl2 is known to have critical functions in innate immunity in regulating tumor necrosis factor-alpha, Toll-like receptor, and G protein-coupled receptor signaling; however, our understanding of its physiological role in T cells is limited. We investigated the potential roles of Tpl2 in T cells and found that it was induced by interleukin-12 in human and mouse T cells in a Stat4-dependent manner. Deficiency of Tpl2 was associated with impaired interferon (IFN)-gamma production. Accordingly, Tpl2(-/-) mice had impaired host defense against Toxoplasma gondii with reduced parasite clearance and decreased IFN-gamma production. Furthermore, reconstitution of Rag2(-/-) mice with Tpl2-deficient T cells followed by T. gondii infection recapitulated the IFN-gamma defect seen in the Tpl2-deficient mice, confirming a T cell-intrinsic defect. CD4(+) T cells isolated from Tpl2(-/-) mice showed poor induction of T-bet and failure to up-regulate Stat4 protein, which is associated with impaired TCR-dependent extracellular signal-regulated kinase activation. These data underscore the role of Tpl2 as a regulator of T helper cell lineage decisions and demonstrate that Tpl2 has an important functional role in the regulation of Th1 responses.

Unprecedented diversity of genotypic revertants in lymphocytes of a patient with Wiskott-Aldrich syndrome.

Spontaneous somatic reversions of inherited mutations are poorly understood phenomena that are thought to occur uncommonly in a variety of genetic disorders. When molecularly characterized, revertant cells have rarely exhibited more than one revertant genotype per patient. We analyzed individual allospecific T-cell clones derived from a Wiskott-Aldrich syndrome (WAS) patient identified by flow cytometry to have 10% to 15% revertant, WAS protein-expressing lymphocytes in his blood. Genotypic analysis of the clones revealed a remarkable diversity of deletions and base substitutions resulting in at least 34 different revertant genotypes that restored expression of WASp. A large fraction of these revertant genotypes were also identified in primary T cells purified from peripheral blood. These data suggest that the use of sensitive methods may reveal the presence of wide arrays of individual genotypic revertants in WAS patients and offer opportunities for further understanding of their occurrence.

Bovine apolipoprotein B-100 is a dominant immunogen in therapeutic cell populations cultured in fetal calf serum in mice and humans.

Recent studies have demonstrated that cell populations intended for therapeutic purposes that are cultured in heterologous animal products can acquire xenoantigens, potentially limiting their utility. In investigations of the immune response to murine embryonic stem cells, we found that a strong antibody response was generated after the second infusion. Both polyclonal and monoclonal antibody responses, derived from immunized mice, were found to be specific for bovine apolipoprotein B-100, which binds to abundant low-density lipoprotein receptors on the cell surface and is internalized. Here we show that in the majority of patients administered 3 different types of cell-based therapies using cells grown in fetal calf serum-containing media, an antibody response to bovine apolipoprotein B-100 develops after the second infusion and is the dominant specificity. The known and potential clinical effects of such antibodies are discussed.

Flow cytometry analysis of adenosine deaminase (ADA) expression: a simple and reliable tool for the assessment of ADA-deficient patients before and after gene therapy.

Clinical gene therapy trials for adenosine deaminase (ADA) deficiency have shown limited success of corrective gene transfer into autologous T lymphocytes and CD34(+) cells. In these trials, the levels of gene transduction and expression in hematopoietic cells have been assessed by DNA- or RNA-based assays and measurement of ADA enzyme activity. Although informative, these methods are rarely applied to clonal analysis. The results of these assays therefore provide best estimates of transduction efficiency and gene expression in bulk populations based on the assumption that gene transfer and expression are uniformly distributed among transduced cells. As a useful additional tool for evaluation of ADA gene expression, we have developed a flow cytometry (fluorescence-activated cell sorting, FACS) assay capable of estimating the levels of intracellular ADA on a single-cell basis. We validated this technique with T cell lines and peripheral blood mononuclear cells (PBMCs) from ADA-deficient patients that showed severely reduced levels of ADA expression (ADA-dull) by FACS and Western blot analyses. After retrovirus-mediated ADA gene transfer, these cells showed clearly distinguishable populations exhibiting ADA expression (ADA-bright), thus allowing estimation of transduction efficiency. By mixing ADA-deficient and normal cells and using enzymatic amplification, we determined that our staining procedure could detect as little as 5% ADA-bright cells. This technique, therefore, will be useful to quickly assess the expression of ADA in hematopoietic cells of severe combined immunodeficient patients and represents an important tool for the follow-up of patients treated in clinical gene transfer protocols.