Envelope surface glycoprotein gp120
|
env
|
Gelsolin overexpression impairs HIV-1 gp120-induced cortical F-actin reorganization and capping and gp120-mediated CD4-CCR5 and CD4-CXCR4 redistribution in permissive lymphocytes |
PubMed
|
|
env
|
The N-terminal leucine-rich repeat fragment of Slit2 inhibits HIV-1 gp120-induced actin polymerization in T cells |
PubMed
|
|
env
|
HIV-1 gp120-CXCR4 signaling triggers cofilin activation and actin reorganization, which are important for a post entry process leading to viral nuclear localization |
PubMed
|
|
env
|
Syntenin-1 is recruited toward HIV-1 gp120/gp41-driven virus/cell and cell/cell contacts, associates with CD4, limits HIV-1-induced cell fusion and viral entry, and modulates gp120/gp41-triggered actin polymerization and PIP2 accumulation |
PubMed
|
|
env
|
Inducible T-cell kinase (ITK) affects viral entry and gp120-induced actin reorganization |
PubMed
|
Envelope surface glycoprotein gp160, precursor
|
env
|
Treatment of cells with actin-depolymerizing agents or tubulin polymerization inhibitors largely reduces the percentage of cells with capped HIV-1 Gag and Env, indicating an intact actin and tubulin cytoskeleton is required for efficient assembly of HIV-1 |
PubMed
|
Envelope transmembrane glycoprotein gp41
|
env
|
Syntenin-1 is recruited toward HIV-1 gp120/gp41-driven virus/cell and cell/cell contacts, associates with CD4, limits HIV-1-induced cell fusion and viral entry, and modulates gp120/gp41-triggered actin polymerization and PIP2 accumulation |
PubMed
|
|
env
|
The interaction of the long cytoplasmic tail of HIV-1 gp41 with the carboxy-terminal regulatory domain of p115-RhoGEF inhibits p115-mediated actin stress fiber formation and activation of serum response factor (SRF) |
PubMed
|
Nef
|
nef
|
HIV-1 Nef inhibits CXCL12 induced chemotaxis in Jurkat cells, monocytes, and PBMCs, which leads to marked downregulation of F-actin accumulation in cells |
PubMed
|
|
nef
|
HIV-1 Nef induces loss of F-actin assembly and inhibits retinoid receptor-mediated transcription |
PubMed
|
|
nef
|
HIV-1 Nef requires a PAK2 recruitment motif (F195/191I) for inhibition of actin remodeling and induction of cofilin hyperphosphorylation |
PubMed
|
Pr55(Gag)
|
gag
|
Tec kinase chemical inhibitors diminish the recruitment of ITK to the plasma membrane perturbing HIV-1 Gag-ITK co-localization, disrupting F-actin polymerization, and inhibiting HIV-1 release and replication |
PubMed
|
|
gag
|
HIV-1 Gag, ITK, and F-actin are located in overlapping and discrete regions of T cell-T cell contact sites |
PubMed
|
|
gag
|
Treatment of cells with actin-depolymerizing agents or tubulin polymerization inhibitors largely reduces the percentage of cells with capped HIV-1 Gag and Env, indicating an intact actin and tubulin cytoskeleton is required for efficient assembly of HIV-1 |
PubMed
|
|
gag
|
HIV-1 Gag assembly and budding occur through an actin-driven mechanism |
PubMed
|
Tat
|
tat
|
Treatment with cannabinoids inhibits HIV-1 Tat-enhanced attachment of U937 cells to collagen IV, laminin, or ECM1 proteins, which is linked to the cannabinoid receptor type 2 and the modulation of beta1-integrin and actin distribution |
PubMed
|
|
tat
|
Treatment of primary hippocampal neurons with HIV-1 Tat produces a significant early reduction in F-actin labeled puncta. The cysteine rich domain (residues 22-37) of Tat is required for Tat-mediated reduction of F-actin labeled puncta |
PubMed
|
|
tat
|
Uptake of the HIV-1 Tat protein is regulated by arrangement of the actin cytoskeleton in epithelial cells |
PubMed
|
|
tat
|
In Jurkat cells expressing HIV-1 Tat, decreased expression levels are found for basic cytoskeletal proteins such as actin, beta-tubulin, annexin, cofilin, gelsolin, and Rac/Rho-GDI complex |
PubMed
|
|
tat
|
HIV-1 Tat induces actin cytoskeletal rearrangements through p21-activated kinase 1 (PAK1) and downstream activation of the endothelial NADPH oxidase, an effect that is lost by introduction of mutations into the Tat cysteine-rich or basic domains |
PubMed
|
matrix
|
gag
|
The localization of the HIV-1 reverse transcription complex to actin microfilaments is mediated by the interaction of a reverse transcription complex component (HIV-1 Matrix) with actin, but not vimentin (intermediate filaments) or tubulin (microtubules) |
PubMed
|
nucleocapsid
|
gag
|
HIV-1 NC-like aggregates are associated with dsDNA synthesis by HIV-1 RT and appear to efficiently bind to F-actin filaments, a property that may be involved in targeting complexes to the nuclear envelope |
PubMed
|
|
gag
|
Mature HIV-1 Nucleocapsid, as well as the nucleocapsid domain of the HIV-1 Gag polyprotein, binds filamentous actin resulting in incorporation of actin into virus particles and enhancement of cell motility |
PubMed
|
retropepsin
|
gag-pol
|
Actin, one of the most abundant proteins of the cell, is hydrolyzed by the human immunodeficiency virus type 1 (HIV-1) protease during acute infection of cultured human T lymphocytes |
PubMed
|
|
gag-pol
|
HIV-1 protease cleaves actin in vitro at amino acid residues 66-67, 94-95, and 126-127 |
PubMed
|
reverse transcriptase
|
gag-pol
|
HIV-1 NC-like aggregates are associated with dsDNA synthesis by HIV-1 RT and appear to efficiently bind to F-actin filaments, a property that may be involved in targeting complexes to the nuclear envelope |
PubMed
|
|
gag-pol
|
The localization of the HIV-1 reverse transcription complex to actin microfilaments is mediated by the interaction of a reverse transcription complex component (HIV-1 Matrix) with actin, but not vimentin (intermediate filaments) or tubulin (microtubules) |
PubMed
|