N. A. Dorfman scite author profile

Patients infected with HIV-1 experience several hyperproliferative skin disorders, including seborrheic dermatitis, ichthyosis, and psoriasis. Transgenic mice carrying a subgenomic HIV-1 proviral construct lacking the gag and pol genes were found to develop proliferative epidermal lesions, manifested as diffuse epidermal hyperplasia in homozygous transgenic mice and benign papillomas in heterozygous transgenic mice. Nonpapillomatous skin from both homozygotes and heterozygotes expressed viral RNA, and the viral envelope protein gp120 was localized to the suprabasal keratinocyte. Papillomas contained increased amounts of both viral mRNA and envelope glycoprotein. Exposure of transgenic mice to doses of ultraviolet B (UV-B) irradiation that induced cutaneous injury increased viral gene expression and resulted in the development of papillomas within 14-21 days. Cutaneous injury induced by phenol and liquid nitrogen had similar effects. These data support a role for HIV-1 gene products in the pathogenesis of proliferative epidermal disorders associated with HIV-1 infection. Further, they suggest that the process of wound repair increases HIV-1 gene expression in this transgenic mouse model.

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Active cell edge and movements of concanavalin A receptors of the surface of epithelial and fibroblastic cells.

Vasiliev¹,

Gelfand²,

Dominina³

et al. 1976

Proc. Natl. Acad. Sci. U.S.A.

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Movements of the receptors of concanavalin A on various parts of the surfaces of substrate-attached cells were compared. Cultured mouse embryo cells of several types were used: epithelial kidney cells and normal and transformed fibroblasts. Initial distribution of receptors was random on the cells of all types. Binding of concanavalin A induced patching of its receptors on all the cell parts. In contrast, directional centripetal movement of receptors was observed only on the surface of certain cell parts, namely, only the surface of peripheral lamellar cytoplasm was cleared of the receptors.Clearing was always initiated in the zone of lamellar cytoplasm located near active cell edges. In epithelial sheets, clearing was not observed on the surface of central cells that had no lamellar cytoplasm. Concanavalin A receptors on the cleared areas of cell surface were gradually restored after the end of incubation. It is suggested that anchoring of the patches of membrane receptors by cortical microfilaments is possible only on the surface of pseudopods and of lamellar cytoplasm but not on the surface of other cell parts. Besides receptor movements, this hypothesis may also explain differences in the adhesive properties of various parts ol the cell surface.The external edge of substrate-spread cultured cells is usually divided into discrete zones of two types: active zones that continuously protrude pseudopods and stable zones that do not form pseudopods. Specialized peripheral structure, lamellar cytoplasm or lamelloplasm, is formed in association with active cell edges (1,2). Distinctive characteristics of lamellar cytoplasm, as opposed to the more central endoplasm, are as follows: (a) lamelloplasm is delimited by an active edge; the entire external edge of lamelloplasm is not active, but usually all the active zones of the edge delimit lamelloplasm; stable zones may delimit either lamelloplasm or endoplasm. (b) Lamelloplasm contains no vesicular organelles visible by phase contrast microscopy. (c) The lower surface of lamelloplasm has numerous sites of attachment to the substrate. (d) The upper surface of the zone near active edges, and, possibly, of the whole lamelloplasm, is adhesive for inert particles (3, 4). Defective formation of lamellar cytoplasm is a characteristic feature of transformed fibroblasts (1, 2).In this paper we compare the movements of concanavalin A (Con A) receptors on the surface of lamelloplasm with those on the other cell parts. Con A and other ligands crosslinking surface receptors induce redistribution of these receptors (5-10). Results obtained with substrate-attached fibroblasts indicate that patches of the receptors may move centripetally from the active cell edges (7-9). Our purpose was to compare receptor movements on the cells in two states: with lamelloplasm and without it. Epithelial cells are especially convenient for such comparison: these cells grow as coherent sheets in which lamelloplasm and active cell edges are formed only by marginal cells but not by the central ce...

