Busarawan Sriwanthana scite author profile

Understanding how highly HIV-exposed individuals remain HIV uninfected may be useful for HIV vaccine design and development of new HIV prevention strategies. To elucidate mechanisms associated with resistance to HIV infection, immunologic and genetic factors were examined in 14 HIV-exposed but persistently seronegative (HEPS) female sex workers from Chiang Rai, northern Thailand and in ethnically matched, HIV-positive (n = 9) and HIV-negative women (n = 9). The HEPS women were identified in a study of commercial sex workers who had an HIV-1 incidence of 20.3 per 100 person-years. A high frequency of HLA-A11 was observed in HEPS women (86%) compared with northern Thai controls (56%). HIV-specific cytotoxic T lymphocyte (CTL) lytic responses were detected in cryopreserved peripheral blood mononuclear cells (PBMCs), using HLA-A-matched subtype E HIV-1 peptides in four of seven (57%) HEPS women, eight of eight HIV-positive women, and zero of nine HIV-negative unexposed controls (p = 0.019 HEPS women vs. HIV-negative controls). CTL lysis levels were low, but responses were detected to peptides from Nef, Pol, Gag, and Env. Nef responses predominated in HEPS women. Compared with controls, HEPS women tended to have higher frequencies of CCR5 promotor 59402GG and SDF-1 3'UTR 801A genotypes known to influence HIV transmission or course of disease. HEPS women also had higher levels of spontaneous RANTES production by PBMCs than other groups. Each of these factors could potentially contribute to HIV resistance. As most HEPS women had one or more of these factors, they may prevent HIV infection synergistically by blocking HIV cell entry, delaying its dissemination, or killing HIV-infected cells.

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Single-step purification of Proteus mirabilis urease accessory protein UreE, a protein with a naturally occurring histidine tail, by nickel chelate affinity chromatography

Sriwanthana

Island

Maneval

et al. 1994

J Bacteriol

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Proteus mirabilis urease, a nickel metalloenzyme, is essential for the virulence of this species in the urinary tract. Escherichia coli containing cloned structural genes ureA, ureB, and ureC and accessory genes ureD, ureE, ureF, and ureG displays urease activity when cultured in M9 minimal medium. To study the involvement of one of these accessory genes in the synthesis of active urease, deletion mutations were constructed. Cultures of a ureE deletion mutant did not produce an active urease in minimal medium. Urease activity, however, was partially restored by the addition of 5 ,uM NiCl2 to the medium. The predicted amino acid sequence of UreE, which concludes with seven histidine residues among the last eight C-terminal residues (His-His-His-His-Asp- Proteus mirabilis is not a common cause of urinary tract infection in the healthy host (31). This organism does, however, infect a high proportion of patients with complicated urinary tracts, that is, those with functional or structural abnormalities or with chronic catheterization (31, 34). In these patients, bladder and renal stone formation is a hallmark of infection with this species and is due to the expression of urease (5). The enzyme hydrolyzes urea to CO2 and NH3, often resulting in elevation of urinary pH (24). Alkalinization of the urine leads to precipitation of Ca2+, Mg2+, and other ions to form carbonate-apatite or struvite stones (5). Ureasenegative mutants, constructed by allelic exchange, are unable to form stones in transurethrally infected mice and are significantly less virulent than the urease-positive parent strains (12,13).Urease is one of only four classes of nickel metalloenzymes which also include hydrogenase, methyl coenzyme M reductase, and carbon monoxide dehydrogenase (8). These divalent cations are required for synthesis of catalytically active urease in bacteria and plants (8). It has been observed that the apourease, synthesized in the absence of nickel, is difficult to activate in vivo by the addition of nickel chloride when protein biosynthesis is inhibited (18,30). This suggests that insertion of nickel ions (Ni2+) into the metallocenter takes place primarily at the time of synthesis of the enzyme subunits, although there is some evidence to the contrary (1). Little is known, however,

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An HLA-Directed Molecular and Bioinformatics Approach Identifies New HLA-A11 HIV-1 Subtype E Cytotoxic T Lymphocyte Epitopes in HIV-1-Infected Thais

Bond

Sriwanthana²,

Hodge³

et al. 2001

AIDS Research and Human Retroviruses

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Only limited cytotoxic T lymphocyte (CTL) epitope mapping has been done in nonsubtype B HIV-infected persons. We used molecular immunogenetic tools to determine HIV-specific CTL responses in HIV-1 Env subtype E-infected female sex workers (FSWs) from northern Thailand, where more than 50% of the population is HLA-A11 positive. EpiMatrix, a computer-based T cell epitope prediction algorithm, and a manual editing approach were used to predict 77 possible HLA-A11 CTL epitopes in HIV-1, some of which were conserved between subtypes B and E. MHC binding of these peptides was determined in an HLA-A11 stabilization assay, and binding peptides were tested for CTL recognition in eight HLA-A11-positive FSWs. Subtype E versions of known HLA-A2 subtype B HIV epitopes were also tested in four HLA-A2 positive FSWs. CTL responses were detected in all HLA-A11-positive and in three of four HLA-A2-positive persons. Among the 12 FSWs responses to peptides were found to Pol in 9 (75%), Env in 7 (58%), Nef in 5 (42%), and Gag in 5 (42%), and to conserved epitopes in 8 (67%). To identify HLA-A11 CTL epitopes in the absence of prediction tools, it would have been necessary to test almost 3000 10-mer peptides. EpiMatrix and manual predictions reduced this number to 77, of which 26 were MHC binding and 12 were CTL epitopes. Six of these HLA-A11 CTL epitopes have not been previously reported and are located in RT, gp120, and gp41. This report of CTL responses in subtype E-infected individuals defines epitopes that may be useful in HIV pathogenesis or vaccine studies.

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Immunologic study of human encephalitic and paralytic rabies

Hemachudha¹,

Phanuphak²,

Sriwanthana³

et al. 1988

The American Journal of Medicine

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