Genetic regulation of immunoglobulin G(IgG) responses to pneumococcal capsular polysaccharides (PPS), has been demonstrated in mice but not in humans. Earlier studies from this laboratory showed that healthy adults have a varying capacity to generate IgG antibody to PPS; this study sought to determine whether this capacity is genetically controlled.
Methods
A 23-valent pneumococcal vaccine was adminis-tered to 72 unrelated White adults, 4 nuclear families, and 61 members of an extended Ashkenazic Jewish family. Selected individuals later received one or more doses of the vaccine and/or a single dose of protein-conjugated PPS. Four to six weeks after each vaccination, IgG to PPS was measured by ELISA. Immunoglobulin allotypes and HLA types were deter-mined by standard techniques.
Results
After vaccination, 53% of the 72 unrelated White adults had measurable levels of IgG antibody to all of 10 PPS studied (high-level responders), 36% had IgG to 6-9 PPS, and 11% had IgG to ≤ 5 of 10 PPS (low-level responders). Persons who did not make IgG to an individual PPS also failed to make IgM or IgA to that antigen. Low-level responders had reduced mean IgG levels to PPS to which they did make IgG; nevertheless, their total serum concentrations of IgG, IgG2, IgA, and IgM were normal, and each made IgG2 to at least one PPS, all indicating that a global defect in Ig production was not responsible. The responder status of offspring was highly associated with that of their parents. Segregation analysis of 61 Ashkenazic family members revealed that the capacity to generate anti-PPS IgG was inherited in a mixed, codominant fashion. Repeated vaccination or administration of protein-conjugated PPS did not elicit measurable IgG in nonresponders. The HLA type was not associated with anti-body responses. An association between IgG level and Gm(23)+ allotype was observed in unrelated Whites but not in Ashkenazic Jews.
Conclusions
Thus, humans exhibit a variable capacity to respond to PPS. This response is hereditable in a mixed, codominant fashion. The absence of IgG to a PPS, even after antigen is presented in a protein-conjugate form, may reflect a genetically mediated failure to recognize polysaccharide anti-gens. Since persons who respond to fewer PPS also have lower levels of IgG to PPS to which they do respond, genetically determined deficiencies in events that involve proliferation of committed B lymphocytes may also play a role.
HeffronR.Pneumonia: with special reference to pneumococcus lobar pneumonia. A Commonwealth Fund Book, 1939, Cambridge. Reprinted by Harvard University Press, 1979.
2.
WhiteB.The biology of pneumococcus. The bacteriologic, biochemical and immunological characters and activities of Diplococcus pneumoniae. A Commonwealth Fund Book, 1938, Cambridge. Reprinted by Harvard University Press, 1979.
3.
AustrianR.Some observations on the pneumococcus and on the current status of pneumococcal disease and its prevention. Rev Infect Dis1981;3(Suppl):S1–17.
4.
SpikaJS, FedsonDS, FacklamRR.Pneumococcal vaccination: controversies and opportunities. Infect Dis Clin North Amer1990;4:11–27.
5.
MusherDM, WatsonDA, DominguezE.Pneumococcal vaccina-tion: work to date and future prospects. Amer J Med Sci1990;300:45–52.
HirschmannJV, LipskyBA.The pneumococcal vaccine after 15 years of use. Arch Intern Med1994;154:373–7.
8.
FineMJ, SmithMA, CarsonCA, MeffeF, SankeySS, WeissfeldLA, DetskyAS, KapoorWN.Efficacy of pneumococcal vaccination in adults. A meta-analysis of randomized controlled trialsArch Intern Med1994;154:2666–77.
9.
SmillieWG, WornockGH, WhiteHJ.A study of a type I pneu-mococcus epidemic at the State Hospital at Worcester, Mass. Am J Publ Health1938;28:293–302.
10.
MacLeodCM, HodgesRG, HeidelbergerM, BernhardWG.Prevention of pneumococcal pneumonia by immunization with specific capsular polysaccharides. J Exp Med1945;82:445–65.
HeidelbergerM, MacLeodCM, KaiserSJ, RobinsonB.Antibody formation in volunteers following injection of pneumococci or their type-specific polysaccharides. J Exp Med1946;83:303–20.
13.
AustrianR.The assessment of pneumococcal vaccine. N Engl J Med1980;303:578–80.
14.
RobbinsJD, AustrianR, LeeCJ, RastogiSC, SchiffmanG, HenrichsenJ, MakelaPH, BroomeCV, FacklamRR, TiesjemaRH, ParkeJCJr.Considerations for formulating the second-generation pneu-mococcal capsular polysaccharide vaccine with emphasis on the cross-reactive types within groups. J Infect Dis1983;148:1136–59.
15.
SchiffmanG, DouglasRM, BonnerMJ, RobbinsM, AustrianR.A radioimmunoassay for immunologic phenomena in pneumococcal disease and for the antibody response to pneumococcal vaccines. I. Method for the radioimmunoassay of anticapsular antibodies and comparison with other techniques. J Immunol Methods1980;33:133–44.
