Glen R. Nemerow

Integrins αvβ3 and αvβ5 promote adenovirus internalization but not virus attachment

Adenovirus contains a heterodimeric protein complex consisting of 186 kd fiber protein that mediates high affinity virus attachment to cells and a 400 kd pentavalent subunit (penton base) that contains five Arg-Gly-Asp sequences, implying a role for integrins in adenovirus infection. We demonstrate that the vitro-nectin-binding integrins alpha v beta 3 and alpha v beta 5 promote viral infection in a novel way since antibodies against these receptors or soluble penton base block virus internalization without affecting attachment. Moreover, adenovirus binds to cultured cells lacking alpha v integrins but fail to become internalized, thus restricting infection of these cells. Transfection of alpha v(-) cells with a cDNA encoding alpha v results in the expression of integrins alpha v beta 3 and alpha v beta 5 and allows virus internalization and infection. These data indicate that adenovirus attachment and uptake into cells are separate but cooperative events that result from the interaction of distinct viral coat proteins with a receptor for attachment and alpha v integrin receptors for internalization.

Differential regulation of cell motility and invasion by FAK

Cell migration and invasion are fundamental components of tumor cell metastasis. Increased focal adhesion kinase (FAK) expression and tyrosine phosphorylation are connected with elevated tumorigenesis. Null mutation of FAK results in embryonic lethality, and FAK−/− fibroblasts exhibit cell migration defects in culture. Here we show that viral Src (v-Src) transformation of FAK−/− cells promotes integrin-stimulated motility equal to stable FAK reexpression. However, FAK−/− v-Src cells were not invasive, and FAK reexpression, Tyr-397 phosphorylation, and FAK kinase activity were required for the generation of an invasive cell phenotype. Cell invasion was linked to transient FAK accumulation at lamellipodia, formation of a FAK–Src-p130Cas–Dock180 signaling complex, elevated Rac and c-Jun NH2-terminal kinase activation, and increased matrix metalloproteinase expression and activity. Our studies support a dual role for FAK in promoting cell motility and invasion through the activation of distinct signaling pathways.

Adenovirus protein VI mediates membrane disruption following capsid disassembly.

ABSTRACT In contrast to enveloped viruses, the mechanisms involved in membrane penetration by nonenveloped viruses are not as well understood. In these studies, we determined the relationship between adenovirus (Ad) capsid disassembly and the development of membrane lytic activity. Exposure to low pH or heating induced conformational changes in wild-type Ad but not in temperature-sensitive Ad (ts1) particles that fail to escape the early endosome. Wild-type Ad but not ts1 particles permeabilized model membranes (liposomes) and facilitated the cytosolic delivery of a ribotoxin. Alterations in wild-type Ad capsids were associated with the exposure of a pH-independent membrane lytic factor. Unexpectedly, this factor was identified as protein VI, a 22-kDa cement protein located beneath the peripentonal hexons in the viral capsid. Recombinant protein VI and preprotein VI, but not a deletion mutant lacking an N-terminal amphipathic α-helix, possessed membrane lytic activity similar to partially disassembled virions. A new model of Ad entry is proposed based on our present observations of capsid disassembly and membrane penetration.

Apoptosis signaling pathway in T cells is composed of ICE/Ced-3 family proteases and MAP kinase kinase 6b.

Fas/APO-1(CD95) ligation activates programmed cell death, a cellular process that plays an important role in the maturation of the host immune response. We show that activation of a specific MAP kinase kinase (MKK), MKK6b, is necessary and sufficient for Fas-induced apoptosis of Jurkat T cells. MKK6b activation occurs downstream of an interleukin-1 converting enzyme-like (ICE-like) protease(s), while execution of the apoptotic pathway by MKK6b requires both ICE- and CPP32-like proteases. Surprisingly, the p38 MAP kinase protein, a known substrate of MKK6b, does not participate in Fas/MKK6b-mediated apoptosis. These findings indicate a divergence of the MKK6b signaling pathways, one of which activates p38 and leads to regulation of gene expression, and one of which activates the ICE/Ced-3 family of proteases and leads to cell death. These studies represent a demonstration of an apoptotic pathway that is comprised of both the ICE/Ced-3 family of proteases and MAP kinase kinase 6.