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Molecular Mimicry Accompanying HIV-1 Infection: Human Monoclonal Antibodies That Bind to gp41 and to Astrocytes

Eddleston¹,

Torre²,

Xu³

et al. 1993

AIDS Research and Human Retroviruses

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Monoclonal antibodies that bound to HIV gp41 and cross-reacted with astrocytes were recovered from the blood of three patients infected with HIV-1. Mapping of the specificity of these monoclonal antibodies, using synthetic gp41 peptides, located their epitope to amino acids 644-663 and established their conformation dependence. Six other human monoclonal anti-HIV antibodies were found to bind to HIV gp41 or gp120 but not to reactive astrocytes in brain tissue. Sharing of linear or conformational protein determinants between disparate viral and host proteins is termed molecular mimicry. The consequences of such mimicry by anti-viral antibodies interacting with astrocytes may play a role in the dementia of AIDS patients since a major function of astrocytes is to maintain the appropriate milieu for neuronal function. The finding of such cross-reactive antibodies adds to the evidence for a possible autoimmune pathogenesis in some of the disease manifestations accompanying HIV infection.

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Two-Phase Approach for the Expression of High-Affinity Human Anti-Human Immunodeficiency Virus Immunoglobulin Fab Domains inEscherichia coli

Takeda¹,

Dorfman²,

Robert-Guroff³

et al. 1995

Hybridoma

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We describe here a two-phase approach for the development of high-affinity human anti-HIV immunoglobulin Fab domains in a bacterial expression system. The first phase of this technique involves the generation of human hybridoma cell lines producing high-affinity antibodies (MAbs). Anti-HIV-1 human MAbs from peripheral blood lymphocytes (PBLs) were prepared from an HIV-1-seropositive patient and from an HIV-1-seronegative volunteer immunized with HIV-1 rgp160. One MAb (T15G1), derived from the blood of the seropositive donor, was specific for HIV-1 gp41, recognized gp41 on the surface of HIV-1-infected cells and bound this antigen with an apparent dissociation constant of 4 x 10(-10) M. A second MAb (M7B5), developed from the immunized volunteer, was specific for HIV-1 gp120 with a dissociation constant on the order of 8 x 10(-10) M, but was unable to recognize cell surface antigen. In the second phase of this technique the Fab domains of these two MAbs were molecularly cloned into a bacterial expression vector. mRNA was isolated from the M7B5 and T15G1 hybridoma cell lines and used as a template for the production of cDNA. The cDNA was amplified using the polymerase chain reaction (PCR) technique, and then fused, in frame, into a bacterial expression vector. The recombinant Fabs (rFabM7B5 and rFabT15G1) were expressed as dicistronic messages in bacteria using the IPTG-inducible lactose promoter (LacZ). DNA sequencing was used to define the gamma chain isotypes and the VH and VL chain gene usage. The binding specificities of rFabM7B5 and rFabT15G1 were indistinguishable from their respective intact MAbs.(ABSTRACT TRUNCATED AT 250 WORDS)

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Development of Human Monoclonal Antibodies to Rabies

Dorfman

Dietzschold²,

Kajiyama³

et al. 1994

Hybridoma

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A total of nine human monoclonal antibodies (MAbs) to rabies virus were generated from peripheral B lymphocytes of subjects immunized with human diploid cell rabies vaccine by somatic cell hybridization. The MAbs were analyzed for their antigen-binding specificities using ELISA, Western blot, and immunoprecipitation assays. The different assays made it possible to identify MAbs directed to the surface glycoprotein, nucleoprotein, nominal phosphoprotein, and matrix protein. One of the MAbs that recognized the surface glycoprotein neutralized rabies virus.

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N. A. Dorfman

Cutaneous Disorders and Viral Gene Expression in HIV-1 Transgenic Mice

Active cell edge and movements of concanavalin A receptors of the surface of epithelial and fibroblastic cells.

Molecular Mimicry Accompanying HIV-1 Infection: Human Monoclonal Antibodies That Bind to gp41 and to Astrocytes

Two-Phase Approach for the Expression of High-Affinity Human Anti-Human Immunodeficiency Virus Immunoglobulin Fab Domains inEscherichia coli

Development of Human Monoclonal Antibodies to Rabies

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