Human parechovirus 1 utilizes integrins alphavbeta3 and alphavbeta1 as receptors

Human parechovirus 1 (HPEV1) displays an arginine-glycine-aspartic acid (RGD) motif in the VP1 capsid protein, suggesting integrins as candidate receptors for HPEV1. A panel of monoclonal antibodies (MAbs) specific for integrins alphavbeta3, alphavbeta1, and alphavbeta5, which have the ability to recognize the RGD motif, and also a MAb specific for integrin alpha2beta1, an integrin that does not recognize the RGD motif, were tested on A549 cells. Our results showed that integrin alphav-specific MAb reduced infectivity by 85%. To specify which alphav integrins the virus utilizes, we tested MAbs specific to integrins alphavbeta3 and alphavbeta1 which reduced infectivity significantly, while a MAb specific for integrin alphavbeta5, as well as the MAb specific for alpha2beta1, showed no reduction. When a combination of MAbs specific for integrins alphavbeta3 and alphavbeta1 were used, virus infectivity was almost completely inhibited; this shows that integrins alphavbeta3 and alphavbeta1 are utilized by the virus. We therefore proceeded to test whether alphav integrins' natural ligands fibronectin and vitronectin had an effect on HPEV1 infectivity. We found that vitronectin reduced significantly HPEV1 infectivity, whereas a combination of vitronectin and fibronectin abolished infection. To verify the use of integrins alphavbeta3 and alphavbeta1 as HPEV1 receptors, CHO cells transfected and expressing either integrin alphavbeta3 or integrin alphavbeta1 were used. It was shown that the virus could successfully infect these cells. However, in immunoprecipitation experiments using HPEV1 virions and allowing the virus to bind to solubilized A549 cell extract, we isolated and confirmed by Western blotting the alphavbeta3 heterodimer. In conclusion, we found that HPEV1 utilises both integrin alphavbeta3 and alphavbeta1 as receptors; however, in cells that express both integrins, HPEV1 may preferentially bind integrin alphavbeta3.     

Identification of Echovirus 1 and coxsackievirus A9 receptor molecules via a novel flow cytometric quantification method

BACKGROUND: Virus-receptor binding is an essential step in every virus infectious process. Many viruses employ more than one receptor molecule or even receptor complexes for attachment. In this study, we investigate the binding of Echovirus 1 (Echo1) and Coxsackievirus A9 (CAV-9) on cell surface molecules. CAV-9 has been reported to utilize integrin alpha v beta(3) in binding to cells, whereas Echo1 has been known to utilize integrin alpha 2 beta(1). METHODS AND RESULTS We directly test whether the presence of these molecules alone was sufficient for virus binding. We devised a novel flow cytometric binding assay that enables us to quantify virus particles bound on host cells and to further determine the extent to which viruses utilize specific receptors. CONCLUSIONS: By quantifying virus particles and possible receptor molecules, we found that Echo1 utilizes mainly integrin alpha 2 beta(1). CAV-9 utilizes integrin alpha v beta(3) to a much lesser extent (40%), indicating that CAV-9 also utilizes other receptor(s).     

Identification of a neuronal laminin receptor: an Mr 200K/120K integrin heterodimer that binds laminin in a divalent cation-dependent manner

Neuronal interactions with extracellular matrix (ECM) components are crucial for axon growth and guidance during development and nerve regeneration. Laminin (LN), a prominent ECM glycoprotein, promotes neuronal survival and axon growth. To identify neuronal receptors for LN, we looked for cell surface proteins on the neuronal cell line B50 that bind LN. An integrin alpha/beta 1 dimeric receptor was identified and purified using lectin and LN affinity chromatography. The purified integrin contains two subunits with Mrs of 200 K and 120 K that bind LN specifically in the presence, but not the absence, of divalent cations (Ca2+/Mg2+ or Ca2+/Mn2+). The Mr 120 K protein was identified as the rat integrin beta 1 subunit using two beta 1 subunit-specific antibodies, and was shown to form a noncovalent complex with the Mr 200K putative alpha subunit. Since neurons and neuronal cell lines express similar integrin beta 1-class heterodimers that mediate attachment and process outgrowth on LN, the Mr 200K/120K complex identified here is likely to be an important laminin receptor used by neurons. This integrin may also mediate binding to LN by many nonneuronal cell types.     

