Abstract
Age related changes in the structure and function of the immune system, collectively termed immunosenescence, result in poor responses to infections, increased susceptibility to cancers and increased incidence of autoimmune diseases. The humoral immune response, maintained by the B cell compartment, has a key role in an effective immune system—not only in producing high affinity antibodies that are crucial for vaccination strategies, but in assisting other components of the immune system in their function. Hence an understanding of B cell immunosenescence in particular is vital in designing strategies to combat the effects of age on immune function. Numerous studies have been undertaken using small animal models in order to understand immunosenescence, and these have contributed greatly to our understanding of the events that underpin impaired immune responses. However, there are key differences between the human and the mouse and a clear understanding of these differences is required when extrapolating from one species to the other. In this article we present an overview of B cell development and summarise current data on age-related B cell changes, at both the population level and at the individual mechanistic level. Areas of similarity and difference between human and mouse models are highlighted.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abbas AK, Murphy KM, Sher A (1996) Functional diversity of helper T lymphocytes. Nature 383:787–793
Albright JF, Albright JW (2003) Aging, Immunity and Infection. NJ, Humana Press, Totowa
Allman D, Lindsley RC, DeMuth W, Rudd K, Shinton SA, Hardy RR (2001) Resolution of three nonproliferative immature splenic B cell subsets reveals multiple selection points during peripheral B cell maturation. J Immunol 167:6834–6840
Andersen-Ranberg K, Høier-Madsen M, Wiik A, Jeune B, Hegedus L (2004) High prevalence of autoantibodies among Danish centenarians. Clin Exp Immunol 138:158–163
Anspach J, Poulsen G, Kaattari I, Pollock R, Zwollo P (2001) Reduction in DNA binding activity of the transcription factor Pax-5a in B lymphocytes of aged mice. J Immunol 166:2617–2626
Aydar Y, Balogh P, Tew JG, Szakal AK (2003) Altered regulation of Fc gamma RII on aged follicular dendritic cells correlates with immunoreceptor tyrosine-based inhibition motif signaling in B cells and reduced germinal center formation. J Immunol 171:5975–5987
Bain G, Maandag EC, Izon DJ, Amsen D, Kruisbeek AM, Weintraub BC, Krop I, Schlissel MS, Feeney AJ, van Roon M et al (1994) E2A proteins are required for proper B cell development and initiation of immunoglobulin gene rearrangements. Cell 79:885–892
Banerjee M, Mehr R, Belelovsky A, Spencer J, Dunn-Walters DK (2002) Age- and tissue-specific differences in human germinal center B cell selection revealed by analysis of IgVH gene hypermutation and lineage trees. Eur J Immunol 32:1947–1957
Bergler W, Adam S, Gross HJ, Hormann K, Schwartz-Albiez R (1999) Age-dependent altered proportions in subpopulations of tonsillar lymphocytes. Clin Exp Immunol 116:9–18
Bisset LR, Lung TL, Kaelin M, Ludwig E, Dubs RW (2004) Reference values for peripheral blood lymphocyte phenotypes applicable to the healthy adult population in Switzerland. Eur J Haematol 72:203–212
Blaeser A, McGlauchlen K, Vogel LA (2008) Aged B lymphocytes retain their ability to express surface markers but are dysfunctional in their proliferative capability during early activation events. Immun Ageing 5:15
