Publications
Department of Medicine faculty members published more than 3,600 peer-reviewed articles in 2024.
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Leishmaniasis, caused by infection with the protozoan parasite Leishmania, affects millions of individuals worldwide, causing serious morbidity and mortality. This study directly determined the frequency of cells producing key immunoregulatory cytokines in response to the recombinant antigen Leishmania homolog of receptors for activated kinase C (LACK) and soluble leishmania antigen (SLA), and it determined relative contributions of these antigens to the overall cytokine profile in individuals infected for the first time with Leishmania braziliensis. All individuals presented with the cutaneous clinical form of leishmaniasis and were analyzed for proliferative responses to LACK antigen and SLA, frequency of lymphocyte subpopulations (analyzed ex vivo), and antigen-induced (LACK and SLA) cytokine production at the single-cell level (determined by flow cytometry). The following were determined. (i) The Th1-type response previously seen in patients with cutaneous leishmaniasis is due to gamma interferon (IFN-gamma) production by several different sources, listed in order of contribution: CD4(+) T lymphocytes, CD4(-), CD8(-) lymphocytes, and CD8(+) T lymphocytes. (ii) SLA induced a higher frequency of lymphocytes producing IFN-gamma and tumor necrosis factor alpha (TNF-alpha) than did LACK. (iii) LACK induced an activation of monocyte populations as reflected by an increased percentage of CD14-positive cells. (iv) Neither SLA nor LACK induced detectable frequencies of cells producing interleukin-4 (IL-4) or IL-5. These data demonstrated a multifaceted immune response to SLA in human leishmaniasis involving Th1 CD4(+) T lymphocytes (IFN-gamma(+) and IL-10(-)/IL-4(-)), Tc1 CD8(+) T cells (IFN-gamma(+), and IL-10(-)/IL-4(-)), and a high frequency of TNF-alpha-producing lymphocytes. Moreover, it was determined that the recombinant antigen LACK acts as a weak inducer of Th1-type lymphocyte responses compared to SLA.
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Field isolates of foot-and-mouth disease virus (FMDV) are believed to use RGD-dependent integrins as cellular receptors in vivo. Using SW480 cell transfectants, we have recently established that one such integrin, alpha(v)beta6, functions as a receptor for FMDV. This integrin was shown to function as a receptor for virus attachment. However, it was not known if the alpha(v)beta6 receptor itself participated in the events that follow virus binding to the host cell. In the present study, we investigated the effects of various deletion mutations in the beta6 cytoplasmic domain on infection. Our results show that although loss of the beta6 cytoplasmic domain has little effect on virus binding, this domain is essential for infection, indicating a critical role in postattachment events. The importance of endosomal acidification in alpha(v)beta6-mediated infection was confirmed by experiments showing that infection could be blocked by concanamycin A, a specific inhibitor of the vacuolar ATPase.
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Efficient alveolar epithelial repair is crucial for the restoration of the injured alveolar epithelial barrier in patients with acute lung injury (ALI) and the acute respiratory distress syndrome (ARDS). We hypothesized that pulmonary edema fluid from patients with ALI /ARDS would inhibit alveolar epithelial repair as measured in an in vitro epithelial wound-repair model using the human alveolar epithelial-like cell line A549. In contrast to our initial hypothesis, pulmonary edema fluid from patients with ALI/ARDS increased alveolar epithelial repair by 33 +/- 3% compared with pooled plasma from healthy donors (p < 0.01). By contrast, the plasma and the pulmonary edema fluid from patients with hydrostatic pulmonary edema, and the plasma from patients with ALI/ARDS had similar effects on epithelial repair as pooled plasma from healthy donors. Inhibition of interleukin-1beta (IL-1beta) activity by IL-1 receptor antagonist reduced alveolar epithelial repair induced by ALI/ARDS edema fluid by 46 +/- 4% (p < 0.001), indicating that IL-1beta contributed significantly to the increased epithelial repair. In summary, pulmonary edema fluid collected early in the course of ALI/ARDS increased alveolar epithelial repair in vitro by an IL-1beta-dependent mechanism. These data demonstrate a novel role for IL-1beta in patients with ALI/ARDS, indicating that IL-1beta may promote repair of the injured alveolar epithelium.
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The major human liver drug-metabolizing cytochrome P450 enzymes P450 3A4 and P450 3A5 share >85% amino acid sequence identity yet exhibit different regioselectivity toward aflatoxin B(1) (AFB(1)) biotransformation [Gillam et al. (1995) Arch. Biochem. Biophys. 317, 74-384]. P450 3A4 prefers AFB1 3alpha-hydroxylation, which detoxifies and subsequently eliminates the hepatotoxin, over AFB1 exo-8,9-oxidation. P450 3A5, on the other hand, is a relatively sluggish 3alpha-hydroxylase and converts AFB(1) predominantly to the genotoxic exo-8,9-epoxide. Using a combination of approaches (sequence alignment, homology modeling and site-directed mutagenesis), we have previously identified several divergent residues in four of the six putative substrate recognition sites (SRSs) of P450 3A4, which when replaced individually with the corresponding amino acid of P450 3A5, resulted in a significant switch of the characteristic P450 3A4 AFB(1) regioselectivity toward that of P450 3A5 [Wang et al. (1998) Biochemistry 37, 12536-12545]. In particular, residues N206 and L210 in SRS-2 were found to be critical for AFB(1) detoxification via 3alpha-hydroxylation, and the corresponding mutants N206S and L210F most closely mimicked P450 3A5, not only in its regioselectivity of AFB(1) metabolism but also in its overall functional capacity. We have now further explored the plausible reasons for such relative inactivity of the SRS-2 mutants by examining N206S and additional mutants (L210A, L211F, L211A, and N206E) and found that the dramatically lowered activities of the N206S mutant are accompanied by a loss of cooperativity of AFB(1) oxidation. Molecular dynamics analyses with an existing P450 3A4 homology model [Szklarz and Halpert (1997) J. Comput. Aided Mol. Des. 11, 265] suggested that N206 (helix F) interacts with E244 (helix G), creating a salt bridge that stabilizes the protein structure and/or defines the active site cavity. To examine this possibility, several E244 mutants (E244A, V, N, S) were tested, of which E244S was the most notable for its relatively greater impairment of P450 3A4-dependent AFB(1) 3alpha-hydroxylation. However, the results with these E244 mutants failed to validate the N206-E244 interaction predicted from these molecular dynamics analyses. Collectively, our findings to date have led us to reconsider our original interpretations and to reexamine them in the light of AFB(1) molecular modeling analyses with a newly refined P450 3A4 homology model. These analyses predicted that F304 in SRS-4 (I-helix) plays a pivotal role in AFB(1) binding at the active site in either orientation leading to 3alpha- or exo-8,9-oxidation. Consistent with this prediction, conversion of F304 to Ala abolished P450 3A4-dependent AFB(1) 3alpha-hydroxylation and exo-8,9-oxidation.
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