Jejunal Peyer's Patches Research Articles

Transport of low and high molecular peptides across rabbit Peyer's patches.

The permeability of peptides across rabbit jejunal epithelium (JE) and Peyer's patches (PP) was compared. Kyotorphin (L-tyrosyl-L-arginine) was almost completely hydrolyzed during its membrane transport in both PP and JE, but [D-Arg2]Kyotorphin (L-tyrosyl-D-arginine) was less hydrolyzed in PP than in JE. Since the permeability of intact [D-Arg2]Kyotorphin was almost equal in PP and JE, no superiority of PP to JE was found for dipeptide transport. More intact fluorescein isothiocyanate (FITC)-labeled bovine serum albumin (FITC-BSA) and concanavalin A (FITC-Con A) were transported in PP than in JE. At both absorption sites, the transport of the intact FITC-Con A was superior to that of the intact FITC-BSA. Colchicine significantly reduced the total transport of the intact and degradation forms of both peptides and the reduction ratio was greater in PP than in JE. Accordingly, it was suggested that PP can be used as prominent absorption sites for polypeptides since they have lower peptidase activity and higher endocytosis activity than JE.

Differential binding of lectins to M cells and enterocytes in the rabbit cecum

Background : The afferent limb of the intestinal immune system is represented by the gut-associated lymphoid tissue, in which antigenic material, including complete bacteria, is taken up from the lumen by specialized epithelial cells (M cells). Because the adherence of micro-organisms to epithelia can be mediated by lectin-sugar bindings, the glycoconjugates of the surfaces of M cells and enterocytes were compared. Methods : A set of 28 lectins and corresponding sugars was used for light and electron microscopy of fixed and unfixed sections. M cells were identified by anti-vimentin antibodies. Results : M cells of the cecal lymphoid patches selectively bound lectins specific for fucose or N-acetylgalactosamine. The labeled glycoconjugates were located in the apical membrane and in the membrane of vesicles in the apical cytoplasm. Enterocytes were selectively labeled by galactose-specific lectins. In contrast, the lectin-reactivity of M cells and enterocytes did not differ in the jejunal Peyer's patches. Conclusions : The results suggest that there may be selectivity mediated by glycoconjugates in the uptake of antigenic material by cecal M cells but not by jejunal M cells.

Rat intestinal M cells contain acidic endosomal-lysosomal compartments and express class II major histocompatibility complex determinants

Background: It is generally believed that M cells do not modify the antigens they transport from the intestinal lumen to underlying immunocompetent cells because it has been reported that M cells contain few elements of the lysosomal system. Methods: We used specific cytochemical and immunocytochemical probes to examine whether M cells in jejunal Peyer's patches of adult rats contain the requisite intracellular components to process and potentially present endocytosed antigens. Results: M cells contained acid phosphatase-enriched prelysosomelike and lysosomelike structures. A basic congener of dinitrophenol, which concentrates in acidic cell compartments, is localized following its instillation into Peyer's patch-containing ligated jejunal loops to the endosomal-lysosomal system of M cells. Prelysosomelike and lysosomelike structures in ultrathin cryosections of M cells reacted with polyclonal antibody to a membrane glycoprotein (Igp 120) enriched in prelysosomes and lysosomes. Using monoclonal antibody 0X6 as a probe, M cells expressed the major histocompatibility complex (MHC) class II determinant, la, on the basolateral plasma membrane and in organelles with structural features of endosomes, prelysosomes, and lysosomes. Expression was enhanced by pretreatment with interferon gamma. Conclusions: M cells possess acidic endosomal and acid phosphatase-containing prelysosomal and lysosomal compartments and express MHC class II determinants. Hence, M cells may have the capacity to process and present endocytosed antigens to adjacent intraepithelial T lymphocytes.

Phenotype and function of stromal cells cloned from the ileal Peyer's patch of sheep.