Pneumocystis PCINT1, a molecule with integrin-like features that mediates organism adhesion to fibronectin

Pneumocystis species cause severe pneumonia during chronic immunosuppression, especially in patients with AIDS or malignancy. Adhesion of Pneumocystis to extracellular matrix proteins, particularly fibronectin, associated with alveolar epithelial cell surfaces, triggers organism proliferative pathways. Herein, we report the characterization of a novel Pneumocystis molecule with considerable structural features of an integrin-like extracellular matrix adhesion receptor. A PCINT1115 bp probe was initially identified from partial sequence present within the Pneumocystis genome project database. A full-length 3018 bp cDNA was subsequently obtained with extensive homology to the C-terminal region of Candida albicans INT1 (31% blastx), a gene originally described as encoding an integrin-like molecule implicated in adhesion, growth, and virulence. Sequence analysis of PCINT1 indicated that the Pneumocystis molecule contained both a putative internal RGD motif and four Metal Ion-Dependent Attachment Sites (MIDAS) motifs required for coordination of divalent cations, as well as a specific tyrosine residue found in the cytoplasmic tails of some integrin receptors and C. albicans INT1. Northern, Western and immunofluorescence studies demonstrated that the trophic forms of Pneumocystis, known to be the life cycle forms that tightly adhere to lung epithelium, expressed the molecule to a substantially greater degree than cystic forms. Heterologous expression of PCINT1 in yeast followed by application to human fibronectin-coated surfaces demonstrated these yeast display PCINT1 on their surfaces and subsequently gain the ability to bind fibronectin in a cation dependent fashion. Taken together, these results indicate that Pneumocystis expresses a novel integrin-like PCINT1 molecule sufficient to mediate interactions with extracellular matrix fibronectin, an integral component of host-cell organism interactions during this infection.     

Analysis of the role of egg integrins in sperm-egg binding and fusion

Sperm-egg fusion is believed to be mediated via specific molecular interactions. Integrin alpha6beta1 is a strong candidate for a sperm receptor on the egg plasma membrane. However, the ability of the egg integrin alpha6beta1 to interact with molecules on intact sperm has not yet been proven. In this report, possible involvement of integrin alpha6beta1 in sperm-egg interactions was examined by biochemical and immunocytochemical analyses. To identify egg molecules that specifically interact with sperm, we first incubated sperm with biotin-labeled egg surface proteins. Under this condition, solubilized proteins from eggs inhibited sperm-egg fusion. Western blot analysis under reducing conditions indicated that a major-labeled band of 135 kDa bound to sperm. An immunodepletion experiment using the anti-integrin alpha6 antibody GoH3 indicated that the 135 kDa egg surface molecule that bound to sperm was the integrin alpha6 subunit. To investigate the potential involvement of integrin alpha6beta1 in sperm-egg fusion, we next examined the localization of integrin alpha6 and beta1 subunits before and after fertilization by confocal laser microscopy. At an early stage of sperm-egg fusion, the integrin alpha6 and beta1 subunits were accumulated at the sperm binding site. The frequency of cluster formation was closely related to that of sperm-egg fusion, indicating that integrin receptors are accumulated by sperm destined for fusion. Taken together, these results strongly suggest that the integrin alpha6beta1 is involved in sperm-egg binding leading to fusion via direct association of the integrin alpha6 with sperm.     

Integrin-like proteins are localized to plasma membrane fractions, not plastids, in Arabidopsis

Integrins are a large family of integral membrane proteins that function in signal transduction in animal systems. These proteins are conserved in vertebrates, invertebrates, and fungi. Evidence from previous research suggests that integrin-like proteins may be present in plants as well, and that these proteins may function in signal transduction during gravitropism. In past studies, researchers have used monoclonal and polyclonal antibodies to localize beta 1 integrin-like proteins in plants. However, there is a disparity between data collected from these studies, especially since molecular weights obtained from these investigations range from 55-120 kDa for integrin-like proteins. To date, a complete investigation which employs all three basic immunolabeling procedures, immunoblotting, immunofluorescence microscopy, and immunogold labeling, in addition to extensive fractionation and exhaustive controls, has been lacking. In this paper, we demonstrate that use of a polyclonal antibody against the cytoplasmic domain of avian beta 1-integrin can produce potential artifacts in immunolocalization studies. However, these problems can be eliminated through use of starchless mutants or proper specimen preparation prior to electrophoresis. We also show that this antibody, when applied within the described parameters and with careful controls, identifies a large (100 kDa) integrin-like protein that is localized to plasma membrane fractions in Arabidopsis.     

