Genetic Control of the Susceptibility to Bacterial Infection
David E. Briles
Springer Berlin Heidelberg, Apr 1, 1986 - Medical - 176 pages
This series ofreviews focuses on recent developments in understandingbacterialpathogenesisthathavebeengained by studying the genetic control of the susceptibility to particular diseases. The topics of the reviews include a description ofbacterial genes that effect virulence and a studyofthe genetic susceptibilityofhumans to group A streptococci and to leprosy. The most versatile model system for studies of disease susceptibility is the inbred mouse. Although seven of the chapters deal with the geneticsoftheresistanceofmice to infection, allofthem point out general principles and, wherever possible, parallelswithappropriatehumandiseases. Genetic studies of the mechanisms of resistance and pathogenesishaveanadvantageoverotherapproaches. By utilizing animals ofappropriate genotypes, it is possible tostudytheinvivoconsequencesofvariationsinparticular hostdefensesinintactanimals.Someofthemoderngenetic approachesusedinmousegeneticsarealsodescribed. Allofthechaptersdealingwithmousegeneticsdescribe studieswithrecombinantinbredmice.Achapterhasbeen included thatdescribesapproaches for the useofmice in genetic studies of disease resistance. This chapter also describesrecombinantinbred miceandameans bywhich theycanbeusedtoexaminethelinkageofgenesaffecting diseaseresistance. Thebulkofthevolumefocusesonthegeneticregulation by three different murine loci: Ips, xid, and fty. fty was the first name given to a locusthatgoverns resistance to infections with leishmania, bacille Calmette-Guerin and salmonella. Different reviews describe the relationshipof thefty locusto thediseasescaused bytwoofthese three pathogens. Thesetwo reviewsalsoincludeadiscussionof other geneticfactors that affect the susceptibilityofmice toeachpathogen.TworeviewsaredevotedtotheX-linked immunodeficiency (xid) locus. One describes the pre sent state of immunological knowledge about the immunological deficits that have been shown to be VI Preface associatedwiththedefectivexidallele.Theotherdescribes theeffectoftheseimmunodeficienciesonthesusceptibility of mice to infection with Streptococcus pneumoniae. Anotherchapter describes the effectsofthe Ips locus on the immune system and the concomitant effects these changeshaveontheresistancetobacterialinfection.There is also a chapter describing genetic studies that examine the relationship between the genetic control of certain macrophage properties and the susceptibility to Listeria infection.
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E Briles W H Benjamin Jr W J Huster
Influence of Host Genes on Resistance
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activity alleles animals anti-PC antibodies antigens associated B-cell bacilli backcross bacterial BALB/c Briles C3H/HeJ mice C3HeB/FeJ CBA/N mice cellular chromosome coli complement congenic defect disease effects endotoxin etal expression Genetic control growth host IgA responses IgG3 immune response Immunol immunologically induced Infect Immun innate resistance intravenous Kongshavn lipopolysaccharide Listeria monocytogenes listeriosis loci locus Lps gene LPS responsiveness lymphocytes macrophages marker mechanisms mediated mice to Salmonella microbe Microbiology mitogenic murine mutants natural resistance normal mice O'Brien oral tolerance pathogenic Peyer's patches phagocytic phagocytosis phenotype phosphocholine pneumococcal pneumoniae polysaccharide protective protein recombinant inbred regulation resistance genes resistance to infection rheumatic fever RI strains role Rosenstreich DL Salmonella infection Salmonella typhimurium Scher serum Skamene specific spleen spleen cells splenic strains of mice streptococcal streptococcal antigens studies tion tissues trait tuberculosis typhimurium infection vaccine virulence vitro vivo X-linked xid B cells xid mice