16.
KleinRS, SelwynPA, MaudeD, PollardC, FreemanK, SchiffmanGS.Response to pneumococcal vaccine among asymptomatic heterosexual partners of persons with AIDS and intravenous drug users infected with human immunodeficiency virus. J Infect Dis1989;1160:826–31.
17.
SorensenUBS, HenrichsenJ.C-polysaccharide in a pneumococcal vaccine. Acta Path Microbiol Immunol Scand1984;92:351–6.
18.
KoskelaM.Serum antibodies to pneumococcal C polysaccharide in children: response to acute pneumococcal otitis media or to vaccina-tion. Pediatr Infect Dis J1987;6:519–26.
19.
MusherDM, WatsonDA, BaughnRE.Does naturally acquired IgG antibody to cell wall polysaccharide protect human subjects against pneumococcal infection? J Infect Dis1990;161:736–40.
20.
SzuSC, SchneersonR, RobbinsJB.Rabbit antibodies to the cell wall polysaccharide of Streptococcus pneumoniae fail to protect mice from lethal infection with encapsulated pneumococci. Infect Immun1986;54:448–53.
21.
MusherDM, JohnsonBJ, WatsonDA.Quantitative relationship between anticapsular antibody measured by enzyme-linked immunosor-bent assay or radioimmunoassay and protection of mice against chal-lenge with Streptococcus pneumoniae serotype 4. Infect Immun1990;58:3871–6.
22.
NielsenSV, SorensenUBS, HenrichsenJ.Antibodies against pneumococcal C-polysaccharide are not protective. Microb Pathog1993;14:299–305.
23.
SiberGR, PriehsC, MadoreDV.Standardization of antibody assays for measuring the response to pneumococcal infection and immu-nization. Pediatr Infect Dis J1989;8:S84–S91.
24.
MusherDM, LuchiM, WatsonDA, HamiltonR, BaughnRE.Pneumococcal polysaccharide vaccine in young adults and older bron-chitics. determination of IgG responses by ELISA and the effect of adsorption of serum with nontype-specific cell wall polysaccharide. J Infect Dis1990;161:728–35.
25.
GoldblattD, LevinskyRL, TurnerMW.Role of cell wall poly-saccharide in the assessment of IgG antibodies to the capsular polysac-charides of Streptococcus pneumoniae in childhood. J Infect Dis1992;166:632–4.
26.
BakerPJ, BaileyDW, FauntleroyMB, StashakPW, CaldesG, PrescottB.Genes on different chromosomes influence the antibody response to bacterial antigens. Immunogenet1985;22:269–76.
27.
KohlerPF, RiveraVJ, EckertED, BouchardTJ, HestonLL.Genetic regulation of immunoglobulin and specific antibody levels in twins reared apart. J Clin Invest1985;75:883–8.
28.
KonradsenHB, HenrichsenJ, WachmannH, HolmN.The influ-ence of genetic factors on the immune responses as judged by pneu-mococcal vaccination of mono- and dizygotic Caucasian twins. Clin Exp Immunol1993;92:532–6.
29.
GiebinkS, chairman. Proceedings of the International Workshop on Immunologic Assays for Pneumococcal Vaccines; 1994 October 17-18; Atlanta. Cosponsored by the World Health Organization, Centers for Disease Control, National Institutes of Allergy and Infectious Diseases, and Food and Drug Administration.
30.
VyasGN, FudenbergHH, PrettyHM, GoldER.A new rapid method for genetic typing of human immunoglobulins. J Immunol1968;100:274–9.
31.
ZacharyAA, TeresiGA, eds. ASHI Laboratory Manual, American Society for Histocompatibility and Immunogenetics, 2nd ed. 1990.
MusherDM, GrooverJE, GravissEP, BaughnRE.The lack of association between aging and postvaccination levels of IgG antibody to capsular polysaccharides of Streptococcus pneumoniae. Clin Infect Dis1996;22:165–7.
34.
vanDamJEG, FleerA, SnippeH.Immunogenicity and immuno-chemistry of Streptococcus pneumoniae capsular polysaccharides. Antonie Van Leeuwenhoek1990;58:1–47.
35.
GranoffDM, PandeyJP, BoiesE, SquiresJ, MunsonRS, SuarezB.Response to immunization with Haemophilus influenzae type b poly-saccharide-pertussis vaccine and risk of Haemophilus meningitis in chil-dren with the Km(1) immunoglobulin allotype. J Clin Invest1984;74:1708–14.
36.
GranoffDM, SuarezBK, PandeyJP, ShackelfordPG.Genes associated with the G2m(23) immunoglobulin allotype regulate the IgG subclass responses to Haemophilus influenzae type b polysaccharide vaccine. J Infect Dis1988;157:1142–9.
37.
