Alexander Robert Neurath

Identification and Chemical Synthesis of a Host Cell Receptor Binding Site on Hepatitis B Virus

Hepatitis B virus (HBV) has not yet been propagated in vitro, and knowledge concerning its reaction with receptors on target cells remained scant. We have located within the HBV envelope proteins a sequence mediating the attachment of HBV to human hepatoma HepG2 cells. A synthetic peptide analog (PLGFFPDHQLDPAFGANSNNPDWDFNP) is recognized by both cell receptors and anti-HBV antibodies and elicits antibodies reacting with native HBV. The synthetic peptide is a promising immunogen expected to elicit protective antibodies based on the concept of the attachment blockade pathway of virus neutralization. The approach described here, based on anti-peptide antisera and the binding of peptide analogs to cell receptors is generally applicable for the delineation of cell receptor binding sites on viruses with known gene sequences.

Detection of receptors for hepatitis B virus on cells of extrahepatic origin

Receptors for hepatitis B virus (HBV; subtype adw) were identified on the surface of human hepatoma HepG2 cells in earlier studies. The cell receptor binding site on HBV was assigned to the preS(21-47) region of the preS1 sequence of the envelope protein. Studies presented here show that (1) amino acid residue replacements within the preS(21-47) sequence distinguishing HBV subtypes adw and ayw, preserve the binding capacity of the HBV env protein for HepG2 cell receptors; (2) the inhibition of binding between HepG2 cells and preS1-specific ligands by antibodies is effective only if the subtype specificity of anti-preS1-specific antibodies and of the preS1-specific ligands are matched; (3) receptors for HBV were present on the surface of human cells of nonhepatic origin, including peripheral blood B-lymphocytes, some hematopoietic cell lines of the B-cell lineage, neuroblastoma, amnion, and embryonic carcinoma cell lines. Receptors for HBV on these cells appeared similar to the receptor on HepG2 cells by the following criteria: (a) recognition by antibodies raised against the receptor on HepG2 cells; (b) inhibitory activity of lysates prepared from these cells on the interaction between HepG2 cells and preS1-specific ligands; and (c) the inhibitory effect of lysates from HepG2 cells on the reaction of these cells with HBsAg- and preS(21-47)-cellulose. The presence of receptors for HBV on some cells of extrahepatic origin is in accordance with earlier observations indicating that hepadnaviruses are not strictly hepatotropic.

Cellulose Acetate Phthalate (CAP): An ‘Inactive” Pharmaceutical Excipient with Antiviral Activity in the Mouse Model of Genital Herpesvirus Infection

The spread of sexually transmitted infections caused by herpes simplex virus type 2 (HSV-2) has continued unabated. At least 20% of the United States population has been infected with HSV-2 and there is a high probability of further virus transmission by asymptomatic carriers. Given the absence of effective vaccines, this indicates the need to develop prophylactic measures such as topical microbicides that have antiviral activity. Recent studies indicate that cellulose acetate phthalate (CAP), an inactive pharmaceutical excipient commonly used in the production of enteric tablets and capsules, is a broad specificity microbicide against diverse sexually transmitted pathogens. When appropriately formulated in micronized form, it inactivates various viruses, including HSV-2, in vitro. Here we show that CAP inhibits HSV-2 infection in the mouse model of genital HSV-2 infection. Pretreatment with micronized CAP formulated in a glycerol-based cream with colloidal silicone dioxide significantly reduced the proportion of HSV-2-infected mice (10% virus shedding, 0–5% lesion development and 0% fatality for CAP as compared to 84% shedding, 63% lesion development and 63% fatality in saline-treated mice). These differences were significant (P≤0.0002 by the test of equality of two proportions). Virus titres in the minority of mice that developed infection were similar to those in untreated mice. HSV-2 infection was not inhibited by treatment with CAP formulated with other inactive ingredients (for example povidone plus crosprovidone) instead of silicone dioxide, presumably reflecting CAP complexation/inactivation. These data suggest that properly formulated, CAP may be an efficacious agent for preventing vaginal transmission of genital herpesvirus infections.

Synthetic peptides and anti-peptide antibodies as probes to study interdomain interactions involved in virus assembly: the envelope of the human immunodeficiency virus (HIV-1).

