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ABSTRACT: Monosomy 1p36 is a subtelomeric deletion syndrome associated with congenital anomalies presumably due to haploinsufficiency of multiple genes. Although immunodeficiency has not been reported, genes encoding costimulatory molecules of the TNF receptor superfamily (TNFRSF) are within 1p36 and may be affected. In one patient with monosomy 1p36, comparative genome hybridization and fluorescence in- situ hybridization confirmed that TNFRSF member OX40 was included within the subtelomeric deletion. T cells from this patient had decreased OX40 expression after stimulation. Specific, ex vivo T cell activation through OX40 revealed enhanced proliferation, and reduced viability of patient CD4+ T cells, providing evidence for the association of monosomy 1p36 with reduced OX40 expression, and decreased OX40-induced T cell survival. These results support a role for OX40 in human immunity, and calls attention to the potential for haploinsufficiency deletions of TNFRSF costimulatory molecules in monosomy 1p36.
Clinical Immunology 09/2008; 128(2):181-9. · 4.05 Impact Factor
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ABSTRACT: Peptidomimetics of HIV-1 gp41 sequences required for membrane fusion are potent inhibitors of HIV-1 entry. We hypothesize that expression of a membrane-bound gp41-derived fusion inhibitor will confer HIV-1 resistance to primary CD4 T cells. Efficient gene delivery and stable expression of a membrane-bound gp41-derived fusion inhibitor to primary CD4 T cells was accomplished using a self-inactivating lentiviral vector. A potent antiviral effect was observed when transduced CD4 T cells were challenged with a highly virulent CXCR4-tropic strain of HIV-1. Production of soluble p24 in the supernatant was inhibited 100-fold, and cytopathic effects were evident early in non-transduced cells and absent in transduced cells. Expression of the gp41 sequences was not detrimental to CD4 cells as transduced CD4 T cells exhibited a population doubling time that was equivalent to T cells transduced with a control vector. Results from this study support the rationale to use this lentiviral vector targeted at HIV entry as a potential gene therapy for HIV infection.
Clinical Immunology 05/2005; 115(1):26-32. · 4.05 Impact Factor
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ABSTRACT: Protease genotype, as a variable in outcome to combination therapy for human immunodeficiency virus (HIV) type 1 infection, was evaluated among protease inhibitor-naive children and adolescents who had received extensive treatment with reverse-transcriptase inhibitors. After 24 weeks of combination therapy, 35% had viral and immune success (VSIS patients), 19% had viral and immune failure (VFIF patients), and 46% had viral failure but marked improvement in CD4 T cells (VFIS patients). Disease stage was the only pretherapy clinical variable associated with outcome (P=.02). Although reverse-transcriptase genotype was unrelated to outcome, pretherapy protease genotype was related significantly to therapy response (P=.005). Odds for immune or viral failure were 17.7 to 1 and 2.5 to 1, respectively, for protease genotype as a single variable. Protease genotype combined with disease stage and CD4 cell percentage predicted correct therapy response for 81% of patients (100% of VFIF, 78% of VSIS, and 75% of VFIS patiens). Naturally occurring amino acid polymorphisms in protease provide sensitive biomarkers for treatment response among inhibitor-naive patients with advanced HIV disease.
The Journal of Infectious Diseases 03/2001; 183(4):579-88. · 6.41 Impact Factor
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ABSTRACT: Reduced sensitivity of human immunodeficiency virus type 1 (HIV-1) to protease inhibitors is associated with multiple amino acid substitutions in the virus-encoded protease. The combination of changes that contribute to drug resistance is dependent in part upon the amino acid residues comprising protease alleles prior to drug therapy. We analyzed within peripheral blood mononuclear cells from HIV-1-infected mothers and their children viral gag/pol regions, which included p7, transframe p6/p6*, and protease coding sequences, as well as six protease cleavage sites. Sixty protease alleles from 12 individuals differed by at least 3 to as many as 10 amino acids from proteases encoded by molecular clones of HIV-1, indicating that there is no prototype or consensus wild-type HIV-1 protease sequence. Protease variants with a proline at position 63, a substitution associated with resistance to protease inhibitors, appeared in the absence of antiprotease therapy in 7 patients and were transmitted by 2 mothers to their infants. Gag p7 p6 regions were significantly more variable than protease. The p6/p6* region contained length variants and amino acid repeats in both reading frames. Five protease cleavage sites (B, D', D, E, and F) contained highly conserved amino acid sequences in individuals infected by epidemiologically distinct viruses. In contrast, C cleavage sites, localized between Gag p2 and Gag p7, displayed considerable amino acid variability, were unique among groups of infected individuals, and appeared to be related to particular protease alleles. Genetic variability in vivo in protease, in cleavage sites, and in proteins upstream of protease provides the potential to modulate enzyme activity and susceptibility to protease inhibitors.
Virology 06/1996; 219(2):407-16. · 3.35 Impact Factor
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ABSTRACT: Monosomy 1p36 is a subtelomeric deletion syndrome associated with congenital anomalies presumably due to haploinsufficiency of multiple genes. Although immunodeficiency has not been reported, genes encoding costimulatory molecules of the TNF receptor superfamily (TNFRSF) are within 1p36 and may be affected. In one patient with monosomy 1p36, comparative genome hybridization and fluorescence in- situ hybridization confirmed that TNFRSF member OX40 was included within the subtelomeric deletion. T cells from this patient had decreased OX40 expression after stimulation. Specific, ex vivo T cell activation through OX40 revealed enhanced proliferation, and reduced viability of patient CD4+ T cells, providing evidence for the association of monosomy 1p36 with reduced OX40 expression, and decreased OX40-induced T cell survival. These results support a role for OX40 in human immunity, and calls attention to the potential for haploinsufficiency deletions of TNFRSF costimulatory molecules in monosomy 1p36.
Clinical Immunology.
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[show abstract]
[hide abstract]
ABSTRACT: Peptidomimetics of HIV-1 gp41 sequences required for membrane fusion are potent inhibitors of HIV-1 entry. We hypothesize that expression of a membrane-bound gp41-derived fusion inhibitor will confer HIV-1 resistance to primary CD4 T cells. Efficient gene delivery and stable expression of a membrane-bound gp41-derived fusion inhibitor to primary CD4 T cells was accomplished using a self-inactivating lentiviral vector. A potent antiviral effect was observed when transduced CD4 T cells were challenged with a highly virulent CXCR4-tropic strain of HIV-1. Production of soluble p24 in the supernatant was inhibited 100-fold, and cytopathic effects were evident early in non-transduced cells and absent in transduced cells. Expression of the gp41 sequences was not detrimental to CD4 cells as transduced CD4 T cells exhibited a population doubling time that was equivalent to T cells transduced with a control vector. Results from this study support the rationale to use this lentiviral vector targeted at HIV entry as a potential gene therapy for HIV infection.
Clinical Immunology.
