Maintenance of syncytium-inducing phenotype of HIV type 1 is associated with positively charged residues in the HIV type 1 gp120 V2 domain without fixed positions, elongation, or relocated N-linked glycosylation sites

M. Cornelissen; E. Hogervorst; F. Zorgdrager; S. Hartman; J. Goudsmit

doi:https://doi.org/10.1089/aid.1995.11.1169

Maintenance of syncytium-inducing phenotype of HIV type 1 is associated with positively charged residues in the HIV type 1 gp120 V2 domain without fixed positions, elongation, or relocated N-linked glycosylation sites

M. Cornelissen, E. Hogervorst, F. Zorgdrager, S. Hartman, J. Goudsmit

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Research output: Contribution to journal › Article › Academic › peer-review

30 Citations (Scopus)

Abstract

The prevalence of HIV-1 sequences of the envelope domains V1V2 and V3 was analyzed by RT-PCR amplification. Two distinct biological phenotypes of HIV-1 have been described: the nonsyncytium-inducing (NSI) phenotype, best characterized by the inability to infect MT-2 cells, and the syncytium-inducing phenotype (SI), with the ability to infect MT-2 cells. Viral phenotype SI has been associated with HIV pathogenesis. The presence of positively charged amino acids at position 306 and 320 in the V3 domain of gp120 has been shown to be required for the support of the SI phenotype. In addition, V2 elongation and relocation of N-glycosylation sites were postulated to herald an NSI to SI phenotype switch. The present study was designed to assess the stability of an elongated V2 region with relocated N-glycosylation sites observed in SI isolates compared to NSI isolates. Eleven isolates with the SI phenotype and 19 isolates with the NSI phenotype were included in the study. Nine of the SI and 1 of the NSI isolates had a positively charged residue at position 306 or 320 (p < 0.001) in the V3 domain as assessed by direct sequencing of the viral RNA. In contrast, elongation and/or relocation of N-glycosylation sites of the V2 variable region were not found to be a consistent genetic feature of the SI phenotype. However, SI isolates had more positively charged amino acid residues in the hypervariable V2 region compared with NSI isolates. In one of the two SI isolates lacking positively charged amino acids at positions 306 or 320 in the V3 loop an elongation of 26 amino acids with 4 additional N-linked glycosylation sites was observed in the V2 region. This is consistent with the theory that elongation of V2 may be transiently required for SI conversion. These results suggest that maintenance of the SI phenotype requires positively charged amino acids in V3 in the majority of the virus population, but not an elongated V2 region with added or relocated N-linked glycosylation sites. Although increased charged residues in the V2 region may contribute

Original language	English
Pages (from-to)	1169-1175
Journal	AIDS Research and Human Retroviruses
Volume	11
Issue number	10
DOIs	https://doi.org/10.1089/aid.1995.11.1169
Publication status	Published - 1995

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https://doi.org/10.1089/aid.1995.11.1169

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Cornelissen, M., Hogervorst, E., Zorgdrager, F., Hartman, S., & Goudsmit, J. (1995). Maintenance of syncytium-inducing phenotype of HIV type 1 is associated with positively charged residues in the HIV type 1 gp120 V2 domain without fixed positions, elongation, or relocated N-linked glycosylation sites. AIDS Research and Human Retroviruses, 11(10), 1169-1175. https://doi.org/10.1089/aid.1995.11.1169

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title = "Maintenance of syncytium-inducing phenotype of HIV type 1 is associated with positively charged residues in the HIV type 1 gp120 V2 domain without fixed positions, elongation, or relocated N-linked glycosylation sites",

abstract = "The prevalence of HIV-1 sequences of the envelope domains V1V2 and V3 was analyzed by RT-PCR amplification. Two distinct biological phenotypes of HIV-1 have been described: the nonsyncytium-inducing (NSI) phenotype, best characterized by the inability to infect MT-2 cells, and the syncytium-inducing phenotype (SI), with the ability to infect MT-2 cells. Viral phenotype SI has been associated with HIV pathogenesis. The presence of positively charged amino acids at position 306 and 320 in the V3 domain of gp120 has been shown to be required for the support of the SI phenotype. In addition, V2 elongation and relocation of N-glycosylation sites were postulated to herald an NSI to SI phenotype switch. The present study was designed to assess the stability of an elongated V2 region with relocated N-glycosylation sites observed in SI isolates compared to NSI isolates. Eleven isolates with the SI phenotype and 19 isolates with the NSI phenotype were included in the study. Nine of the SI and 1 of the NSI isolates had a positively charged residue at position 306 or 320 (p < 0.001) in the V3 domain as assessed by direct sequencing of the viral RNA. In contrast, elongation and/or relocation of N-glycosylation sites of the V2 variable region were not found to be a consistent genetic feature of the SI phenotype. However, SI isolates had more positively charged amino acid residues in the hypervariable V2 region compared with NSI isolates. In one of the two SI isolates lacking positively charged amino acids at positions 306 or 320 in the V3 loop an elongation of 26 amino acids with 4 additional N-linked glycosylation sites was observed in the V2 region. This is consistent with the theory that elongation of V2 may be transiently required for SI conversion. These results suggest that maintenance of the SI phenotype requires positively charged amino acids in V3 in the majority of the virus population, but not an elongated V2 region with added or relocated N-linked glycosylation sites. Although increased charged residues in the V2 region may contribute",

author = "M. Cornelissen and E. Hogervorst and F. Zorgdrager and S. Hartman and J. Goudsmit",

year = "1995",

doi = "https://doi.org/10.1089/aid.1995.11.1169",

language = "English",

volume = "11",

pages = "1169--1175",

journal = "AIDS Research and Human Retroviruses",

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Cornelissen, M, Hogervorst, E, Zorgdrager, F, Hartman, S & Goudsmit, J 1995, 'Maintenance of syncytium-inducing phenotype of HIV type 1 is associated with positively charged residues in the HIV type 1 gp120 V2 domain without fixed positions, elongation, or relocated N-linked glycosylation sites', AIDS Research and Human Retroviruses, vol. 11, no. 10, pp. 1169-1175. https://doi.org/10.1089/aid.1995.11.1169

