Induction of disseminated Mycobacterium avium in simian AIDS is dependent upon simian immunodeficiency virus strain and defective granuloma formation.

[1]  Adrian V. S. Hill,et al.  Human CD8+ CTL Specific for the Mycobacterial Major Secreted Antigen 85A1 , 2000, The Journal of Immunology.

[2]  J. Sodroski,et al.  The Level of CD4 Expression Limits Infection of Primary Rhesus Monkey Macrophages by a T-Tropic Simian Immunodeficiency Virus and Macrophagetropic Human Immunodeficiency Viruses , 2000, Journal of Virology.

[3]  B. Zwilling,et al.  Regulation of Toll-Like Receptor 2 Expression by Macrophages Following Mycobacterium avium Infection1 , 2000, The Journal of Immunology.

[4]  R. Desrosiers,et al.  Mechanisms for Adaptation of Simian Immunodeficiency Virus to Replication in Alveolar Macrophages , 2000, Journal of Virology.

[5]  S. Itohara,et al.  Reduced Formation of Granulomata in γδ T Cell Knockout BALB/c Mice Inoculated with Mycobacterium avium subsp. paratuberculosis , 2000 .

[6]  C. Cheers,et al.  T lymphocytes from granulocyte colony‐stimulating factor–/– mice produce large quantities of interferon‐γ in a chronic infection model , 2000, Immunology.

[7]  R. Arbeit,et al.  A Macrophage Invasion Mechanism for Mycobacteria Implicating the Extracellular Domain of Cd43 , 2000, The Journal of experimental medicine.

[8]  Klaus Pfeffer,et al.  Lethal Granuloma Disintegration in Mycobacteria-Infected TNFRp55−/− Mice Is Dependent on T Cells and IL-121 , 2000, The Journal of Immunology.

[9]  K. Mansfield,et al.  Quantitative image analysis of simian immunodeficiency virus replication in macrophages coinfected with Mycobacterium avium complex. , 2000, The Journal of infectious diseases.

[10]  K. Mansfield,et al.  Identifying the Target Cell in Primary Simian Immunodeficiency Virus (SIV) Infection: Highly Activated Memory CD4+ T Cells Are Rapidly Eliminated in Early SIV Infection In Vivo , 2000, Journal of Virology.

[11]  S. Ehlers,et al.  Different types of pulmonary granuloma necrosis in immunocompetent vs. TNFRp55‐gene‐deficient mice aerogenically infected with highly virulent Mycobacterium avium , 1999, The Journal of pathology.

[12]  K. Pfeffer,et al.  Fatal Granuloma Necrosis without Exacerbated Mycobacterial Growth in Tumor Necrosis Factor Receptor p55 Gene-Deficient Mice Intravenously Infected with Mycobacterium avium , 1999, Infection and Immunity.

[13]  L. Bermudez,et al.  Host Defense against Mycobacterium aviumDoes Not Have an Absolute Requirement for Major Histocompatibility Complex Class I-Restricted T Cells , 1999, Infection and Immunity.

[14]  R. Desrosiers,et al.  Early Regeneration of Thymic Progenitors in Rhesus Macaques Infected with Simian Immunodeficiency Virus , 1998, The Journal of experimental medicine.

[15]  R P Johnson,et al.  Gastrointestinal tract as a major site of CD4+ T cell depletion and viral replication in SIV infection. , 1998, Science.

[16]  R. Means,et al.  Simian immunodeficiency virus variants with differential T-cell and macrophage tropism use CCR5 and an unidentified cofactor expressed in CEMx174 cells for efficient entry , 1997, Journal of virology.

[17]  S. Tzipori,et al.  Identification of an Enterocytozoon bieneusi-like microsporidian parasite in simian-immunodeficiency-virus-inoculated macaques with hepatobiliary disease. , 1997, The American journal of pathology.

[18]  K. Mansfield,et al.  Mycobacterium avium complex in macaques with AIDS is associated with a specific strain of simian immunodeficiency virus and prolonged survival after primary infection. , 1995, The Journal of infectious diseases.

[19]  P. Gros,et al.  Natural resistance to infection with intracellular parasites: molecular genetics identifies Nramp1 as the Bcg/Ity/Lsh locus , 1995, Journal of leukocyte biology.

[20]  S. Capitani,et al.  Recombinant human immunodeficiency virus type‐1 (HIV‐1) Tat protein sequentially up‐regulates IL‐6 and TFG‐β1 mRNA expression and protein synthesis in peripheral blood monocytes , 1994, British journal of haematology.

[21]  M. Denis Envelope glycoprotein (gp120) from HIV‐1 enhances Mycobacterium avium growth in human bronchoalveolar macrophages; an effect mediated by enhanced prostaglandin synthesis , 1994, Clinical and experimental immunology.

[22]  M. Denis,et al.  Interaction between Mycobacterium avium and human immunodeficiency virus type 1 (HIV-1) in bronchoalveolar macrophages of normal and HIV-1-infected subjects. , 1994, American journal of respiratory cell and molecular biology.

[23]  M. Denis Tat protein from HIV-1 binds to Mycobacterium avium via a bacterial integrin. Effects on extracellular and intracellular growth. , 1994, Journal of immunology.

