Successful infection of the common marmoset (Callithrix jacchus) with human varicella-zoster virus.

The common marmoset, Callithrix jacchus, can be infected with human varicella-zoster virus (VZV), both wild-type strain KMcC and attenuated vaccine strain Oka/Merck. Infection was accomplished with either whole-cell-associated or cell extract VZV by combined oral-nasal-conjunctival application and was characterized by substantial and persistent anti-VZV antibody responses. The infectivity of VZV for marmosets was destroyed by treatment of inocula with heat or UV light. Diluted inocula with as few as 40 PFU/ml were infectious for marmosets. The lungs were demonstrated to be a major site of viral replication; both the presence of viral antigens and signs of pneumonia were demonstrated in lung tissues. Four serial passages of VZV KMcC were carried out in C. jacchus by a process of in vitro isolation and culturing of VZV from infected lung tissue and reapplication of the cultured isolates to fresh animals. The isolated viruses were identified as VZV both serologically and by restriction endonuclease analyses. The C. jacchus infectivity model should prove useful for determining the efficacy of subunit and live recombinant VZV vaccines as well as for the study of zoster.

Haemophilus influenzae type b polysaccharide-protein conjugate vaccine.

An Haemophilus influenzae type b capsular polysaccharide-protein conjugate has been prepared. The polysaccharide was coupled to the serotype II protein of group B meningococcus through the spacer 6-aminocaproic acid using cyanogen bromide and water soluble carbodiimide. The conjugate can be shown to be reproducible and is stable and highly immunogenic in mice and African green monkeys. Clinical evaluation of this conjugate in children 3 months to 4 years of age showed that it elicited an antibody titer to the polysaccharide moiety greater than 1000 ng/ml in children 8 months of age or older.

New findings in live, attenuated hepatitis A vaccine development.

Strain CR326F of hepatitis A virus, derived from a fecal specimen of Costa Rican patient 033-03, was passed 15 times in fetal rhesus monkey kidney (FRhK6) cell cultures plus eight times in human diploid lung (MRC5) cell cultures to yield variant F and 16 times in MRC5 cell cultures to yield variant F'. Both variants were purified by limit dilution passages. Virulence for marmosets was assessed at six different passage levels, including variants F and F'. There was a gradual loss of virulence with in vitro passage. Variant F retained slight virulence for marmosets; variant F' showed no evidence of virulence. Both variants induced hepatitis A antibody in most marmosets that received them, and the animals were immune to infection when challenged. Variants F and F' were also assessed in chimpanzees. As in marmosets, F retained slight virulence but F' did not. Experimental vaccines made from variants F and F' were then inoculated parenterally into adult human volunteers. A portion of recipients of variant F showed brief, low-order enzyme elevations; none was seen in recipients of F', although their occurrence could not be totally ruled out. As in the animal models, F' appeared more attenuated than F. Most persons developed hepatitis A antibody, indicating the feasibility of developing a live, attenuated hepatitis A vaccine for human beings.

Hepatitis B surface antigen polypeptide micelles from antigen expressed in Saccharomyces cerevisiae.

Hepatitis B micelles containing the p25 component of hepatitis B surface antigen (HBsAg) have been produced by Triton X-100 solubilization followed by ultracentrifugation in linear sucrose gradients. The product was found to resemble micelle forms prepared from plasma-derived HBsAg with the surface being composed of discrete globular and stranded sub-units. The degree of immunochemical relatedness of the micellular preparation was compared to the native 22-nm HBsAg particle present in either plasma or yeast cell extracts. The yeast micelle preparation competed for anti-HBs in a similar manner as intact HBsAg of plasma origin. Enhanced immunogenicity may be expected for micelles containing a recombinant HBsAg protein as has previously been shown for the plasma-derived antigen.

Overview of clinical studies with hepatitis B vaccine made by recombinant DNA.

The Merck, Sharp and Dohme hepatitis B vaccine formulated from HBsAg produced by a recombinant strain of Saccharomyces cerevisiae has proven to be highly immunogenic and safe. A 10 micrograms dose of the vaccine produced an anti-HBs response of greater than or equal to 10 IU/l in 91% or more of healthy adults who completed the three-dose regimen. Children responded well to all levels of vaccine antigen utilised but developed maximum anti-HBs titres with 5 micrograms doses. The age of the vaccine recipient affected responsiveness. Younger adults (20-29 years) responded more rapidly and with higher anti-HBs titres than did older adults (greater than or equal to 50 years). Children responded faster and with higher anti-HBs levels than younger adults. Clinical reactions reported after vaccination were mild and transient.

Production and immunological analysis of recombinant hepatitis B vaccine.

The synthesis of the hepatitis B surface antigen (HBsAG) in cells of Saccharomyces cerevisiae and its subsequent isolation, purification and analysis is described. The final, purified HBsAg particle exhibits close structural and biochemical similarities to particles derived from the plasma of chronically infected humans. Particles of yeast and human origin have been found, by chimpanzee efficacy studies and by various in vitro analyses, to be immunologically equivalent. The antigenic expression of a determinant-specific epitopes, as measured by antibody binding to synthetic peptides, has also been shown to be equivalent.