Maintenance of syncytium-inducing phenotype of HIV type 1 is associated with positively charged residues in the HIV type 1 gp120 V2 domain without fixed positions, elongation, or relocated N-linked glycosylation sites. / Cornelissen, M.; Hogervorst, E.; Zorgdrager, F. et al.
In: AIDS Research and Human Retroviruses, Vol. 11, No. 10, 1995, p. 1169-1175.

Research output: Contribution to journal › Article › Academic › peer-review

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T1 - Maintenance of syncytium-inducing phenotype of HIV type 1 is associated with positively charged residues in the HIV type 1 gp120 V2 domain without fixed positions, elongation, or relocated N-linked glycosylation sites

AU - Cornelissen, M.

AU - Hogervorst, E.

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AU - Goudsmit, J.

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N2 - The prevalence of HIV-1 sequences of the envelope domains V1V2 and V3 was analyzed by RT-PCR amplification. Two distinct biological phenotypes of HIV-1 have been described: the nonsyncytium-inducing (NSI) phenotype, best characterized by the inability to infect MT-2 cells, and the syncytium-inducing phenotype (SI), with the ability to infect MT-2 cells. Viral phenotype SI has been associated with HIV pathogenesis. The presence of positively charged amino acids at position 306 and 320 in the V3 domain of gp120 has been shown to be required for the support of the SI phenotype. In addition, V2 elongation and relocation of N-glycosylation sites were postulated to herald an NSI to SI phenotype switch. The present study was designed to assess the stability of an elongated V2 region with relocated N-glycosylation sites observed in SI isolates compared to NSI isolates. Eleven isolates with the SI phenotype and 19 isolates with the NSI phenotype were included in the study. Nine of the SI and 1 of the NSI isolates had a positively charged residue at position 306 or 320 (p < 0.001) in the V3 domain as assessed by direct sequencing of the viral RNA. In contrast, elongation and/or relocation of N-glycosylation sites of the V2 variable region were not found to be a consistent genetic feature of the SI phenotype. However, SI isolates had more positively charged amino acid residues in the hypervariable V2 region compared with NSI isolates. In one of the two SI isolates lacking positively charged amino acids at positions 306 or 320 in the V3 loop an elongation of 26 amino acids with 4 additional N-linked glycosylation sites was observed in the V2 region. This is consistent with the theory that elongation of V2 may be transiently required for SI conversion. These results suggest that maintenance of the SI phenotype requires positively charged amino acids in V3 in the majority of the virus population, but not an elongated V2 region with added or relocated N-linked glycosylation sites. Although increased charged residues in the V2 region may contribute

AB - The prevalence of HIV-1 sequences of the envelope domains V1V2 and V3 was analyzed by RT-PCR amplification. Two distinct biological phenotypes of HIV-1 have been described: the nonsyncytium-inducing (NSI) phenotype, best characterized by the inability to infect MT-2 cells, and the syncytium-inducing phenotype (SI), with the ability to infect MT-2 cells. Viral phenotype SI has been associated with HIV pathogenesis. The presence of positively charged amino acids at position 306 and 320 in the V3 domain of gp120 has been shown to be required for the support of the SI phenotype. In addition, V2 elongation and relocation of N-glycosylation sites were postulated to herald an NSI to SI phenotype switch. The present study was designed to assess the stability of an elongated V2 region with relocated N-glycosylation sites observed in SI isolates compared to NSI isolates. Eleven isolates with the SI phenotype and 19 isolates with the NSI phenotype were included in the study. Nine of the SI and 1 of the NSI isolates had a positively charged residue at position 306 or 320 (p < 0.001) in the V3 domain as assessed by direct sequencing of the viral RNA. In contrast, elongation and/or relocation of N-glycosylation sites of the V2 variable region were not found to be a consistent genetic feature of the SI phenotype. However, SI isolates had more positively charged amino acid residues in the hypervariable V2 region compared with NSI isolates. In one of the two SI isolates lacking positively charged amino acids at positions 306 or 320 in the V3 loop an elongation of 26 amino acids with 4 additional N-linked glycosylation sites was observed in the V2 region. This is consistent with the theory that elongation of V2 may be transiently required for SI conversion. These results suggest that maintenance of the SI phenotype requires positively charged amino acids in V3 in the majority of the virus population, but not an elongated V2 region with added or relocated N-linked glycosylation sites. Although increased charged residues in the V2 region may contribute

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DO - https://doi.org/10.1089/aid.1995.11.1169

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Cornelissen M, Hogervorst E, Zorgdrager F, Hartman S, Goudsmit J. Maintenance of syncytium-inducing phenotype of HIV type 1 is associated with positively charged residues in the HIV type 1 gp120 V2 domain without fixed positions, elongation, or relocated N-linked glycosylation sites. AIDS Research and Human Retroviruses. 1995;11(10):1169-1175. doi: https://doi.org/10.1089/aid.1995.11.1169