SummarySelf-reactive B cells from tolerant double-transgenic (Dbl-Tg) mice coexpressing hen egg lysozyme (HEL) and rearranged anti-HEL immunoglobulin genes have a relatively short life span when compared to normal B cells, irrespective of whether they are exposed to antigen in multivalent membrane-bound form (mHEL-Dbl-Tg mice) or soluble form (sHEL-Dbl-Tg mice). The factors responsible for determining the fate of these B cells after encounter with self-antigen were investigated using a cell-tracking technique in which anti-HEL Ig-Tg spleen ceils were labeled with the intracellular dye 5-carboxyfluorescein diacetate-succinimidyl ester (CFSE) and injected either into non-Tg recipients or a variety of HEL-Tg hosts. In non-Tg recipients, HEL-binding B cells persisted in the circulation and could be detected in the follicles of the spleen for at least 5 d. On transfer into either mHEL-Tg or sHEL-Tg hosts, they underwent activation and then rapidly disappeared from the blood and spleen over the next 3 d, consistent with the short life span reported previously. Immunohistology of spleens from sHEL-Tg recipients indicated that the transferred B ceils had migrated to the outer margins of the periarteriolar lymphoid sheath (PALS), where they were detectable for 24 h before being lost. The positioning of B cells in the outer PALS depended on a critical threshold of Ig receptor binding corresponding to a serum HEL concentration between 0.5 and 15 ng/ml, but was not restricted to endogenously expressed HEL in that the same migratory pattern was observed after transfer into non-Tg recipients given exogenous (foreign) HEL. Moreover, bone marrow-derived immature Ig-Tg B cells homed to the outer PALS of sHEL-Tg mice and then disappeared at the same rate as mature B cells, indicating that the stage of maturation did not influence the fate of self-reactive B cells in a tolerant environment. On the other hand, HEL-binding B cells transferred into sHEL-Dbl-Tg recipients persisted over the 3-d period of study, apparently due to insufficient availability of antigen, as indicated by the fact that the degree of Ig receptor downregulation on the transferred B cells was much less than in sHEL-Tg recipients. If T cell help was provided to Ig-Tg B cells at the time of transfer into sHEL-Tg recipients in the form of preactivated CD4 + T cells specific for major histocompatibility complex-peptide complexes on the B cell surface, HEL-binding B cells migrated through the outer PALS of the spleen to the follicle, where they formed germinal centers, or to adjacent red pulp, where they formed proliferative foci and secreted significant amounts of anti-HEL antibody. Taken together, these results indicated that the outcome of the interaction between self-antigen and B cells is largely determined by a combination of the degree of receptor engagement and availability ofT cell help.A utoimmune disorders are frequently characterized by the presence of autoantibodies. The mechanisms whereby B ceils are normally prevented from producing such antibodies ha...
Summary Debate has surroutided the subject of B cell life span since it was first measured in mice in the early 1970s. In the 25 years which have passed since then, it has become increasingly apparent that the methods employed to measure rates of B cell turnover, such as pH]-thymidine labelling, cell transfer or cell ablation, brought about significant disruptions to normal physiology which in themselves might have affected B cell turnover. More recently the use of bromodeoxyuridine has overcome many of these methodological difficulties and has allowed rates of B cell renewal to be measured within B cell subpopulations defined by multiparameter flow cytometry. Such studies have largely resolved the issue, concluding that about 85% of peripheral B cells are phenotypically mature and display first-order exponential kinetics defined by a half-life of 5-6 weeks, whilst the remainder are short-lived with a life span of several days. This review examines both traditional atid recent methods and discusses the influence of age, self-tolerance and randomness in the overall shaping of a kinetically stable mature B cell population.Key words: B cell. B cell life spanClonal selection depends on the presence of a diverse antigen-receptor repertoire. Control of the size, diversity and antigenic specificities of the B cell compartment is crucial to our understanding of how antibodies are produced. One critical variable which influences the composition of the B cell repertoire in vivo is the population life span of the cells within it. Despite this. B cell life span has evoked widespread controversy in the immunological community (see Immunology Today, Forum on B cell life spans. January 1993). It is known that B cells are produced continuously throughout the life of the host in sufficient numbers to replace the entire peripheral B cell pool within a matter of days.' If the life span of all B cells were as brief as this figure might imply, however, immunological memory could not reside at the cellular level and immune responses would necessarily depend on selection of B cells out of a repertoire derived exclusively from germ line Ig genes. On the other hand, if the majority of peripheral B cells were long-lived, immunological memory could reside at the cellular level, but its persistence would depend on cells with the greatest longevity. For this to occur, newly generated virgin B cells would need to undergo some fonn of selection before entering the long-lived compartment, a process which would play an essential role in shaping the composition of the B cell repertoire. Such a selection process might be random, based on antigen encounter, or might be influenced by anti-self .specificity. An appreciation of factors influencing B cell life span in the pre-immune and antigen experienced compartments can help us to conceptualize how the B cell repertoire develops and shed light on mechanisms of both B cell memory and tolerance.