A quantitative Western Blot method for protein measurement.

A radioimmunologic assay method for the quantitation of small amounts of protein in recombinant vaccines at the level of 20-150 ng is evaluated which uses the techniques of SDS-PAGE and electrophoretic protein transfer ("Western Blot'). Known amounts of the protein being determined are included on the same gel as the unknown. After protein blotting, the nitrocellulose membrane is treated with antibody specific for the protein being determined and subsequently with [125I] Protein A. An autoradiogram is produced which corresponds directly to the nitrocellulose blot. It can, therefore, serve as a template to locate the labeled protein which is excised from the blot and measured in a gamma counter. The technique is found especially useful for evaluating cell lysates of recombinant bacteria and yeast for the percentage of the recombinant protein in the total protein mixture.

Multiple chemical forms of hepatitis B surface antigen produced in yeast.

Hepatitis B surface antigen (HBsAg) has been extracted from yeast cells that produce HBsAg. These cells contain the gene for surface antigen carried on a plasmid that replicates in the cells. Analysis of the yeast-derived HBsAg by sucrose gradient centrifugation and by polyacrylamide gel electrophoresis shows that the antigen that is initially released from yeast cells is a high molecular weight aggregate of the fundamental Mr 25,000 subunit. Unlike HBsAg derived from human plasma, the yeast antigen is held together by noncovalent interactions and can be dissociated in 2% NaDodSO4 without the use of reducing agents. During in vitro purification of the yeast antigen, some disulfide bonds form spontaneously between the antigen subunits, resulting in a particle composed of a mixture of monomers and disulfide-bonded dimers. Treatment with 3 M thiocyanate converts the 20-nm particles into a fully disulfide-bonded form that is not disrupted in NaDodSO4 unless a reducing agent is added. This disulfide-bonded particle resembles the naturally occurring, plasma-derived surface antigen particle, and the in vitro formed particle has been used to prepare a vaccine for humans against hepatitis B virus infection.

Clinical evaluation in healthy adults of a hepatitis B vaccine made by recombinant DNA.

A vaccine formulated from hepatitis B surface antigen (HBsAg) produced by a recombinant strain of the yeast Saccharomyces cerevisiae was administered to two groups of human volunteers composed of 37 healthy, low-risk adults. Each subject received a 10-micrograms dose of HBsAg at 0, 1, and 6 months. By one month, 27% to 40% of the vaccinees had antibody to HBsAg, and by three months 80% to 100% were antibody positive. Large boosts in titer followed the third dose at six months. The antibody formed is predominantly specific for the a determinant of HBsAg. There have been no serious reactions attributable to the vaccine. The most frequent complaint has been transient soreness at the injection site. As far as we know, this is the first reported use in man of a vaccine prepared by recombinant DNA technology.

Vaccine against human hepatitis B virus prepared from antigen derived from human hepatoma cells in culture.

Vaccine against human hepatitis B was prepared using antigen derived from hepatitis B carrier hepatoma cells grown in the interstices of a Diaflo hollow filter unit. Hepatitis B surface antigen (HBsAg) produced by these cells was purified by immune affinity chromatography, digestion with DNase and pepsin, and Sephadex G-150 separation. The Formalin-treated antigen was formulated in 20-micrograms dose on alum adjuvant with thimerosal added as a preservative. This cell culture vaccine was as potent as human plasma-derived vaccine as measured in a mouse potency assay. The vaccine proved safe in tests in chimpanzees and in human subjects who were in late stages of cancer of the central nervous system and who were receiving therapy for their condition. None of five subjects who received the vaccine developed untoward clinical reactions. Two of the subjects who received all three doses of vaccine developed antibody against HBsAg. Three persons, two given only the primary doses and one who was given all three doses but was lost to follow-up, demonstrated no response. The slow and relatively low antibody responses to the vaccine were similar to those in other immunosuppressed persons who were given vaccine of human plasma origin.

Viral enhancement and interference induced in cell culture by hepatitis A virus: application to quantitative assays for hepatitis A virus.

Hepatitis A virus (HAV) growing in human diploid lung fibroblast (MRC5) monolayers can either interfere with or enhance the cytopathic effect of Newcastle Disease virus (NDV) challenge. Enhancement of NDV occurred if HAV-infected monolayers were challenged with a low multiplicity of infection of NDV and incubated at 35 degrees C. Interference occurred if HAV-infected monolayers were given a high NDV multiplicity of infection and incubated at 32 degrees C. These phenomena were applied to assays for quantifying HAV and may be useful in providing new insights into viral interference and enhancement.

Human hepatitis B vaccine from recombinant yeast.