Adenovirus Serotype 5 Fiber Shaft Influences In Vivo Gene Transfer in Mice

Adenoviral vectors used in gene therapy are predominantly derived from adenovirus serotype 5 (Ad5), which infects a broad range of cells. Ad5 cell entry involves interactions with the coxsackie-adenovirus receptor (CAR) and integrins. To assess these receptors in vivo, we mutated amino acid residues in fiber and penton that are involved in receptor interaction and showed that CAR and integrins play a minor role in hepatic transduction but that integrins can influence gene delivery to other tissues. These data suggest that an alternative entry pathway exists for hepatocyte transduction in vivo that is more important than CAR or integrins. In vitro data suggest a role for heparan sulfate glycosaminoglycans (HSG) in adenovirus transduction. The role of the fiber shaft in liver uptake was examined by introducing specific amino acid changes into a putative HSG-binding motif contained within the shaft or by preparing fiber shaft chimeras between Ad5 and Ad35 fibers. Results were obtained that demonstrate that the Ad5 fiber shaft can influence gene transfer both in vitro and to the liver in vivo. These observations indicate that the currently accepted two-step entry pathway, which involves CAR and integrins, described for adenoviral infection in vitro, is not used for hepatic gene transfer in vivo. In contrast, alpha(v) integrins influence gene delivery to the lung, spleen, heart, and kidney. The detargeted vector constructs described here may provide a foundation for the development of targeted adenoviral vectors.

Integrin αvβ1 Is an Adenovirus Coreceptor

ABSTRACT The human embryonic kidney (HEK293) cell line, commonly used for recombinant adenovirus (Ad) propagation, does not express the Ad coreceptor αvβ3 or αvβ5 integrins, yet these cells are efficiently infected by Ad vectors. Here we demonstrate that Ad binds to HEK293 cells via the fiber receptor CAR and is subsequently internalized via interaction with integrin αvβ1. Function-blocking antibodies directed against αv or β1, but not β3, β5, or α5, integrin subunits block Ad infection and viral endocytosis. Therefore, αvβ1 serves as a coreceptor for Ad infection, and the lack of β3 and/or β5 but the relatively high expression of αvβ1 integrins on certain tumor cell types may explain why these cells are readily transduced by Ad vectors.

Cryo-EM visualization of an exposed RGD epitope on adenovirus that escapes antibody neutralization

Interaction of the adenovirus penton base protein with αV integrins promotes virus entry into host cells. The location of the integrin binding sequence Arg‐Gly‐Asp (RGD) on human type 2 adenovirus (Ad2) was visualized by cryo‐electron microscopy (cryo‐EM) and image reconstruction using a mAb (DAV‐1) which recognizes a linear epitope, IRGDTFATR. The sites for DAV‐1 binding corresponded to the weak density above each of the five 22 Å protrusions on the adenovirus penton base protein. Modeling of a Fab fragment crystal structure into the adenovirus‐Fab cryo‐EM density indicated a large amplitude of motion for the Fab and the RGD epitope. An unexpected finding was that Fab fragments, but not IgG antibody molecules, inhibited adenovirus infection. Steric hindrance from the adenovirus fiber and a few bound IgG molecules, as well as epitope mobility, most likely prevent binding of IgG antibodies to all five RGD sites on the penton base protein within the intact virus. These studies indicate that the structure of the adenovirus particle facilitates interaction with cell integrins, whilst restricting binding of potentially neutralizing antibodies.

