Mary Jo Burkhard scite author profile

The feline immunodeficiency virus (FIV) model provides a system to study lentivirus transmission, virus kinetics, pathogenesis, host responses, and immune dysfunction in a natural, out-bred host, under controlled conditions with specific-pathogen-free animals. The diversity of primary FIV strains can be exploited to mirror the range of disease manifestations associated with HIV infection. FIV is infectious via intravenous, intraperitoneal, intradermal, or subcutaneous injection as well as by atraumatic instillation onto the oral, vaginal, or rectal mucosa. Together, these features allow investigators to model specific aspects of HIV infection in a highly relevant and relatively inexpensive animal model. Well-developed areas of the FIV model include: (1) transmission of cell-associated as well as cell-free virus; (2) mucosal infectivity and immunopathogenesis; (3) vertical transmission; (4) acquired immunodeficiency including defects of the innate immune system; (5) thymic dysfunction; (6) neurotropism and neuropathogenesis; (7) host-virus interactions and the role of specific gene products; (8) efficacy of antiviral therapy; and (9) efficacy and immune correlates of experimental vaccines. This review will encompass areas specific to transmission and immunopathogenesis.

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Vertical Transmission of Feline Immunodeficiency Virus

O'Neil

Burkhard²,

Diehl³

et al. 1995

AIDS Research and Human Retroviruses

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We studied vertical transmission of feline immunodeficiency virus (FIV) to determine whether it might provide a model with which to study intervention strategies for mother-to-offspring transmission of human immunodeficiency virus (HIV). We found that pregnant cats acutely infected with FIV (FIV-CSU-2771) transmitted the virus to their offspring via both prenatal and postnatal routes. In utero transmission led to several pathogenic consequences including arrested fetal development, abortion, stillbirth, subnormal birth weights, and birth of viable, virus-infected, and asymptomatic but T cell-deficient kittens. Postnatal milk-borne FIV transmission was demonstrated by the presence of cell-free and cell-associated virus in colostrum and milk and through a foster-nursing experiment. The potential for intrapartum FIV transmission was documented by frequent virus isolation from vaginal wash cells in both the pre- and postpartum periods. FIV transmission was efficient during acute maternal infection, leading to an overall infection rate of 70%. We conclude that FIV vertical transmission may be a useful model with which to evaluate intervention strategies for HIV transmission from mother to child.

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Malignant Histiocytosis in a Domestic Cat: Cytomorphologic and Immunohistochemical Features

Walton

Brown

Burkhard

et al. 1997

Veterinary Clinical Pathol

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Malignant histiocytosis (MH) was diagnosed in a 13-year-old neutered male Domestic Shorthair cat on the basis of light microscopic and immunohistochemical findings. Thoracic fluid analysis showed a modified transudate which contained a very few atypical discrete cells. Cytologic and histologic evaluation of mediastinal and splenic masses revealed a pleomorphic population of large, discrete, round cells 10 to 30 micrometers in diameter with marked cellular atypia. Nuclei were oval to reniform, often with prominent, bizarre nucleoli. Multinucleated cells and mitotic figures were commonly seen. Erythro- and leucocytophagia were noted. Immunohistochemistry indicated a scattered positive staining pattern with the histiocytic antigenic marker Mac387 and a minor population of cells showing positive reactivity for lysozyme. This report describes the characterization of MH in a cat and emphasizes that MH should be considered as a differential diagnosis in proliferative disorders of discrete-cells in this species.

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A novel canine lymphoma cell line: A translational and comparative model for lymphoma research

et al. 2007

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Mucosal Transmission of Cell-Associated and Cell-Free Feline Immunodeficiency Virus

Burkhard

Obert²,

O'Neil³

et al. 1997

AIDS Research and Human Retroviruses

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Mucosal infection by feline immunodeficiency virus (FIV) was assessed via a single exposure of the vaginal or rectal mucosa to either infectious peripheral blood mononuclear cells (PBMCs), infectious plasma, or cell-free cultured virus. All cats inoculated with cell-free cultured virus (100 or 400 TCID) and 9 of 10 cats inoculated with infected PBMCs (2 x 10(7) or 2 x 10(5)) became persistently viremic within 3 weeks. Neither cat inoculated with 2 x 10(3) PBMCs became viremic. Rectal and vaginal exposure were equally effective routes to induce viremia. CD4+ T cells and mitogen-stimulated PBMC proliferation declined in all infected cats. However, a transient PBMC proliferative response to FIV p24gag occurred in most virus-exposed cats, especially those that did not develop detectable infection. FIV was not transmitted by mucosal exposure to infectious virus in plasma (100 TCID), a dose > 10-fold that needed for infection by parental injection. In vitro studies suggested that a plasma heat-stable virus-neutralizing factor may be associated with failure of plasma virus to establish infection via the mucosal route. Mucosal FIV infection provides a new model with which to study early stages of infection and intervention in transmucosal lentivirus infections.

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Mary Jo Burkhard

Transmission and Immunopathogenesis of FIV in Cats as a Model for HIV

Vertical Transmission of Feline Immunodeficiency Virus

Malignant Histiocytosis in a Domestic Cat: Cytomorphologic and Immunohistochemical Features

A novel canine lymphoma cell line: A translational and comparative model for lymphoma research

Mucosal Transmission of Cell-Associated and Cell-Free Feline Immunodeficiency Virus

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