The worldwide importance of human hepatitis B virus infection and the toll it takes in chronic liver disease, cirrhosis and hepatocarcinoma, make it imperative that a vaccine be developed for worldwide application. Human hepatitis B vaccines are presently prepared using hepatitis B surface antigen (HBsAg) that is purified from the plasma of human carriers of hepatitis B virus infection. The preparation of hepatitis B vaccine from a human source is restricted by the available supply of infected human plasma and by the need to apply stringent processes that purify the antigen and render it free of infectious hepatitis B virus and other possible living agents that might be present in the plasma. Joint efforts between our laboratories and those of Drs W. Rutter and B. Hall led to the preparation of vectors carrying the DNA sequence for HBsAg and antigen expression in the yeast Saccharomyces cerevisiae. Here we describe the development of hepatitis B vaccine of yeast cell origin. HBsAg of subtype adw was produced in recombinant yeast cell culture, and the purified antigen in alum formulation stimulated production of antibody in mice, grivet monkeys and chimpanzees. Vaccinated chimpanzees were totally protected when challenged intravenously with either homologous or heterologous subtype adr and ayw virus of human serum source. This is the first example of a vaccine produced from recombinant cells which is effective against a human viral infection.

Production of purified hepatitis B surface antigen from Alexander hepatoma cells grown in artificial capillary units.

An artificial capillary system was devised for growth of hepatoma cells that yields very high titers of hepatitis B surface antigen (HBsAg). High yield of antigen was facilitated by slowing cellular metabolism through reduction of incubation temperature and addition of 0.1 mM caffeine. Deletion of serum from the medium did not reduce the yield of antigen. HBsAg prepared from the culture fluid by affinity chromatography and additional chemical and enzymatic steps was essentially pure and was indistinguishable from HBsAg prepared from infected human plasma. Preparation of HBsAg from the cell culture source presents advantages over that of human plasma and might be a source of HBsAg for vaccine preparation.

The preparation and safety of hepatitis B vaccine.

Preparation of hepatitis B vaccine in our laboratories consists of a series of steps that include initial concentration of surface antigen by ammonium sulphate precipitation, followed by isopycnic banding and rate zonal centrifugation in a K-II centrifuge. The partially purified antigen concentrate is digested with pepsin at pH 2 and the antigen is unfolded in 8 M urea solution followed by renaturation. After gel filtration, the antigen is treated with formalin in I :4000 dilution, adsorbed on to alum, and preserved with thimerosal. The final product contains essentially pure hepatitis B surface antigen. The process relies both on physical elimination of infectious virus particles and treatment with highly viral-destructive reagents in the pepsin (pH 2), urea and formalin steps. The process is known to be highly destructive of all known viruses tested and to include procedures that are known to be highly destructive of representatives of all known groups of animal viral agents. The three-step process in inactivation provides a fail-safe system for establishing safety of the product. Tests in more than 20000 persons, who are under surveillance, have shown no untoward effect and have confirmed the safety of the product.

Automated cytopathic effect (CPE) assays.

An automated CPE procedure has been developed that increases the precision and ease of performing titrations of measles, mumps and rubella viruses in vaccine materials. By this procedure, additions of cell suspensions and reagents and the dilution of samples are performed automatically by a modified Dynatiter instrument, using 96-well microtitre plates. Cell monolayers are stained with carbolfuchsin dye to eliminate the need for microscopic examination. Finally, the trays are read in an optical scanner and the end points calculated automatically by a programmable calculator. The increased accuracy and precision attained by performing greater numbers of replicate assays at reasonable cost will be of particular value to vaccine manufacturers.

Visualization of bacterial polysaccharides by scanning transmission electron microscopy.

Highly purified capsular polysaccharides of Neisseria meningitidis groups A, B, and C have been visualized by high resolution Scanning Transmission Electron Microscopy (STEM). Spheroidal macromolecules approximately 200 A in diameter are characteristic of the Meningococcus A and C polysaccharides whereas filaments that are 400-600 A in length are found in Meningococcus B polysaccharide preparations. Filaments are occasionally found associated with the spheroidal Meningococcus A and C polysaccharides and it is proposed that these structures are composed of a long (1-4 microns) filament or filaments that are arranged in spheroidal molecules or micelles of high molecular weight. The Meningococcus B polysaccharide, by contrast, is a short flexuous filament or strand of relatively low molecular weight. A relationship between morphology and antigenicity is proposed.

Studies in chimpanzees of live, attenuated hepatitis A vaccine candidates.

Human hepatitis A virus was attenuated in virulence for chimpanzees by passage in FRhK6 and human diploid lung fibroblast cell cultures. A number of variants were developed by passage in cell cultures which showed different levels of virulence/attenuation for chimpanzees. These results were compared to those obtained with marmosets and reported previously. In general, most variants behaved similarly in the two animal types. Two chimpanzees which gave vaccine-like responses following inoculation with HAV cell culture variants were challenged with virulent HAV. Both animals were immune to HAV infection. These findings provide further evidence for the feasibility of developing live, attenuated vaccines against human hepatitis A.