Renate Kreutz scite author profile

Human immunodeficiency virus type 2 (HIV-2)-related viruses were isolated from a Gambian dying of exclusively neurological disease (HIV-2D194) and from an asymptomatic Ghanian (HIV-2D205). Both strains exhibited properties of HIV-1 biological subtype c: they grew slowly and induced few or no syncytia but eventually produced high levels of particle-associated reverse transcriptase in cultures of fresh peripheral blood lymphocytes, and they established stable infection of T-lymphoma (HUT-78) and monocytic (U937) cell lines. Each produced even higher levels of reverse transcriptase when fresh human monocytes/macrophages were used as target cells. The viruses were molecularly cloned after a single passage in culture, in order to minimize in vitro selection of subtypes present in vivo. Restriction-site analysis showed heterogeneity within each isolate. Nucleotide sequence analysis of a portion of the HIV-2D194 genome revealed that it is a member of the prototypic HIV-2 family, displaying 13% divergence versus HIV-2ROD and HIV-2NIHZ, as compared to 9% divergence between HIV-2ROD and HIV-2NIHZ. In contrast, HIV-2D205 is the most highly divergent HIV-2 strain yet described: it is equidistant in relation between the known HIV-2 strains and the simian immunodeficiency virus isolates from rhesus macaque monkeys (23-25% divergence).

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A highly divergent HIV-2-related isolate

Dietrich

Adamski

Kreutz

et al. 1989

Nature

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It has been suggested that the human immunodeficiency virus type 2 (HIV-2) and the simian immunodeficiency virus from rhesus macaques (SIVmac) evolved from the sooty mangabey virus SIVsm (ref. 1). We now describe an HIV-2-related isolate, HIV-2-D205, from a healthy Ghanaian woman that is genetically equidistant to the prototypic HIV-2 strains and to SIVsm and SIVmac. Supported by the observation that HIV-2D205 differs in a step of envelope glycoprotein processing, our data indicate that it could represent an alternative HIV-2 subtype and that viruses of the HIV-2/SIVsm/SIVmac group could have already infected humans before HIV-2 and SIVsm/SIVmac diverged.

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Analysis of the Envelope Region of the Highly Divergent HIV-2_ALTIsolate Extends the Known Range of Variability Within the Primate Immunodeficiency Viruses

Kreutz

Dietrich²,

Nieselt-Struwe

et al. 1992

AIDS Research and Human Retroviruses

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HIV-2ALT is a highly divergent HIV-2-related isolate that is genetically equidistant to the prototypic HIV-2 strains, defined by HIV-2ROD, and to the simian immunodeficiency viruses SIVmac and SIVsm. We have now cloned and sequenced the envelope region of HIV-2ALT, thus completing the analysis of the whole viral genome. The sequences of env and nef and of the second exons of tat and rev were compared with those of the other viruses of the HIV-2/SIVsm/SIVmac group. Despite of the high degree of variation of HIV-2ALT, functional domains of the genes are conserved. Although in env, the overall pattern of constant and variable domains is maintained, many single amino acid exchanges exist at positions previously thought to be constant in HIV-2 strains. In addition, when compared with a broader spectrum of immunodeficiency viruses, which includes SIVMND from mandrill and SIVAGM from African green monkey, HIV-2ALT Env has a high percentage of amino acid exchanges, which are unique to this strain. This underlines the separate branch of HIV-2ALT within the phylogenetic tree and makes obvious the inclusion of such divergent strains in preventive and therapeutic programs.

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Nucleotide sequence of HIV-2_D194;, an isolate from a Gambian case of ‘Neuro-AIDS’, which showed excellent growth in macrophages

Kreutz

Rübsamen‐Waigmann

1990

Nucl Acids Res

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Molecular cloning of two west African HIV2 isolates that replicate well in macrophages

Briesen

Dietrich

Meichsner

et al. 1990

Research in Virology

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Renate Kreutz

Molecular cloning of two west African human immunodeficiency virus type 2 isolates that replicate well in macrophages: a Gambian isolate, from a patient with neurologic acquired immunodeficiency syndrome, and a highly divergent Ghanian isolate.

A highly divergent HIV-2-related isolate

Analysis of the Envelope Region of the Highly Divergent HIV-2_ALTIsolate Extends the Known Range of Variability Within the Primate Immunodeficiency Viruses

Nucleotide sequence of HIV-2_D194;, an isolate from a Gambian case of ‘Neuro-AIDS’, which showed excellent growth in macrophages

Molecular cloning of two west African HIV2 isolates that replicate well in macrophages

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Renate Kreutz

Molecular cloning of two west African human immunodeficiency virus type 2 isolates that replicate well in macrophages: a Gambian isolate, from a patient with neurologic acquired immunodeficiency syndrome, and a highly divergent Ghanian isolate.

A highly divergent HIV-2-related isolate

Analysis of the Envelope Region of the Highly Divergent HIV-2ALTIsolate Extends the Known Range of Variability Within the Primate Immunodeficiency Viruses

Nucleotide sequence of HIV-2D194;, an isolate from a Gambian case of ‘Neuro-AIDS’, which showed excellent growth in macrophages

Molecular cloning of two west African HIV2 isolates that replicate well in macrophages

Contact Info

Product

Resources

About

Analysis of the Envelope Region of the Highly Divergent HIV-2_ALTIsolate Extends the Known Range of Variability Within the Primate Immunodeficiency Viruses

Nucleotide sequence of HIV-2_D194;, an isolate from a Gambian case of ‘Neuro-AIDS’, which showed excellent growth in macrophages