Breitbart E, Wang X, Leka LS, Dallal GE, Meydani SN, Stollar BD (2002) Altered memory B-cell homeostasis in human aging. J Gerontol A Biol Sci Med Sci 57:B304–B311
Cancro MP (2005) B cells and aging: gauging the interplay of generative, selective, and homeostatic events. Immunol Rev 205:48–59
Chong Y, Ikematsu H, Yamaji K, Nishimura M, Nabeshima S, Kashiwagi S, Hayashi J (2005) CD27(+) (memory) B cell decrease and apoptosis-resistant CD27(−) (naive) B cell increase in aged humans: implications for age-related peripheral B cell developmental disturbances. Int Immunol 17:383–390
Colonna-Romano G, Bulati M, Aquino A, Scialabba G, Candore G, Lio D, Motta M, Malaguarnera M, Caruso C (2003) B cells in the aged: CD27, CD5, and CD40 expression. Mech Ageing Dev 124:389–393
Colonna-Romano G, Aquino A, Bulati M, Di Lorenzo G, Listi F, Vitello S, Lio D, Candore G, Clesi G, Caruso C (2006) Memory B cell subpopulations in the aged. Rejuvenation Res 9:149–152
Colonna-Romano G, Bulati M, Aquino A, Vitello S, Lio D, Candore G, Caruso C (2008) B cell immunosenescence in the elderly and in centenarians. Rejuvenation Res 11:433–439
de Roux A, Schmole-Thoma B, Siber GR, Hackell JG, Kuhnke A, Ahlers N, Baker SA, Razmpour A, Emini EA, Fernsten PD, Gruber WC, Lockhart S, Burkhardt O, Welte T, Lode HM (2008) Comparison of pneumococcal conjugate polysaccharide and free polysaccharide vaccines in elderly adults: conjugate vaccine elicits improved antibacterial immune responses and immunological memory. Clin Infect Dis 46:1015–1023
Dedeoglu F, Horwitz B, Chaudhuri J, Alt FW, Geha RS (2004) Induction of activation-induced cytidine deaminase gene expression by IL-4 and CD40 ligation is dependent on STAT6 and NFkappaB. Int Immunol 16:395–404
Engwerda CR, Handwerger BS, Fox BS (1994) Aged T cells are hyporesponsive to costimulation mediated by CD28. J Immunol 152:3740–3747
Faria AM, de Moraes SM, de Freitas LH, Speziali E, Soares TF, Figueiredo-Neves SP, Vitelli-Avelar DM, Martins MA, Barbosa KV, Soares EB, Sathler-Avelar R, Peruhype-Magalhaes V, Cardoso GM, Comin F, Teixeira R, Eloi-Santos SM, Queiroz DM, Correa-Oliveira R, Bauer ME, Teixeira-Carvalho A, Martins-Filho OA (2008) Variation rhythms of lymphocyte subsets during healthy aging. Neuroimmunomodulation 15:365–379
Farisano G, Trivello R, Moschen ME, Bonello C, Baldo V, Moretti G, Majori S, Marin F, Piron L, Renzulli G (1995) Poliovirus neutralizing antibody persistence after vaccination with the Sabin vaccine: a follow-up study. Ann Clin Lab Sci 25:200–206
Fecteau JF, Cote G, Neron S (2006) A new memory CD27 – IgG + B cell population in peripheral blood expressing VH genes with low frequency of somatic mutation. J Immunol 177:3728–3736
Frasca D, Riley RL, Blomberg BB (2004) Effect of age on the immunoglobulin class switch. Crit Rev Immunol 24:297–320
Frasca D, Landin AM, Alvarez JP, Blackshear PJ, Riley RL, Blomberg BB (2007a) Tristetraprolin, a negative regulator of mRNA stability, is increased in old B cells and is involved in the degradation of E47 mRNA. J Immunol 179:918–927
Frasca D, Riley RL, Blomberg BB (2007b) Aging murine B cells have decreased class switch induced by anti-CD40 or BAFF. Exp Gerontol 42:192–203
Frasca D, Landin AM, Lechner SC, Ryan JG, Schwartz R, Riley RL, Blomberg BB (2008) Aging down-regulates the transcription factor E2A, activation-induced cytidine deaminase, and Ig class switch in human B cells. J Immunol 180:5283–5290
