Human microglial cells: Characterization in cerebral tissue and in primary culture, and study of their susceptibility to HIV‐1 infection

Peudenier, Sylviane; Héry, Christiane; Montagnier, Luc; Tardieu, Marc

doi:10.1002/ana.410290207

Cited by 147 publications

(69 citation statements)

References 32 publications

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“…The tissue specificities and expression patterns of the human CD11b and CD68 antigens, as well as the murine F4/80, have been analyzed in different types of myeloid cells, and each has been identified as a specific marker of particular myeloid lineages including, to varying degrees, microglia. [25][26][27][28] The regulatory as well as coding sequences of each gene have also been cloned. [28][29][30] The first candidate, CD11b, the a subunit of the CD11b/CD18 integrin adhesion molecule, is not present on the surfaces of immature myeloid precursors, but expression increases during early cell differentiation and is subsequently restricted to mature monocytes, macrophages, neutrophils, natural killer cells, and microglia.…”

Section: Vector Design and Constructionmentioning

confidence: 99%

“…I3265) for 48 h at 371C 3 days following rAAV transduction. 27 Rat primary neuronal cultures were prepared from embryonic day 17-18 rat striatum as previously described 53 and maintained in DMEM/F-12, with 1 Â B27 supplement (Gibco BRL Life Technologies), pen-strep at 371C under 5% CO 2 . Cells (2 Â 10 6 ) were grown in 12-well plates on microcoverglasses (VWR Scientific Products, West Chester, PA, USA; cat.…”

Section: Cellsmentioning

confidence: 99%

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Selective gene expression in brain microglia mediated via adeno-associated virus type 2 and type 5 vectors

et al. 2003

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Microglia represent a crucial cell population in the central nervous system, participating in the regulation and surveillance of physiological processes as well as playing key roles in the etiologies of several major brain disorders. The ability to target gene transfer vehicles selectively to microglia would provide a powerful new approach to investigations of mechanisms regulating brain pathologies, as well as enable the development of novel therapeutic strategies. In this study, we evaluate the feasibility of specifically and efficiently targeting microglia relative to other brain cells, using vectors based on two different serotypes of adeno-associated virus (AAV) carrying cell-type-specific transcriptional elements to regulate gene expression. Among a set of promoter choices examined, an element derived from the gene for the murine macrophage marker F4/80 was the most discriminating for microglia. Gene expression from vectors controlled by this element was highly selective for microglia, both in vitro and in vivo. To our knowledge, this is the first demonstration of selective expression of transferred genes in microglia using AAV-derived vectors, as well as the first utilization of recombinant AAV-5 vectors in any macrophage lineage. These results provide strong encouragement for the application of these vectors and this approach for delivering therapeutic and other genes selectively to microglia.

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Section: Vector Design and Constructionmentioning

confidence: 99%

Section: Cellsmentioning

confidence: 99%

Selective gene expression in brain microglia mediated via adeno-associated virus type 2 and type 5 vectors

et al. 2003

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“…Similarly to macrophages from other tissues (39,41), they express low levels of CD4 (13,29,57,85), as well as CCR5 and CXCR4 (44). Since viruses isolated from the brain are macrophage tropic and use mainly CCR5 (1,26,71), it is likely that viral tropism for microglia and macrophages is determined by similar mechanisms (3,49,59).…”

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confidence: 99%

Interaction with CD4 and Antibodies to CD4-Induced Epitopes of the Envelope gp120 from a Microglial Cell-Adapted Human Immunodeficiency Virus Type 1 Isolate

Martín-García¹,

Simon²,

Chaiken³

et al. 2005

J Virol

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We previously showed that the envelope glycoprotein from an in vitro microglia-adapted human immunodeficiency virus type 1 isolate (HIV-1 ) is able to use lower levels of CD4 for infection and demonstrates greater exposure of the CD4-induced epitope recognized by the 17b monoclonal antibody than the envelope of its parental, peripheral isolate (HIV-1 Bori ). We investigated whether these phenotypic changes were related to a different interaction of their soluble monomeric gp120 proteins with CD4 or 17b. Equilibrium binding analyses showed no difference between Bori and Bori-15 gp120s. However, kinetic analysis of surface plasmon resonance-based, real-time binding experiments showed that while both proteins have similar association rates, Bori-15 gp120 has a statistically significant, 3-fold-lower dissociation rate from immobilized CD4 than Bori and a statistically significant, 14-fold-lower dissociation rate from 17b than Bori in the absence of soluble CD4. In addition, using the sensitivity to inhibition by anti-CD4 antibodies as a surrogate for CD4:trimeric envelope interaction, we found that Bori-15 envelope-pseudotyped viruses were significantly less sensitive than Bori pseudotypes, with four-to sixfold-higher 50% inhibitory concentration values for the three anti-CD4 antibodies tested. These differences, though small, suggest that adaptation to microglia correlates with the generation of a gp120 that forms a more stable interaction with CD4. Nonetheless, the observation of limited binding changes leaves open the possibility that HIV-1 adaptation to microglia and HIV-associated dementia may be related not only to diminished CD4 dependence but also to changes in other molecular factors involved in the infection process.

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“…8oth resistance and susceptibility of microglial cells to infection with HIV has been reported recently from in vitro studies. Attempts to infect microglial cells from human embryonie brain and spinal cord with 1wo differ-· ent strains of HIV-1 were without success (Peudenier et a/., 1991 ). No apparent CPE, p24.…”

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confidence: 99%

In Vitro and in Vivo Infection of Rhesus Monkey Microglial Cells by Simian Immunodeficiency Virus

et al. 1993

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The observation that microglial cells in brain tissue are probably a major target for human immunodeficiency virus (HIV) infection has raised interest in the pathogenic role of this cell population for the development of neuro-AIOS.Since it is very difficult to obtain microglia from normal or diseased human brain we studied microglial cells isolated from fresh brain tissue of uninfected and simian immunodeficiency virus (SIV) infected rhesus monkeys (Macacca mulatta) in comparison to peripheral blood macrophages. Besides the characterization of the phenotypes of these two cell populations, we examined the replication of SIV in the cells in addition to the effect of viral infection on the expression of cell surface molecules. We found that microglia and macrophages support replication of the wild-type S1Vmac 25 , strain as weil as the infectious clone (SIV 239 ). lnfectious viruswas produced and a CPE developed. lsolated microglial cells from SIV-infected monkeys were latently infected independent of the presence of neuropathological lesions and produced infectious virus after 20-25 days in culture. ln situ hybridization revealed that only a small percentage of isolated microglial cells are productively infected in vivo, yet the majority of these expressed MHC class II molecules. This indicated a state of activation that is acquired in vivo. These findings indicate that microglia are a prime target cell for SIV infection in CNS tissue.

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Human microglial cells: Characterization in cerebral tissue and in primary culture, and study of their susceptibility to HIV‐1 infection

Cited by 147 publications

References 32 publications

Selective gene expression in brain microglia mediated via adeno-associated virus type 2 and type 5 vectors

Selective gene expression in brain microglia mediated via adeno-associated virus type 2 and type 5 vectors

Interaction with CD4 and Antibodies to CD4-Induced Epitopes of the Envelope gp120 from a Microglial Cell-Adapted Human Immunodeficiency Virus Type 1 Isolate

In Vitro and in Vivo Infection of Rhesus Monkey Microglial Cells by Simian Immunodeficiency Virus

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