[24]  N. Letvin,et al.  Use of human leukocyte-specific monoclonal antibodies for clinically immunophenotyping lymphocytes of rhesus monkeys. , 1994, Cytometry.

[25]  H. Shiratsuchi,et al.  Modulation of the effector function of human monocytes for Mycobacterium avium by human immunodeficiency virus-1 envelope glycoprotein gp120. , 1994, The Journal of clinical investigation.

[26]  M. G. Pittis,et al.  Impaired Phagolysosomal Fusion of Peripheral Blood Monocytes from HIV‐Infected Subjects , 1993, Scandinavian journal of immunology.

[27]  D. Malo,et al.  Natural resistance to infection with intracellular parasites: Isolation of a candidate for Bcg , 1993, Cell.

[28]  D. Malo,et al.  Natural resistance to infection with intracellular parasites: Isolation of a candidate for Bcg , 1993, Cell.

[29]  R. Desrosiers,et al.  Restricted replication of simian immunodeficiency virus strain 239 in macrophages is determined by env but is not due to restricted entry , 1993, Journal of virology.

[30]  M. Simon,et al.  An immunohistologic study of granulomatous inflammation in SIV‐infected rhesus monkeys , 1993, Journal of leukocyte biology.

[31]  J. Flynn,et al.  Major histocompatibility complex class I-restricted T cells are required for resistance to Mycobacterium tuberculosis infection. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[32]  U. Sharma,et al.  Human immunodeficiency virus type 1 enhances intracellular growth of Mycobacterium avium in human macrophages , 1992, Infection and immunity.

[33]  R. Desrosiers,et al.  Complex determinants of macrophage tropism in env of simian immunodeficiency virus , 1992, Journal of virology.

[34]  R. Desrosiers,et al.  Macrophage-tropic variants of SIV are associated with specific AIDS-related lesions but are not essential for the development of AIDS. , 1991, The American journal of pathology.

[35]  Horsburgh Cr Mycobacterium avium complex infection in the acquired immunodeficiency syndrome. , 1991, The New England journal of medicine.

[36]  R. Desrosiers,et al.  The complete nucleotide sequence of a pathogenic molecular clone of simian immunodeficiency virus. , 1990, AIDS research and human retroviruses.

[37]  N. Pedersen,et al.  Induction of AIDS in rhesus monkeys by molecularly cloned simian immunodeficiency virus. , 1990, Science.

[38]  M. Murphey-Corb,et al.  Necropsy Findings in Rhesus Monkeys Experimentally Infected with Cultured Simian Immunodeficiency Virus (SIV)/Delta , 1988, Veterinary pathology.

[39]  R. Desrosiers,et al.  Comparison of simian immunodeficiency virus isolates , 1988, Nature.

[40]  T. Drake,et al.  Rapid identification of Mycobacterium avium complex in culture using DNA probes , 1987, Journal of clinical microbiology.

[41]  R. Desrosiers,et al.  Induction of AIDS-like disease in macaque monkeys with T-cell tropic retrovirus STLV-III. , 1985, Science.

[42]  R. Desrosiers,et al.  Isolation of T-cell tropic HTLV-III-like retrovirus from macaques. , 1985, Science.

[43]  S. Itohara,et al.  Reduced formation of granulomata in gamma(delta) T cell knockout BALB/c mice inoculated with Mycobacterium avium subsp. paratuberculosis. , 2000, Veterinary pathology.

[44]  Malin,et al.  Human CD 8 1 CTL Specific for the Mycobacterial Major Secreted Antigen 85 A 1 , 2000 .

[45]  E. Halpern,et al.  Simian immunodeficiency virus encephalitis in rhesus macaques is associated with rapid disease progression. , 1998, Journal of neurovirology.

[46]  K. Mansfield,et al.  Simian immunodeficiency virus-inoculated macaques acquire Mycobacterium avium from potable water during AIDS. , 1997, The Journal of infectious diseases.

[47]  B. Andersen,et al.  Human immunodeficiency virus and Mycobacterium avium complex coinfection of monocytoid cells results in reciprocal enhancement of multiplication. , 1995, The Journal of infectious diseases.

[48]  Jacqueline K. White,et al.  Genomic Organization and Sequence of the Human NRAMP Gene: Identification and Mapping of a Promoter Region Polymorphism , 1995, Molecular medicine.

[49]  H. Leclerc [Mycobacterium avium complex]. , 1995, La Revue de medecine interne.

[50]  H. Shiratsuchi,et al.  Macrophages, mycobacteria and HIV: the role of cytokines in determining mycobacterial virulence and regulating viral replication. , 1992, Research in microbiology.

[51]  R. Kennedy,et al.  Synthetic peptides corresponding to sequences in HIV envelope gp41 and gp120 enhance in vitro production of interleukin-1 and tumor necrosis factor but depress production of interferon-alpha, interferon-gamma and interleukin-2. , 1991, Viral immunology.

[52]  C. Horsburgh Mycobacterium avium complex infection in the acquired immunodeficiency syndrome. , 1991, The New England journal of medicine.

[53]  W. Altemeier,et al.  Natural Resistance to Infection. , 1961, Progress in surgery.