Synthetic peptides and anti-peptide antibodies have been widely used as probes to map B- and T-cell epitopes on proteins. Such probes also have the potential to delineate contact sites involved generally in protein-protein interactions or in association of domains within a protein. We applied peptide/anti-peptide probes to define: (1) regions on the human immunodeficiency virus type 1 (HIV-1) envelope glycoproteins gp120 and gp41 involved in the association between these two glycoproteins; and (2) sites on gp120/gp41, essential for the association of HIV-1 with the CD4 cell receptor. Results of this examination suggested the following: (1) two segments on gp120, encompassing residues (102-126) and (425-452), contribute to the binding site for CD4 and are expected to be juxtaposed in the folded gp120 chain; (2) portions of immunodominant gp120 and gp41 epitopes, encompassing residues (303-338) and (579-611), respectively, appeared to be involved in the gp120-gp41 association, as suggested by direct binding studies and by the limited accessibility of these epitopes on HIV-1 virions: other portions of gp120 also appeared to contribute to the association between these two glycoproteins; (3) there is a partial overlap between gp41 and CD4 binding sites on gp120; (4) the fusion domain and a segment (637-666) of gp41 are not accessible to antibodies after oligomerization of gp41; and 5) the gp120-gp41 association was blocked by aurintricarboxylic acid, suggesting the possibility of developing antiviral compounds interfering with HIV-1 assembly.

Rapid prescreening for antiviral agents against HIV-1 based on their inhibitory activity in site-directed immunoassays. II. Porphyrins reacting with the V3 loop of gp120*

Recent observations that haernin inhibited the replication of the human immunodeficiency virus (HIV-1) and the reaction between the HIV-1 envelope glycoprotein gp120 and antibodies specific for the V3 hypervariable loop of this glycoprotein were an enticement to determine whether or not additional porphyrins had similar activities. Several porphyrin derivatives, particularly meso-tetra (4-carboxyphenyl) porphine, were more potent inhibitors of HIV-1 replication than haernin. They blocked the binding of homologous antibodies to synthetic peptides corresponding to V3 hypervariable loops of 21 distinct HIV-1 isolates, and inhibited the replication in lymphocytic (MT-2) and promonocyte (U937) cell lines of several HIV-1 isolates, tested (IIIB, RF, SF-2, and MN). Compounds with inhibitory activity had a tetrapyrrole ring and, carboxyl or sulphonate groups. However, antiviral activity depended on minor structural differences between distinct derivatives endowed with these two features. Metalloporphyrins had a drastically reduced antiviral activity in comparison with the corresponding porphyrins. An understanding of the relationship between the structure of porphyrins and their antiviral effects, perceptible from the results presented, is expected to lead to the design of additional derivatives with more potent antiviral activity and to unravelling of molecular details involved in the association between the V3 loop of gp120 and antiviral compounds targeted to this loop.

Antigenic mimicry of an immunoglobulin A epitope by a hepatitis B virus cell attachment site.

The preS(21-47) sequence of the hepatitis B virus (HBV) envelope protein is involved in binding of the virus to cell receptors. A protein similarity search revealed a partial homology between this sequence and a segment of the human immunoglobulin A (IgA) heavy chain constant region, suggesting that the cell attachment site for HBV might be located on secretory component representing a receptor for polymeric IgA. Data presented herein do not support this hypothesis but provide evidence for immunological cross-reactivity between IgA and the preS(21-47) region of the HBV env protein.

Rapid Prescreening for Antiviral Agents against HIV-1 Based on Their Inhibitory Activity in Site-Directed Immunoassays. I. The V3 Loop of gp 120 as Target

The anionic triphenylmethane derivative aurintricarboxylic acid (ATA) was reported to inhibit the replication and cytopathogenicity of human immunodeficiency virus type 1 (HIV-1). This antiviral effect, ascribed to the inhibitory activity of ATA on the virus reverse transcriptase, was subsequently also explained by binding of ATA to the HIV-1 envelope glycoprotein gp120 and/or to the CD4 receptor for the virus. Results presented here show: (1) the effectiveness of ATA as a potential antiviral drug by demonstrating that HIV-1 replication in vitro can be completely aborted in the presence of ATA as measured by the polymerase chain reaction; (2) that ATA inhibited the reaction between gp120 and antibodies specific for the V3 hypervariable loop of gp120; (3) that additional compounds with anti-HIV-1 activity can be rapidly identified based on their inhibitory effects measured by radioimmunoassays and/or enzyme-linked immunoadsorbent assays; and (4) that ATA also bound to synthetic peptides representing V3 loops of several HIV-1 isolates, suggesting the possibility that selected chemicals would interfere with the biological function of V3 loops of most HIV-1 isolates and would be effective for chemotherapy, and possibly for prophylaxis, of HIV-1 infections.