HillemanMR, CarlsonAJJr, McLeanAA, VellaPP, WeibelRE, WoodhourAF.Streptococcus pneumoniae polysaccharide vaccine. age and dose responses, safety, persistence of antibody, revaccination, and simultaneous administration of pneumococcal and influenza vac-cines. Rev Infect Dis1981;3(Suppl):S31–42.
38.
AmsbaughDF, HansenCT, PrescottB, StashakPW, BartholdDR, BakerPJ.Genetic control of the antibody response to Type III pneumococcal polysaccharide. I. Evidence that an X-linked gene plays a decisive role in determining responsiveness. J Exp Med1972;136:931–49.
39.
PandeyJP, FudenbergHH, VirekkaG, KyongCU, LoadholtCB, GalbraithRM, GotschlichEG, ParkeJG.Association between immunoglobulin allotypes and immune responses to Haemophilus influenzae and Meningococcus polysaccharides. Lancet1979;1:190–2.
40.
AmbrosinoDM, MorellA, VassalliG, de LangeGG, SkvarilF, SiberGR.Correlations of G2m(n) and Km(1) allotypes with subclass and light-chain specific antibody. Monogr Allergy1988;23:244–55.
41.
GranoffDM, HolmesSJ.G2m(23) immunoglobulin allotype and immunity to Haemophilus influenzae type b. J Infect Dis1992;165(Suppl):S66–9.
42.
PandeyJP, ZollingerWD, FudenbergHH, LoadholtCB.Immunoglobulin allotypes and immune response to meningococcal group B polysaccharide. J Clin Invest1981;68:1378–80.
43.
PandeyJP, AmbroschF, FudenbergHH, StanekG, WiedermannG.Immunoglobulin allotypes and immune response to meningococcal polysaccharides A and C. J Immunogenet1982;9:25–9.
44.
MorellA, VassalliG, de LangeGG.Ig allotype-linked regulation of class and subclass composition of natural antibodies to group A strep-tococcal carbohydrate. J Immunol1989;142:2495–500.
45.
PandeyJP, BakerCJ, KasperDL, FudenbergHH.Two unlinked genetic loci interact to control the human immune response to type III group B streptococcal antigen. J Immunogenet1984;11:159–63.
46.
AmbrosinoDM, SchiffmanG, GotschlichEC, SchurPH, RosenbergGA, DeLangeGD, van LoghemE, SiberGR.Correlation between G2m(n) immunoglobulin allotype and human antibody response and susceptibility to polysaccharide encapsulated bacteriaJ Clin Invest1985;75:1935–42.
47.
SarvasH, RautonenN, SipinenS, MakelaO.IgG subclass of pneumococcal antibodies—effect of allotype G2m(n). Scand J Immunol1990;29:229–37.
48.
BakerPJ, AmsbaughF, PrescottB, StashakPW.Genetic control of the antibody response to type III pneumococcal polysaccharide in mice. III. Analysis of genes governing the expression of regulatory T cell activityJ Immunogenet1976;3:275–86.
49.
AmbrosinoDM, BarrusVA, DeLangeGG, SiberGR.Correlation of the Km(1) immunologlobulin allotype with anti-polysac-charide antibodies in Caucasian AdultsJ Clin Invest1986;78:361–5.
50.
AlperCA, KruskallMS, Marcus-BagleyD, CravenDE, KatzAJ, BrinkSJ, DienstagJL, AwdehA, YunisEJ.Genetic prediction of nonre-sponse to hepatitis B vaccineN Engl J Med1989;321:708–12.
51.
KruskallMS, AlperCA, AwdehZ, YunisEJ, Marcus-BagleyD.The immune response to hepatitis B vaccine in humans. inheritance pat-terns in familiesJ Exp Med1992;175:495–502.
52.
DeulofeutR, SalazarJ, DeulofeutH, YunisDE, Marcus-BagleyD, AwdehZ, AlperCA, YunisEJ.T-cell precursor frequencies to HBsAg by limiting dilution strongly suggest a defect in T-cells rather than in antigen presenting cellsImmunology1993;37:32.
53.
KantorAB, LeonoreAH.Origin of murine B cells lineagesAnn Rev Immunol1993;11:501–38.
54.
HiernauxJR, GoidlEA, Martin McEvoySJ, StashakPW, BakerPJ, HolmesKL.Characterization of the immunodeficiency of RIIIS/J mice. I. Association with the Ly-1 B cell lineageJ Immunol1989;142:1813–7.
55.
BakerPJ.Suppressors T cells. American Society for Microbology News1993;59:123–8.
56.
SarvasH, RautonenN, KayhtyH, KallioM, MakelaO.Effect of Gm allotypes on IgG2 antibody responses and IgG2 concentrations in children and adults. Int Immunol1990;2:317–22.
57.
WeinbergGA, GranoffDM.Immunogenicity of Haemophilus influenzae type b polysaccharide-protein conjugate vaccines in children with conditions associated with impaired antibody responses to type b polysaccharide vaccine. Pediatrics1990;85(suppl):654–61.