Identification of the alpha6 integrin as a candidate receptor for papillomaviruses.

Papillomaviruses (PVs) bind in a specific and saturable fashion to a range of epithelial and other cell lines. Treatment of cells with trypsin markedly reduces their ability to bind virus particles, suggesting that binding is mediated via a cell membrane protein. We have investigated the interaction of human PV type 6b L1 virus-like particles (VLPs) with two epithelial cell lines, CV-1 and HaCaT, which bind VLPs, and a B-cell line (DG75) previously shown not to bind VLPs. Immunoprecipitation of a mixture of PV VLPs with [35S]methionine-labeled cell extracts and with biotin-labeled cell surface proteins identified four proteins from CV-1 and HaCaT cells of 220, 120, 87, and 35 kDa that reacted with VLPs and were not present in DG75 cells. The alpha6beta4 integrin complex has subunits corresponding to the VLP precipitated proteins, and the tissue distribution of this complex suggested that it was a candidate human PV receptor. Monoclonal antibodies (MAbs) to the alpha6 or beta4 integrin subunits precipitated VLPs from a mixture of CV-1 cell proteins and VLPs, whereas MAbs to other integrin subunits did not. An alpha6 integrin-specific MAb (GoH3) inhibited VLP binding to CV-1 and HaCaT cells, whereas an anti-beta4 integrin MAb and a range of integrin-specific and other MAbs did not. Furthermore, human laminin, the natural ligand for the alpha6beta4 integrin, was able to block VLP binding. By use of sections of monkey esophagus, the distribution of alpha6 integrin expression in the basal epithelium was shown to coincide with the distribution of bound VLPs. Taken together, these data suggest that VLPs bind specifically to the alpha6 integrin subunit and that integrin complexes containing alpha6 integrin complexed with either beta1 or beta4 integrins may act as a receptor for PV binding and entry into epithelial cells.     

Role of N-linked glycans of envelope glycoproteins in infectivity of human immunodeficiency virus type 1.

We have shown that enzymatic removal of N-linked glycans from human immunodeficiency virus type 1 (HIV-1) recombinant envelope glycoproteins gp160 and gp120 produced in BHK-21 cells did not significantly reduce their ability to bind to CD4, the cellular receptor for the virus. Because recombinant proteins may behave differently from proteins present on virions, we investigated whether such viral envelope glycoproteins either in a purified form or present on viral particles could be deglycosylated by treatment with an endoglycosidase F-N-glycanase mixture which cleaves all accessible glycan moieties. Endoglycosidase analysis of the carbohydrate composition of purified viral gp120 (vgp120) indicated a glycosylation pattern similar to that for recombinant gp120 (rgp120), and treatment with endoglycosidase F-N-glycanase resulted in comparable molecular weight (MW) reduction for both molecules. Similarly, after immunoblotting of the deglycosylated viral preparation, the characteristic 160- and 120-kilodalton (kDa) bands were replaced by 90- and 60-kDa bands, respectively. The apparent MW of gp41 shifted to 35 kDa. These results are consistent with complete deglycosylation. The immunoreactive conformation of envelope glycoproteins remained unaltered after deglycosylation: they were recognized to the same extent by specific human polyclonal or mouse monoclonal antibodies, and no proteolysis of viral proteins occurred during enzymatic treatment. Deglycosylation of vgp120 resulted in a less than 10-fold reduction of the ability to bind to CD4, presented either in a soluble form or at the cell membrane. In addition, deglycosylation significantly reduced, but did not abolish, HIV-1 binding to and infectivity of CD4+ cells as determined, respectively, by an indirect immunofluorescence assay and a quantitative dose-response infection assay. Taken together, these results indicate that removal of glycans present on mature envelope glycoproteins of HIV-1 diminishes but does not abolish either virus binding to CD4 or its capacity to infect CD4+ cells.     