Delineation of contiguous determinants essential for biological functions of the pre-S sequence of the hepatitis B virus envelope protein: its antigenicity, immunogenicity and cell-receptor recognition

The preS region of the hepatitis B virus (HBV) envelope protein has the following properties: (1) exposure on the surface of the virus; (2) high immunogenicity; (3) involvement in the reaction of the virus with cell receptors and (4) elicitation of antibodies protective against infection. Attempts to mimic B- and T-cell epitopes on the native protein by synthetic peptides were highly successful. This success depended on identification of those regions within the preS sequences which are the most important for biological function of the virus and for immunity, and on the synthesis of long peptides (20-40 residues) containing both B- and T-cell epitopes. Results presented here highlight those subregions of the preS sequence which are the most essential for the antigenicity and immunogenicity of HBV.

3-Hydroxyphthaloyl-β-Lactoglobulin. I. Optimization of Production and Comparison with other Compounds Considered for Chemoprophylaxis of Mucosally Transmitted Human Immunodeficiency Virus Type 1

Modification of the major bovine whey protein, β-lactoglobulin (β-LG) by 3-hydroxyphthalic anhydride (3HP) leads to the generation of a potent inhibitor of infection by human immunodeficiency virus (HIV) types 1 and 2, designated 3HP-β-LG. 3HP-β-LG also has antiviral activity against herpesviruses, albeit at concentrations exceeding those required for inhibition of HIV-1 infection. The topical application of 3HP-β-LG to decrease the rate of sexual transmission of HIV and other sexually transmitted viruses worldwide is being considered. Results presented here: (i) define the conditions for chemical modification of β-LG by 3HP, resulting in 3HP-β-LG with optimum anti-HIV-1 activity; (ii) show that β-LG, prior to chemical modification, or 3HP-β-LG can be exposed to the elevated temperatures used to pasteurize milk without adversely affecting anti-HIV-1 activity; (iii) provide evidence that 3HP-β-LG is a more potent anti-HIV-1 compound than sulphated polysaccharides, other candidate compounds considered as prophylactic agents to prevent sexual transmission of HIV-1; and (iv) confirm that the primary target for 3HP-β-LG is CD4, although binding to the HIV-1 envelope protein gp120 was also observed and contributed to the antiviral activity of 3HP-β-LG.

Enzyme-linked immunoassay of pre-S gene-coded sequences in hepatitis B vaccines

Pre-S gene coded domains of the hepatitis B virus (HBV) envelope protein are highly immunogenic in experimental animals and humans. Their presence in HBV and hepatitis B surface antigen (HBsAg) particles leads to production of anti-pre-S-specific antibodies during the course of HBV infection. Since antibodies specific for pre-S domains are capable of preventing the attachment of HBV to hepatocytes and are virus neutralizing, it would seem desirable to produce HBV vaccines with a standardized level of pre-S determinants to ensure their potential for eliciting the same repertoire of protective antibodies as found after recovery from natural infection. However, a test with appropriate sensitivity for detecting pre-S determinants to ensure their potential for eliciting the same repertoire of protective antibodies as found after (ELISA) for detecting pre-S determinants in vaccines containing less than or equal to 20 micrograms of HBsAg. The components of this assay are (1) antibodies to a synthetic peptide pre-S (120-145) adsorbed to polystyrene beads, and (2) beta-lactamase-labelled antibodies purified from anti-HBV serum on the basis of their affinity for a pre-S (120-174) beta-galactosidase fusion protein produced in Escherichia coli. Results of an evaluation of the pre-S content of HBV vaccines from two different commercial sources are discussed.