Ghia P, Prato G, Scielzo C, Stella S, Geuna M, Guida G, Caligaris-Cappio F (2004) Monoclonal CD5+ and CD5− B-lymphocyte expansions are frequent in the peripheral blood of the elderly. Blood 103:2337–2342
Gibson KL, Wu YC, Barnett Y, Duggan O, Vaughan R, Kondeatis E, Nilsson BO, Wikby A, Kipling D, Dunn-Walters DK (2009) B-cell diversity decreases in old age and is correlated with poor health status. Aging Cell 8:18–25
Goidl EA, Innes JB, Weksler ME (1976) Immunological studies of aging. II. Loss of IgG and high avidity plaque-forming cells and increased suppressor cell activity in aging mice. J Exp Med 144:1037–1048
Guerrettaz LM, Johnson SA, Cambier JC (2008) Acquired hematopoietic stem cell defects determine B-cell repertoire changes associated with aging. Proc Natl Acad Sci USA 105:11898–11902
Gunn KE, Brewer JW (2006) Evidence that marginal zone B cells possess an enhanced secretory apparatus and exhibit superior secretory activity. J Immunol 177:3791–3798
Hainz U, Jenewein B, Asch E, Pfeiffer KP, Berger P, Grubeck-Loebenstein B (2005) Insufficient protection for healthy elderly adults by tetanus and TBE vaccines. Vaccine 23:3232–3235
Haynes L, Maue AC (2009) Effects of aging on T cell function. Curr Opin Immunol 21:414–417
Huang YP, Gauthey L, Michel M, Loreto M, Paccaud M, Pechere JC, Michel JP (1992) The relationship between influenza vaccine-induced specific antibody responses and vaccine-induced nonspecific autoantibody responses in healthy older women. J Gerontol 47:M50–M55
Huppert FA, Solomou W, O’Connor S, Morgan K, Sussams P, Brayne C (1998) Aging and lymphocyte subpopulations: whole-blood analysis of immune markers in a large population sample of healthy elderly individuals. Exp Gerontol 33:593–600
Jentsch-Ullrich K, Koenigsmann M, Mohren M, Franke A (2005) Lymphocyte subsets’ reference ranges in an age- and gender-balanced population of 100 healthy adults—a monocentric German study. Clin Immunol 116:192–197
Johnson KM, Owen K, Witte PL (2002a) Aging and developmental transitions in the B cell lineage. Int Immunol 14:1313–1323
Johnson SA, Rozzo SJ, Cambier JC (2002b) Aging-dependent exclusion of antigen-inexperienced cells from the peripheral B cell repertoire. J Immunol 168:5014–5023
Kaml M, Weiskirchner I, Keller M, Luft T, Hoster E, Hasford J, Young L, Bartlett B, Neuner C, Fischer KH, Neuman B, Wurzner R, Grubeck-Loebenstein B (2006) Booster vaccination in the elderly: their success depends on the vaccine type applied earlier in life as well as on pre-vaccination antibody titers. Vaccine 24:6808–6811
Kline GH, Hayden TA, Klinman NR (1999) B cell maintenance in aged mice reflects both increased B cell longevity and decreased B cell generation. J Immunol 162:3342–3349
Kolar GR, Mehta D, Wilson PC, Capra JD (2006) Diversity of the Ig repertoire is maintained with age in spite of reduced germinal centre cells in human tonsil lymphoid tissue. Scand J Immunol 64:314–324
Kyle RA, Therneau TM, Rajkumar SV, Larson DR, Plevak MF, Offord JR, Dispenzieri A, Katzmann JA, Melton LJ 3rd (2006) Prevalence of monoclonal gammopathy of undetermined significance. N Engl J Med 354:1362–1369
Labrie JE 3rd, Sah AP, Allman DM, Cancro MP, Gerstein RM (2004) Bone marrow microenvironmental changes underlie reduced RAG-mediated recombination and B cell generation in aged mice. J Exp Med 200:411–423