Immune deficiency diseases are often accompanied by abnormalities in one or both arms of the specific immune system. Impairment can often be detected as a decrease in the number of T or B lymphocytes or their products in the circulation, but questions are often asked as to the functional capabilities of T lymphocytes in patients with recurrent infections. Function of T cells has traditionally been measured by their uptake of [ 3 H]-thymidine following stimulation with antigen or mitogen in vitro. However, the ability of carboxyfluorescein succinimidyl ester (CFSE) to label lymphocytes intracellularly and track their mitotic activity by progressive twofold reduction in fluorescence intensity prompted an alternative methodology based on flow cytometry, an approach which has the advantage of allowing specific gating on particular T cell subsets and simultaneous assessment of activation markers. This method was therefore evaluated for T cell responses to mitogen and antigen. Phytohaemagglutinin-induced blast transformation of CFSE-labelled T cells was reflected by an increase in forward and orthogonal light scatter and a progressive two-fold decrease in CFSE fluorescence intensity. These changes allowed the derivation of various measures of mitotic activity, which correlated well with [ 3 H]-thymidine uptake. Patients with T cell functional deficiencies showed impairment in their responses by both assays, whereas the CFSE-based assay demonstrated that impaired blastogenesis was not simply due to depressed T cell numbers. Concomitant measurement of the activation markers CD69 and CD25 showed that CD69 was rapidly expressed on non-mitotic cells and that this expression was progressively diluted with subsequent rounds of cell division. In contrast, CD25 expression was unaffected by cell cycle, but was expressed in proportion to the PHA dose. Antigenspecific responsiveness to Candida was also assessed using a CFSE-based assay. Initial gating on the relatively minor population of T cells that underwent blast transformation demonstrated progressive twofold dilutions of CFSE intensity in responsive cells. These normal Candida responses, found in patients who had recovered from Candida infection, contrasted with those who had not been infected with Candida or who had chronic recurrent infection, in whom neither blast transformation nor significant mitosis could be detected. Again, there was good correlation with [ 3 H]-thymidine uptake. The CFSE-based assays are equivalent to traditional measures of mitogenand antigen-specific T cell responsiveness in the diagnostic laboratory and have significant advantages in terms of decreased labour intensiveness, avoidance of radioactivity, the ability to gate on a specific population of lymphocytes and the concomitant measurement of activation markers.
Measurement of the T cell blastogenic response to Candida may be useful in the evaluation of patients with suspected immunodeficiency. The classic blastogenesis assay is based on uptake of [3H]thymidine by peripheral blood lymphocytes stimulated with Candida antigens for 5 days. An alternative approach involves staining peripheral blood lymphocytes with the intracellular fluorescent dye carboxyfluorescein succinimidyl ester (CFSE) and measuring mitotic activity by the successive twofold reductions in fluorescent intensity using flow cytometry (FCM). The two approaches were compared in 16 subjects who demonstrated various proliferative responses to Candida. FCM‐derived indices all involved initial gating on CD3+ T cells and included 1) blastic transformation as measured by changes in light scatter, 2) cell division, measured by CFSE fluorescence, and 3) CD69 expression. A good correlation was found between [3H]thymidine uptake and CFSE‐derived indices, irrespective of the analysis algorithm used to interpret CFSE division profiles. Furthermore, significant T cell proliferation occurred only in subjects who had had one or more symptomatic episodes of vaginal candidiasis whereas controls with no such history, and patients with chronic vaginal infection, showed minimal proliferation. The increase in proportion of CD69+ T cells in culture also correlated with the blastogenic response to Candida, but less well than mitotic indices. CFSE‐derived indices of T cell blastogenesis to Candida are equivalent to [3H]thymidine‐based assays and may allow useful laboratory distinction between subjects who have been exposed to and recovered from vaginal Candida infection, who have a strong proliferative response, from those with no exposure or chronic infection who demonstrate a poor response. Cytometry (Comm. Clin. Cytometry) 34:143–151, 1998. © 1998 Wiley‐Liss, Inc.
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