Immunolocalization of integrin-like proteins in Arabidopsis and Chara

Integrins are a large family of integral plasma membrane proteins that link the extracellular matrix to the cytoskeleton in animal cells. As a first step in determining if integrin-like proteins are involved in gravitropic signal transduction pathways, we have used a polyclonal antibody against the chicken β₁ integrin subunit in western blot analyses and immunofluorescence microscopy to gain information on the size and location of these proteins in plants. Several different polypeptides are recognized by the anti-integrin antibody in roots and shoots of Arabidopsis and in the intemodal cells and rhizoids of Chara . These cross-reactive polypeptides are associated with cellular membranes, a feature which is consistent with the known location of integrins in animal systems. In immunofluorescence studies of Arabidopsis roots, a strong signal was obtained from labeling integrin-like proteins in root cap cells, and there was little or no immunolabel in other regions of the root tip. While the antibody stained throughout Chara rhizoids, the highest density of immunolabel was at the tip. Thus, in both Arabidopsis roots and Chara rhizoids, the sites of gravity perception/transduction appear to be enriched in integrin-like molecules.     

Proposed lead molecules against Hemagglutinin of avian influenza virus (H5N1)

Human infection with avian influenza H5N1 is an emerging infectious disease characterized by respiratory symptoms and a high fatality rate. Hemagglutinin and neuraminidase are the two surface proteins responsible for infection by influenza virus. Till date, neuraminidase has been the major target for antiviral drugs. In the present study we chose hemagglutinin protein as it mediates the binding of the virus to target cells through sialic acid residues on the host cell-surface. Hemagglutinin of H5 avian influenza (PDB ID: 1JSN) was used as the receptor protein. Ligands were generated by structure-based de novo approach and virtual screening of ZINC database. A total of 11,104 conformers were generated and docked into the receptor binding site using 'High Throughput Virtual Screening'. We proposed potential lead molecules against the receptor binding site of hemagglutinin based on the results obtained from in silico docking and hydrogen bond interaction between the ligand and the 1JSN protein molecule. We found sialic acid derivative 1 to be the lead molecules amongst the ligands generated by structure based de novo approach. However the molecules obtained from ZINC database were showing better docking scores as well as conserved hydrogen bond interactions. Thus we proposed ZINC00487720 and ZINC00046810 as potential lead molecules that could be used as an inhibitor to the receptor binding site of hemagglutinin. They could now be studied in vivo to validate the in silico results.     

Characterization of Bufo arenarum oocyte plasma membrane proteins that interact with sperm

Sperm-oocyte plasma membrane interaction is an essential step in fertilization. In amphibians, the molecules involved have not been identified. Our aim was to detect and characterize oocyte molecules with binding affinity for sperm. We isolated plasma membranes free from vitelline envelope and yolk proteins from surface-biotinylated Bufo arenarum oocytes. Using binding assays we detected a biotinylated 100 kDa plasma membrane protein that consistently bound to sperm. Chromatographic studies confirmed the 100 kDa protein and detected two additional oocyte molecules of 30 and 70 kDa with affinity for sperm. Competition studies with an integrin-interacting peptide and cross-reaction with an anti-HSP70 antibody suggested that the 100 and 70 kDa proteins are members of the integrin family and HSP70, respectively. MS/MS analysis suggested extra candidates for a role in this step of fertilization. In conclusion, we provide evidence for the involvement of several proteins, including integrins and HSP70, in B. arenarum sperm-oocyte plasma membrane interactions.     

Inhibition of HIV-1 progeny virion release by cell-surface CD4 is relieved by expression of the viral Nef protein.

BACKGROUND: The human immunodeficiency virus type 1 (HIV-1) Nef protein is required for efficient virus replication in vivo and displays a number of distinct and apparently unrelated biological activities in vitro. Of these, one of the most readily demonstrated is the efficient internalization and degradation of cell-surface CD4, the receptor for the HIV-1 envelope protein. The biological purpose of this internalization has, however, remained unclear. RESULTS: Using human 293T cells expressing high levels of cell-surface CD4 or CD8, we demonstrate that CD4, but not CD8, can dramatically reduce the release of infectious virions bearing the HIV-1 envelope protein and induce a concomitant increase in the accumulation of cell-associated HIV-1 structural proteins. In contrast, CD4 had no effect on the release of HIV-1 bearing a heterologous envelope protein unable to bind CD4. Nef expression totally reversed CD4-mediated inhibition but only if the CD4 used remained susceptible to Nef-induced internalization. CONCLUSIONS: These results support the hypothesis that cell-surface CD4 can interact with the envelope protein present on budding HIV-1 virions to inhibit their release. The internalization and degradation of cell-surface CD4 induced by the viral Nef protein can fully reverse this inhibition and is, therefore, likely to facilitate the spread of virus in vivo.     

