Citation: Pm. Roger et Le. Bermudez, Infection of mice with Mycobacterium avium primes CD8(+) lymphocytes for apoptosis upon exposure to macrophages, CLIN IMMUNO, 99(3), 2001, pp. 378-386
Citation: Le. Bermudez et Fj. Sangari, Cellular and molecular mechanisms of internalization of mycobacteria by host cells, MICROBES IN, 3(1), 2001, pp. 37-42
Authors:
Bermudez, LE
Inderlied, CB
Kolonoski, P
Wu, M
Aralar, P
Young, LS
Citation: Le. Bermudez et al., Telithromycin is active against Mycobacterium avium in mice despite lacking significant activity in standard in vitro and macrophage assays and is associated with low frequency of resistance during treatment, ANTIM AG CH, 45(8), 2001, pp. 2210-2214
Authors:
Bermudez, LE
Inderlied, CB
Kolonoski, P
Petrofsky, M
Aralar, P
Wu, M
Young, LS
Citation: Le. Bermudez et al., Activity of moxifloxacin by itself and in combination with ethambutol, rifabutin, and azithromycin in vitro and in vivo against Mycobacterium avium, ANTIM AG CH, 45(1), 2001, pp. 217-222
Authors:
Mukherjee, S
Petrofsky, M
Yaraei, K
Bermudez, LE
Cangelosi, GA
Citation: S. Mukherjee et al., The white morphotype of Mycobacterium avium-intracellulare is common in infected humans and virulent in infection models, J INFEC DIS, 184(11), 2001, pp. 1480-1484
Citation: Ja. Mcgarvey et Le. Bermudez, Phenotypic and genomic analyses of the Mycobacterium avium complex reveal differences in gastrointestinal invasion and genomic composition, INFEC IMMUN, 69(12), 2001, pp. 7242-7249
Citation: Fj. Sangari et al., Mycobacterium avium enters intestinal epithelial cells through the apical membrane, but not by the basolateral surface, activates small GTPase Rho and, once within epithelial cells, expresses an invasive phenotype, CELL MICROB, 2(6), 2000, pp. 561-568
Citation: Ae. Parker et Le. Bermudez, Sequence and characterization of the glyceraldehyde-3-phosphate dehydrogenase of Mycobacterium avium: correlation with an epidermal growth factor binding protein, MICROB PATH, 28(3), 2000, pp. 135-144
Citation: Ec. Miltner et Le. Bermudez, Mycobacterium avium grown in Acanthamoeba castellanii is protected from the effects of antimicrobials, ANTIM AG CH, 44(7), 2000, pp. 1990-1994
Authors:
Bermudez, LE
Nash, K
Petrofsky, M
Young, LS
Inderlied, CB
Citation: Le. Bermudez et al., Clarithromycin-resistant Mycobacterium avium is still susceptible to treatment with clarithromycin and is virulent in mice, ANTIM AG CH, 44(10), 2000, pp. 2619-2622
Citation: Fj. Sangari et al., Ultrastructural study of Mycobacterium avium infection of HT-29 human intestinal epithelial cells, J MED MICRO, 49(2), 2000, pp. 139-147
Authors:
Wu, HS
Kolonoski, P
Chang, YY
Bermudez, LE
Citation: Hs. Wu et al., Invasion of the brain and chronic central nervous system infection after systemic Mycobacterium avium complex infection in mice, INFEC IMMUN, 68(5), 2000, pp. 2979-2984
Authors:
Mohagheghpour, N
van Vollenhoven, A
Goodman, J
Bermudez, LE
Citation: N. Mohagheghpour et al., Interaction of Mycobacterium avium with human monocyte-derived dendritic cells, INFEC IMMUN, 68(10), 2000, pp. 5824-5829
Citation: M. Petrofsky et Le. Bermudez, Neutrophils from Mycobacterium avium-infected mice produce TNF-alpha, IL-12, and IL-1 beta and have a putative role in early host response, CLIN IMMUNO, 91(3), 1999, pp. 354-358