Ligthart GJ, Radl J, Corberand JX, Van Nieuwkoop JA, Van Staalduinen GJ, Van Helmond DJ, Hijmans W (1990) Monoclonal gammopathies in human aging: increased occurrence with age and correlation with health status. Mech Ageing Dev 52:235–243
Loder F, Mutschler B, Ray RJ, Paige CJ, Sideras P, Torres R, Lamers MC, Carsetti R (1999) B cell development in the spleen takes place in discrete steps and is determined by the quality of B cell receptor-derived signals. J Exp Med 190:75–89
McElhaney JE (2009) Prevention of infectious diseases in older adults through immunization: the challenge of the senescent immune response. Expert Rev Vaccines 8:593–606
Miller JP, Allman D (2003) The decline in B lymphopoiesis in aged mice reflects loss of very early B-lineage precursors. J Immunol 171:2326–2330
Miller JP, Cancro MP (2007) B cells and aging: balancing the homeostatic equation. Exp Gerontol 42:396–399
Min H, Montecino-Rodriguez E, Dorshkind K (2006) Effects of aging on the common lymphoid progenitor to pro-B cell transition. J Immunol 176:1007–1012
Murasko DM, Bernstein ED, Gardner EM, Gross P, Munk G, Dran S, Abrutyn E (2002) Role of humoral and cell-mediated immunity in protection from influenza disease after immunization of healthy elderly. Exp Gerontol 37:427–439
Naniche D, Garenne M, Rae C, Manchester M, Buchta R, Brodine SK, Oldstone MB (2004) Decrease in measles virus-specific CD4 T cell memory in vaccinated subjects. J Infect Dis 190:1387–1395
Olsson J, Wikby A, Johansson B, Lofgren S, Nilsson BO, Ferguson FG (2000) Age-related change in peripheral blood T-lymphocyte subpopulations and cytomegalovirus infection in the very old: the Swedish longitudinal OCTO immune study. Mech Ageing Dev 121:187–201
Oxman MN, Levin MJ, Johnson GR, Schmader KE, Straus SE, Gelb LD, Arbeit RD, Simberkoff MS, Gershon AA, Davis LE, Weinberg A, Boardman KD, Williams HM, Zhang JH, Peduzzi PN, Beisel CE, Morrison VA, Guatelli JC, Brooks PA, Kauffman CA, Pachucki CT, Neuzil KM, Betts RF, Wright PF, Griffin MR, Brunell P, Soto NE, Marques AR, Keay SK, Goodman RP, Cotton DJ, Gnann JW Jr, Loutit J, Holodniy M, Keitel WA, Crawford GE, Yeh SS, Lobo Z, Toney JF, Greenberg RN, Keller PM, Harbecke R, Hayward AR, Irwin MR, Kyriakides TC, Chan CY, Chan IS, Wang WW, Annunziato PW, Silber JL (2005) A vaccine to prevent herpes zoster and postherpetic neuralgia in older adults. N Engl J Med 352:2271–2284
Paganelli R, Quinti I, Fagiolo U, Cossarizza A, Ortolani C, Guerra E, Sansoni P, Pucillo LP, Scala E, Cozzi E et al (1992) Changes in circulating B cells and immunoglobulin classes and subclasses in a healthy aged population. Clin Exp Immunol 90:351–354
Palanichamy A, Barnard J, Zheng B, Owen T, Quach T, Wei C, Looney RJ, Sanz I, Anolik JH (2009) Novel human transitional B cell populations revealed by B cell depletion therapy. J Immunol 182:5982–5993
Riley RL, Kruger MG, Elia J (1991) B cell precursors are decreased in senescent BALB/c mice, but retain normal mitotic activity in vivo and in vitro. Clin Immunol Immunopathol 59:301–313
Rosner K, Winter DB, Kasmer C, Skovgaard GL, Tarone RE, Bohr VA, Gearhart PJ (2001) Impact of age on hypermutation of immunoglobulin variable genes in humans. J Clin Immunol 21:102–115
Rossi DJ, Bryder D, Zahn JM, Ahlenius H, Sonu R, Wagers AJ, Weissman IL (2005) Cell intrinsic alterations underlie hematopoietic stem cell aging. Proc Natl Acad Sci USA 102:9194–9199
Schenkein JG, Park S, Nahm MH (2008) Pneumococcal vaccination in older adults induces antibodies with low opsonic capacity and reduced antibody potency. Vaccine 26:5521–5526