Crystal Structure of Human Adenovirus at 3.5 Å Resolution

Human Adenovirus Structures Human adenoviruses may be a common cause of acute infections in humans, but they can also be used as vectors for vaccine and therapeutic gene transfer. Rational engineering of safe adenovirus vectors has been hampered by a lack of high-resolution structural information. Two papers now describe the structure of human adenovirus using complementary techniques. Reddy et al. (p. 1071; see the Perspective by Harrison) have determined the crystal structure at 3.5 angstrom resolution, while Liu et al. (p. 1038; see the Perspective by Harrison) solved the structure to 3.6 angstrom resolution by electron microscopy. Together the structures provide insights into viral assembly, stabilization, and cell entry mechanisms. High-resolution structures provide a basis for optimizing adenovirus as a vaccine and gene-therapy vector. Rational development of adenovirus vectors for therapeutic gene transfer is hampered by the lack of accurate structural information. Here, we report the x-ray structure at 3.5 angstrom resolution of the 150-megadalton adenovirus capsid containing nearly 1 million amino acids. We describe interactions between the major capsid protein (hexon) and several accessory molecules that stabilize the capsid. The virus structure also reveals an altered association between the penton base and the trimeric fiber protein, perhaps reflecting an early event in cell entry. The high-resolution structure provides a substantial advance toward understanding the assembly and cell entry mechanisms of a large double-stranded DNA virus and provides new opportunities for improving adenovirus-mediated gene transfer.

Mechanisms and Consequences of Affinity Modulation of Integrin αVβ3 Detected with a Novel Patch-engineered Monovalent Ligand

Integrin αVβ3mediates diverse responses in vascular cells, ranging from cell adhesion, migration, and proliferation to uptake of adenoviruses. However, the extent to which αVβ3 is regulated by changes in receptor conformation (affinity), receptor diffusion/clustering (avidity), or post-receptor events is unknown. Affinity regulation of the related integrin, αIIbβ3, has been established using a monovalent ligand-mimetic antibody, PAC1 Fab. To determine the role of affinity modulation of αVβ3, a novel monovalent ligand-mimetic antibody (WOW-1) was created by replacing the heavy chain hypervariable region 3 of PAC1 Fab with a single αV integrin-binding domain from multivalent adenovirus penton base. Both WOW-1 Fab and penton base bound selectively to activated αVβ3, but not to αIIbβ3, in receptor and cell binding assays. αVβ3 affinity varied with the cell type. Unstimulated B-lymphoblastoid cells bound WOW-1 Fab poorly (apparent K d = 2.4 μm), but acute stimulation with phorbol 12-myristate 13-acetate increased receptor affinity >30-fold (K d = 80 nm), with no change in receptor number. In contrast, αVβ3 in melanoma cells was constitutively active, but ligand binding could be suppressed by overexpression of β3 cytoplasmic tails. Up-regulation of αVβ3 affinity had functional consequences in that it increased cell adhesion and spreading and promoted adenovirus-mediated gene transfer. These studies establish that αVβ3 is subject to rapid regulated changes in affinity that influence the biological functions of this integrin.

Membrane cofactor protein is a receptor for adenoviruses associated with epidemic keratoconjunctivitis

ABSTRACT Subgroup D adenovirus (Ad) types 8, 19, and 37 (Ad8, -19, and -37, respectively) are causative agents of epidemic keratoconjunctivitis and genital tract infections. Previous studies showed that Ad37 binds to a 50-kDa membrane glycoprotein expressed on human ocular (conjunctival) cells. To identify and characterize the role of the 50-kDa glycoprotein in Ad37 infection, we partially purified this molecule from solubilized Chang C conjunctival cell membranes by using lentil lectin chromatography and preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Liquid chromatography coupled to nano-electrospray ionization-tandem mass spectrometry was subsequently used to identify four Ad37 receptor candidates: CD46, CD87, CD98, and CD147. Immunodepletion analyses demonstrated that the 50-kDa protein is identical to CD46 (also known as membrane cofactor protein). The Ad37, but not Ad5, fiber knob bound to the extracellular domain of CD46, demonstrating a direct interaction of an Ad37 capsid protein with CD46. An antibody specific for the N-terminal 19 amino acids of CD46 also blocked Ad37 infection of human cervical carcinoma and conjunctival cells, indicating a requirement for CD46 in infection. Finally, expression of a 50-kDa isoform of human CD46 in a CD46-null cell line increased cell binding by wild-type Ad37 and gene delivery by an Ad vector pseudotyped with the Ad37 fiber, but not by a vector bearing the Ad5 fiber. Together, these studies demonstrate that CD46 serves as an attachment receptor for Ad37 and shed further light on the cell entry pathway of subgroup D Ads.