Pacific oyster hemocytes undergo apoptosis following cell-adhesion mediated by integrin-like molecules

Previously, we demonstrated that in the Pacific oyster (Crassostrea gigas, a bivalve mollusc) apoptosis could be induced in hemocytes by treatment with Arg-Gly-Asp (RGD) peptides which are known to function as an integrin ligand. However, it is unclear where the RGD peptides are binding to the C. gigas hemocytes, or what mechanism or molecules are involved, e.g., integrin-ligand interactions. Therefore, this study was undertaken to investigate the binding interactions in C. gigas hemocytes. Initially, to confirm the presence of RGD-recognizing integrin-like molecule(s) on the hemocytes, we assessed the enhancement of spreading ability, and found that spreading ability was enhanced by immobilized human fibronectin, a fibronectin fragment containing the RGD motif, and C. gigas plasma in the presence of divalent cations. Interestingly, viability of the spreading hemocytes dramatically decreased 24 h later and DNA fragmentation with oligonucleosomal laddering of 180-200 bp in length was detected in the dead hemocytes by electrophoresis and TUNEL assay. These results indicated that hemocyte adhesion mediated by integrin-like molecules triggered apoptosis and suggested that integrin-activation contributes to the induction of apoptosis. This is the first report showing the possibility of an integrin functioning in the induction of apoptosis in invertebrate hemocytes.     

The adapter type protein CMS/CD2AP binds to the proto-oncogenic protein c-Cbl through a tyrosine phosphorylation-regulated Src homology 3 domain interaction

CMS/CD2AP is a cytoplasmic protein critical for the integrity of the kidney glomerular filtration and the T cell function. CMS contains domains and motifs characteristic for protein-protein interactions, and it is involved in the regulation of the actin cytoskeleton. We report here that the individual SH3 domains of CMS bind to phosphotyrosine proteins of approximately 80, 90, and 180 kDa in cell lysates stimulated with epidermal growth factor. The second SH3 domain of CMS bound specifically to a tyrosine-phosphorylated protein of 120 kDa, which we identified as the proto-oncoprotein c-Cbl. The c-Cbl-binding site for CMS mapped to the carboxyl terminus of c-Cbl and is different from the proline-rich region known to bind SH3-containing proteins. CMS binding to c-Cbl was markedly attenuated in a tyrosine phosphorylation-defective c-Cbl mutant indicating that this interaction is dependent on the tyrosine phosphorylation of CMS. It also implies that CMS interacts with c-Cbl in an inducible fashion upon stimulation of a variety of cell-surface receptors. Immunofluorescence analysis revealed that both proteins colocalize at lamellipodia and leading edges of cells, and we propose that the interaction of CMS with c-Cbl offers a mechanism by which c-Cbl associates and regulates the actin cytoskeleton.     

Partial purification of Cry 1A toxin-binding proteins from Helicoverpa armigera larval midgut

Toxicity of insecticidal endotoxins produced by Bacillus thuringiensis correlates with the presence of specific proteins in the midgut of susceptible larvae. This study was aimed at identifying and purifying Cry 1A binding proteins from Helicoverpa armigera, an important crop pest of India. B. thuringiensis strain HD 73 which produces Cry 1Ac toxin, specific for H. armigera was used in this study. Toxin-binding proteins from insect larvae were detected by employing a toxin overlay assay using both radiolabelled as well as unlabelled toxin. Detergent-solubilized fractions of larval brush border membranes were subjected to soybean agglutinin (SBA) chromatography, from which N-acetylgalactosamine (NAG)-containing proteins were eluted. Analysis of the SBA-purified proteins indicated that four proteins of approximately 97, 120, 170 and 200 kDa could bind to Cry 1Ac toxin, and three proteins of 97, 170 and 200 kDa proteins could bind to Cry 1Ab. Furthermore, in the presence of excess Cry 1Ab toxin, the labelled Cry 1Ac toxin could bind only to 170 and 200 kDa proteins, implying that Cry 1Ab can also bind the 120 kDa protein. This study therefore demonstrates that in H. armigera, midgut proteins of 97, 120, 170 and 200 kDa have the ability to bind both Cry 1Ab and Cry 1Ac. Furthermore, while the 170 and 200 kDa proteins have higher affinity for Cry 1Ac, the 97 kDa has higher affinity for Cry1 Ab. This revised version was published online in July 2006 with corrections to the Cover Date.     