Shi Y, Yamazaki T, Okubo Y, Uehara Y, Sugane K, Agematsu K (2005) Regulation of aged humoral immune defense against pneumococcal bacteria by IgM memory B cell. J Immunol 175:3262–3267
Siegrist CA, Aspinall R (2009) B-cell responses to vaccination at the extremes of age. Nat Rev Immunol 9:185–194
Signer RA, Montecino-Rodriguez E, Dorshkind K (2007) Aging, B lymphopoiesis, and patterns of leukemogenesis. Exp Gerontol 42:391–395
Son NH, Joyce B, Hieatt A, Chrest FJ, Yanovski J, Weng NP (2003) Stable telomere length and telomerase expression from naive to memory B-lymphocyte differentiation. Mech Ageing Dev 124:427–432
Song H, Price PW, Cerny J (1997) Age-related changes in antibody repertoire: contribution from T cells. Immunol Rev 160:55–62
Stephan RP, Sanders VM, Witte PL (1996) Stage-specific alterations in murine B lymphopoiesis with age. Int Immunol 8:509–518
Stephan RP, Lill-Elghanian DA, Witte PL (1997) Development of B cells in aged mice: decline in the ability of pro-B cells to respond to IL-7 but not to other growth factors. J Immunol 158:1598–1609
Stephan RP, Reilly CR, Witte PL (1998) Impaired ability of bone marrow stromal cells to support B-lymphopoiesis with age. Blood 91:75–88
Szabo P, Shen S, Telford W, Weksler ME (2003) Impaired rearrangement of IgH V to DJ segments in bone marrow Pro-B cells from old mice. Cell Immunol 222:78–87
Tangye SG, Good KL (2007) Human IgM + CD27 + B cells: memory B cells or “memory” B cells? J Immunol 179:13–19
Teng G, Hakimpour P, Landgraf P, Rice A, Tuschl T, Casellas R, Papavasiliou FN (2008) MicroRNA-155 is a negative regulator of activation-induced cytidine deaminase. Immunity 28:621–629
van Gent R, van Tilburg CM, Nibbelke EE, Otto SA, Gaiser JF, Janssens-Korpela PL, Sanders EA, Borghans JA, Wulffraat NM, Bierings MB, Bloem AC, Tesselaar K (2009) Refined characterization and reference values of the pediatric T- and B-cell compartments. Clin Immunol 133:95–107
Veneri D, Ortolani R, Franchini M, Tridente G, Pizzolo G, Vella A (2009) Expression of CD27 and CD23 on peripheral blood B lymphocytes in humans of different ages. Blood Transfus 7:29–34
Weill JC, Weller S, Reynaud CA (2009) Human marginal zone B cells. Annu Rev Immunol 27:267–285
Whisler RL, Williams JW Jr, Newhouse YG (1991) Human B cell proliferative responses during aging. Reduced RNA synthesis and DNA replication after signal transduction by surface immunoglobulins compared to B cell antigenic determinants CD20 and CD40. Mech Ageing Dev 61:209–222
Wikby A, Johansson B, Ferguson F, Olsson J (1994) Age-related changes in immune parameters in a very old population of Swedish people: a longitudinal study. Exp Gerontol 29:531–541
Wolters B, Junge U, Dziuba S, Roggendorf M (2003) Immunogenicity of combined hepatitis A and B vaccine in elderly persons. Vaccine 21:3623–3628
Yang X, Stedra J, Cerny J (1996) Relative contribution of T and B cells to hypermutation and selection of the antibody repertoire in germinal centers of aged mice. J Exp Med 183:959–970
Acknowledgments
This work was supported by Research into Ageing (AA) and the Human Frontiers Science Program (Y-CW).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Ademokun, A., Wu, YC. & Dunn-Walters, D. The ageing B cell population: Composition and function. Biogerontology 11, 125–137 (2010). https://doi.org/10.1007/s10522-009-9256-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10522-009-9256-9