The ileal Peyer's patch (PP) is the major site of B cell production and immunoglobulin diversification in lambs, but the factors which regulate these processes are poorly understood. As a first step toward identifying possible regulatory mechanisms, stable long-term cultures of ileal PP stromal cells were established at the clonal level. Four distinct cell types were identified by their phenotype and growth requirements. Immunohistochemical staining confirmed that all clones were mesenchymal (vimentin+; cytokeratin-) in origin and were negative for T cell, B cell, and macrophage markers. Three cell lines were negative for major histocompatibility complex (MHC) I and II molecules, but one cell line, SCN, expressed MHC I, MHC II and CD44 molecules, and a subpopulation of SCN cells expressed BAQ44A, a B cell differentiation molecule. The four cell lines produced different types and amounts of extracellular matrix proteins, and their growth was not influenced by exogenous human interleukin 1 (IL-1), IL-2, transforming growth factor beta 1 (TGF beta 1), or bovine fibroblast growth factor (FGF) but was influenced by serum. When tested for their capacity to support lymphocyte growth, all clones produced a soluble factor(s) that was mitogenic for ileal and jejunal PP cells and thymocytes. Similar growth promoting activity was observed with culture supernatants of murine, human and bovine fibroblasts but could not be reproduced using recombinant human cytokines. Furthermore, coculture of stromal cells with ileal PP follicular B cells elicited a proliferative response unique to each stromal cell line. Coculture with increasing numbers of SCN cells inhibited B cell proliferative responses, whereas coculture with SCG2 and SCF32 cells enhanced B cell proliferative response at both low and high stromal cell densities. Ileal PP follicular B cells rapidly bound to the surface of all stromal cell clones, and this interaction was specific when compared with thymocytes or peripheral blood lymphocytes. These results suggest that ileal PP stromal cells are a phenotypically and functionally heterogeneous population that may enhance or inhibit B lymphopoiesis in the ileal PP.

Development of the B- and T-cell compartments in porcine lymphoid organs from birth to adult life: an immunohistological approach

Using immunohistological techniques, we studied the development over time of B- and T-cell compartments in the lymphoid organs of specific-pathogen-free pigs. Tissue samples were collected at various time-points, starting 2 days before the pigs were born until the pigs were 10 months old. The samples were collected from the spleen, thymus, peripheral lymph node, mesenteric lymph node, duodenum, jejunum, ileum, jejunal Peyer's patch and ileal Peyer's patch. Monoclonal antibodies specific to B- and T-cells were used to identify where the following cells were localized: IgM-B cells (cells positive to surface immunoglobulin), IgM-, IgG- and IgA-containing cells (cells positive to cytoplasmic immunoglobulin), and CD2-, CD4- and CD8-positive cells. The development of the B- and T-cell subpopulations in each organ was analysed. Two days before birth, most organs contained quantities of IgM-B cells. The spleen, lymph nodes, Peyer's patches and, notably, the thymus, contained some immunoglobulin-containing cells (Ig-CC); this finding indicates that pigs have cells that secrete immunoglobulins before birth. Just after birth, the incidence of Ig-CC increased in most organs; first IgM-CC increased, then either IgG- or IgA-CC increased, depending on the organ. T-cell development was observed clearly in spleen and in the lamina propria of the small intestine, in contrast to other organs, in which the T-cell compartments containing various T-cell subpopulations were well developed before birth. Comparison of the incidence of CD4 + and CD8 + cells showed that the CD4:CD8 ratio of these cells in the spleen, lymph nodes, Peyer's patches and small intestine is low, especially in adult pigs, compared with the CD4:CD8 ratio in other species. Weaning had little influence on the incidence of B- and T-cells in lymphoid organs. This study is the first immunohistological survey to describe the development of the major B- and T-cell subpopulations in various lymphoid organs of pigs, and it should be useful for future immunopathological and comparative immunological studies in pigs.

Isolation and phenotypic and functional characterization of cells from Peyer's patches in the dog

Cells were isolated from canine Peyer's patches (PPs) and their phenotype and capacity to secrete immunoglobulins in vitro were determined. Cells isolated from duodenal and jejunal PPs of adult dogs consisted of 91.4% lymphocytes and 1.6% macrophages with 55.4% mIg +-cells and 35.6% Thy-1 +-cells. In vitro IgA secretion by pokeweed mitogen (PWM)-stimulated PP cells exceeded that by cells from other lymphoid tissues and was specifically increased by concanavalin A, suggesting a role for isotype-specific T-cells. Comparison of duodenal and jejunal (proximal) PPs and the ileal PP revealed that the ileal PP contained fewer T-cells, fewer mIgA +-cells and more mIgM +-cells. Cells from the ileal PP produced very little IgA and IgG, but abundant IgM in vitro. These data suggest that the proximal PPs of dogs are important in the generation of IgA B-cells, similar to PPs of rodents. The ileal PP of dogs may have a function in the early development of the B-cell system of the dog.

