Izzeldin Abusugra

Immunity in neonates

Passively derived maternal immunity hampers active immunization of newborns. Further, an immature immune system contributes to a weak and Th2 polarized immunity. This state of immunity in early life sustains endemic infections in man and continuous reinfections in animal herds. The endemic infections of the young occur preferentially when the immune system is still functionally immature and when the low levels of maternal antibodies are no longer protective but yet blocks protective immune responses. Vaccines overcoming these problems would have strong positive effects on the herd health and environmental benefits. The Th2 bias of the newborn is mediated by high levels of progesterone and Th2 cytokines produced in the maternal-fetal interface. The activity of the innate system is enhanced in the mother during the prepartus period, certainly having effects on the offspring. Newborn, 2-days-old, mice can be primed with Sendai virus envelope proteins as model antigens to induce Th1 or Th2 responses, dependent on the supplementation of the virus antigen formulation with Th1 or Th2 adjuvants. This priming has a strong life-long effect when complemented with subsequent boosts. However and importantly this priming effect can be modulated by adjuvants focusing for Th1 and Th2 when applied to the mice at 6 weeks of age, i.e. when they are immunologically adult. It has been shown in various species, besides mice, i.e. dog, sheep, horse and seal, that a strong Th1 driving adjuvant can induce immune response and protection in newborns when conventional vaccines fail. In conclusion, the Th2 bias prevailing around partus can be overcome by appropriate immunological treatments, permitting effective vaccination and protective immunity in the newborn.

Close relationship between mink influenza (H10N4) and concomitantly circulating avian influenza viruses

SummaryStrains of an influenza H10N4 virus have been isolated during an outbreak of a respiratory disease in mink on the south-east coast of Sweden. This was the first example of a disease in mammals caused by the H10 subtype. We compared the A/mink/Sweden/84 strain with two recent avian H10N4 isolates, one from fowl and another from a mallard, both isolated in Great Britain in 1985 as well as the prototype A/chicken/Germany/N/49 (N10N7). The comparison was carried out by genomic analysis of the strains by oligonucleotide fingerprinting and in bioassays on mink. The oligonucleotide fingerprint analysis revealed a high degree of genomic homology of around 98% between the viruses from mink, mallard and fowl. Only the recent avian isolates, that from the mallard and fowl could infect mink by contact, causing similar pathological and clinical signs and inducing seroconversion as did the mink virus. However, the susceptibility of mink to the fowl and mallard viruses by contact was less pronounced than that to the mink virus. Both the genomic homology and the similarities from the infectivity and pathogenicity studies between the mink virus and the recent avian isolates point to a direct invasion of the mink population by an avian H10N4 virus.

ISCOM vaccine against contagious bovine pleuropneumonia (CBPP). 1. Biochemical and immunological characterization.

A better vaccine than the existing ones against contagious bovine pleuropneumonia (CBPP) caused by Mycoplasma mycoides subsp. mycoides small colony type (MmmSC) would improve the chances for eradication of CBPP. In such an effort, immunostimulating complexes (ISCOMS) have been prepared from the whole detergent-solubilized cells of MmmSC and characterized biochemically and immunologically. The most efficient detergent for solubilization of the mycoplasma was MEGA-10 which yielded a high recovery of proteins in the ISCOMS. The ISCOMS showed the typical cage-like structure by EM and sedimented as 19S by sucrose gradient centrifugation. The protein pattern of the ISCOMS, analyzed in SDS-PAGE, revealed a great number of bands distributed along the gel as high and low molecular weight polypeptides. The Western blot developed with a serum from a CBPP infected animal detected a reduced number of polypeptides. In samples from whole mycoplasma cells and in ISCOMS, lectin blots revealed more than 20 carbohydrate structures. The ISCOMS induced a strong primary antibody response in mice measured by ELISA and the boost resulted in a 6-fold increase of the serum antibody response. The IgG response was distributed into various IgG subclasses with high IgG1, IgG2a and IgG2b titres while the IgG3 response was low. In cattle the ISCOM vaccine induced strong primary and long lasting secondary antibody responses of similar magnitudes as those of naturally infected animals as recorded by ELISA which persisted more than a year. IgG response was equally distributed in IgG1 and IgG2 subclasses. Also a cell-mediated immune response measured by proliferation assay was induced by low dose of ISCOMS. In the growth inhibition test, sera from vaccinated cattle readily inhibited colony growth already after the first immunization.

Genetic drift of equine 2 influenza A virus (H3N8), 1963-1988: analysis by oligonucleotide mapping.

Comparative analysis by RNA oligonucleotide fingerprints of total genomic RNA as well as the individual RNA segments of equine 2 influenza A virus strains from 1963, 1968, 1979, 1984, 1987 and 1988 revealed genetic diversity. Strains from the epizootic outbreak during 1978-1979 showed minor differences among their genomes. The Swedish isolates from 1979 up to 1988 showed increasing genomic heterogeneity indicating genetic drift.

Simplified polyacrylamide gel electrophoresis and silver staining for analysis and preparation of influenza virus RNA segments

The influenza virus has a genome consisting of eight RNA segments. A simplified technique to study the RNA segmental pattern by silver staining after gel electrophoresis has been developed. In addition, individual RNA segments could be isolated by a combination of polyacrylamide gel electrophoresis and isotachophoresis.