Annexin 2 Is Not Required for Human Immunodeficiency Virus Type 1 Particle Production but Plays a Cell Type-Dependent Role in Regulating Infectivity

During assembly and budding of retroviruses, host cell proteins are incorporated into viral particles. Identification of virion-associated proteins may help pinpoint key cellular components required for virus production and function. The cellular protein annexin 2 (Anx2) is incorporated into HIV-1 particles, and knockdown of Anx2 has been reported to cause defects in Gag processing and infectivity of HIV-1 particles in macrophages. Here, we tested whether Anx2 was required for HIV-1 production in other cell types capable of producing HIV-1 virions. Endogenous Anx2 levels were knocked down by ∼98% using lentivirus encoding short hairpin RNAs (shRNAs) or small interfering RNAs (siRNAs) targeting Anx2. Under these conditions, there was no reduction in HIV-1 virus-like particle (VLP) production in either COS-1, 293T, or Jurkat T cells or primary human monocyte-derived macrophages (MDMs). Murine embryonic fibroblasts derived from Anx2^−/− mice produced the same levels of VLPs as matched cells from wild-type mice. The calcium-mediated spike in VLP production still occurred in Anx2-depleted COS-1 cells, and there was no apparent alteration in the intracellular Gag localization. Overexpression of Anx2 in trans had no effect on Gag processing or VLP production. Neither Anx2 depletion nor Anx2 overexpression altered the infectivity of HIV-1 particles produced by COS-1 or 293T cells. However, supernatants containing virus from Anx2 siRNA-treated primary human MDMs exhibited decreased infectivity. These data indicate that Anx2 is not required for HIV-1 assembly or Gag processing but rather plays a cell type-dependent role in regulating production of infectious HIV-1 by macrophages.The Gag polyprotein generates the key structural proteins for all retroviruses. Gag is necessary and sufficient for the formation of virus-like particles (VLPs), which are morphologically similar to immature virions. Following its synthesis in the cytoplasm, HIV-1 Gag is trafficked to sites of particle production on membranes. Viral particle production depends on Gag-membrane interactions mediated by the myristoylated MA domain of Gag (18, 22, 31) and Gag-Gag interactions mediated by the CA and NC domains. Budding and release of the new virion are mediated by the Gag p6 domain. For successful particle production to occur, HIV-1 Gag must also interact with numerous host cell proteins and protein complexes. Identification of these interactions provides a crucial window into determining Gag trafficking intermediates as well as clues to the mechanism of virion production.The host cell protein annexin 2 (Anx2) has recently attracted attention for its potential to regulate key processes in both cells and viruses (9, 14, 17, 24). Anx2 belongs to a family of conserved calcium-regulated proteins and interacts with actin, membranes, and negatively charged phospholipids. The major protein binding partner for Anx2 is p11, also known as S100A10. Two populations of Anx2 have been identified: a heterotetrameric complex with two molecules of Anx2 and two molecules of p11 (found predominantly at the plasma membrane) and a monomeric form found mainly in the cytoplasm. Anx2 performs multiple functions in the cell, including regulation of actin-based dynamics, fibrinolysis, calcium-mediated exocytosis, and transport of intermediates from early to late endosomes (10, 14-16) Anx2 also enhances binding and fusion of cytomegalovirus with phospholipid membranes (21). In addition, Anx2 can be detected within influenza virus particles (28), where it has been shown to aid in virus replication (9).Several lines of evidence suggest that Anx2 may play a role in HIV-1 biogenesis. Both Anx2 and its binding partner p11 are incorporated in HIV-1 particles produced by macrophages (2). Anx2 interacts with Gag in macrophages, and annexin 2 knockdown has been reported to cause defective Gag processing and reduced infectivity of the released particles (24). Blockade of Anx2 function, with either anti-Anx2 antibody or small interfering RNA (siRNA)-mediated knockdown, results in suppression of HIV-1 infection in macrophages (11). Anx2 also binds to Gag in 293T cells, and expression of Anx2 in trans in these cells has been reported to lead to increased Gag processing and HIV-1 production (7). Taken together, these findings suggest that Anx2 might play a universal role in Gag trafficking and particle production. To test this hypothesis, we exploited methods to efficiently knock down Anx2 expression and determined the effect of Anx2 knockdown in a variety of cell lines capable of producing HIV-1 virions. Here we show that, in the absence of Anx2 expression, HIV-1 Gag is expressed, trafficked, and capable of mediating viral particle formation in a manner similar to that of control cells expressing Anx2. However, a cell type-dependent effect of Anx2 depletion on HIV-1 infectivity was detected in primary human monocyte-derived macrophages (MDMs). These findings suggest that Anx2 might be a macrophage-specific host cell factor that regulates HIV-1 infectivity.