A novel intracellular fibulin-1D variant binds to the cytoplasmic domain of integrin beta 1 subunit

Fibulin-1 is a member of a growing family of proteins that includes eight members and is involved in cellular functions such as adhesion, migration and differentiation. Fibulin-1 has also been implicated in embryonic development of the heart and neural crest-derived structures. It is an integral part of the extracellular matrix (ECM) and has been shown to bind to a multitude of ECM proteins. However, fibulin-1 was first identified as a protein purified from placental extracts that binds to the cytoplasmic domain of integrin β1. Human fibulin-1 is alternatively spliced into four different isoforms namely A–D. These isoforms share a common N-terminus sequence that contains a secretion sequence but differ in their carboxy-terminal fibulin-1 module. In this report we identify a new splice variant of fibulin-1 that differs from all other fibulin-1 variants in the N-terminus sequence and has a similar carboxy-terminus sequence as fibulin-1D. This variant that we named fibulin-1D prime (fibulin-1D′) lacks a secretion sequence and the anaphlatoxin region of fibulin-1 variants. The protein has an apparent molecular weight of 70.5 kDa. Herein we show that fibulin-1D′ binds to the intracellular domain of integrin β1 as well as to integrin α5β1. The protein was localized intracellularly in CHO cells transfected with a pEF4 plasmid containing full-length coding sequence of fibulin-1D′. We also localized the protein in human placenta. We propose that the fibulin-1D′ variant might play a role in early embryo development as well as in modulating integrin β1 functions including adhesion and motility.     

Fluorescence photobleaching recovery measurements reveal differences in envelopment of sindbis and vesicular stomatitis viruses

Fluorescence photobleaching recovery (FPR) measurements of virus glycoproteins on the surfaces of cells infected with vesicular stomatitis virus (VSV) and Sindbis virus showed that the VSV glycoprotein (G) remained mobile throughout the infectious cycle, whereas Sindbis virus glycoproteins (E1, E2) were partially mobile early after infection and immobile at later times when greater amounts of these proteins were on the cell surface. A highly mobile fraction of Sindbis virus glycoproteins was detected throughout the replication cycle of a temperature-sensitive mutant unable to form virus particles. Thus immobilization of E1 and E2 was the result of increasing surface glycoprotein concentrations and virus budding. Together with other data, which included the detection of E1 and E2 in particles as soon as these proteins were transported to the cell surface, the FPR results suggest that Sindbis virus assembly initiates on intracellular vesicles, where glycoproteins aggregate and bind nucleocapsids. In contrast, our FPR data on VSV support a model previously suggested by others, in which a small fraction of cell-surface G is immobilized into budding sites formed by interactions with virus matrix and nucleoproteins. FPR measurements also provide direct evidence for strong interactions between E1 and E2, as well as between E1 and PE2, the precursor form of E2.     

gp160, the envelope glycoprotein of human immunodeficiency virus type 1, is a dimer of 125-kilodalton subunits stabilized through interactions between their gp41 domains.

The molecular masses, carbohydrate contents, oligomeric status, and overall molecular structure of the env glycoproteins of human immunodeficiency virus type 1--gp120, gp160, and gp41--have been determined by quantitative electron microscopy. Using purified gp160s, a water-soluble form of env purified from a recombinant vaccinia virus expression system, we have measured the masses of several hundred individual molecules by dark-field scanning transmission electron microscopy. When combined with sequence-based information, these mass measurements establish that gp160s is a dimer of subunits with an average monomer mass of 123 kDa, of which approximately 32 kDa is carbohydrate and 91 kDa is protein. Similarly, gp120 was found to be a monomer of 89 kDa and to contain virtually all of env's glycosylation. gp41 is glycosylated only slightly, if at all, and is responsible for the interactions that stabilize the gp160s dimer. A molecular mass map of gp160s derived by image processing depicts an asymmetric dumbbell whose two domains have masses of approximately 173 and approximately 73 kDa, corresponding to a gp120 dimer and a gp41 dimer, respectively. We infer that the average monomer mass of native gp160 is 125 kDa and that in situ, env is either a dimer or a tetramer but is most unlikely to be a trimer.