Aminopeptidase activity in the jejunal and ileal Peyer's patches of the albino rabbit.

The objectives of this study were (a) to compare the aminopeptidase activity in the Peyer's patches of the jejunum and ileum of the albino rabbit against that in the adjacent patch-free segments and (b) to determine the relative sensitivities of the aminopeptidase activity in the Peyer's and non-Peyer's patches to aminopeptidase inhibitors and penetration enhancers. The results indicated that the Peyer's patches were about equal in aminopeptidase activity in the jejunum and in the ileum but were only 20-30% as rich in aminopeptidase activity as their neighboring patch-free areas. Compared to non-Peyer's patches, the aminopeptidase activity in the Peyer's patches was not as sensitive to the inhibitory effect of amastatin. It was, however, much more sensitive to the inhibitory effect of puromycin and p-chloromercuribenzoate and was somewhat more sensitive to the inhibitory effect of Na deoxycholate, Na glycocholate, and polyoxyethylene-9-lauryl ether. Therefore, based on substrate preferences and on the relative sensitivity of aminopeptidase activity to inhibition by aminopeptidase inhibitors and penetration enhancers, the relative proportions of various aminopeptidases in the Peyer's patches and in the non-Peyer's patches are likely different.

Ontogeny, distribution and structure of aggregated lymphoid follicles in the large intestine of sheep

Aggregates of lymphocytes were demonstrated from 70 days gestation (term 150 days in sheep) in the proximal colon and rectum. Immunoperoxidase staining for 5′-bromo-2′-deoxyuridine incorporation and IgM, indicated that the lymphocyte population of lymphoid follicles in fetal sheep colon was actively dividing and surface IgM positive. Enzyme histochemistry for 5′-nucleotidase showed that the lymphocytes developed in a meshwork of positive reticular cells, suggestive of developing follicles. Follicle aggregates were distributed in a characteristic pattern in lambs, with major accumulations in the ascending colon and in the rectum. In adult sheep a partial atrophy of follicle aggregates was observed. The microscopic structure of large intestinal aggregates showed similarities to the jejunal Peyer's patch (PP), with broad follicles containing a prominent corona and wide interfollicular areas in older lambs. The apparent deep penetration of crypts into the lymphoid tissue proper, which is a frequently reported phenomenon for colon follicles, was dependent on the contractile state of the mucosa, as judged from its absence in specimens where the intestinal wall had been stretched before fixation.

Apoptosis is associated with the extensive B cell death in the sheep ileal Peyer's patch and the chicken bursa of Fabricius: A possible role in B cell selection

The ileal Peyer's patch (PP) and the bursa of Fabricius have major roles in populating the B cell system in sheep and chickens, respectively. These tissues contain greater than 90% B cells and possess a massive proliferation index with greater than 5% of B cells entering mitosis per hour. Paradoxically, almost all of the B cells produced in these sites rapidly die in situ. Here we show that the extensive B cell death occurring in the ileal PP and bursa is associated with apoptosis. Gel electrophoresis of ileal PP cell DNA from 7-14 week-old lambs and bursal cell DNA from 4-week-old chickens demonstrated a laddering of DNA in multiples of approximately 200 bp, a pattern indicative of apoptosis. In sheep, the intensity of the laddering pattern seen after agarose gel electrophoresis was always greater with ileal PP cell DNA compared with thymocyte DNA, and usually greater than jejunal PP cell DNA. Likewise, DNA isolated from chicken bursal cells and mouse PP cells always exhibited a more intense laddering pattern than chicken or mouse thymocytes, respectively. When placed in culture ileal PP cells died rapidly less than 40% viable cells were recovered after 24 h. Within 6 h of culture many ileal PP cells exhibited an apoptotic appearance in that they contained condensed chromatin and fragmented nuclei. Moreover, greater than 55% of total cellular DNA was fragmented. Compared with thymocytes, ileal PP cells underwent DNA fragmentation to a much greater extent and with a faster time course in short-term culture. We propose that cell death by apoptosis may make an important contribution to B cell development in the lamb ileal PP and the chicken bursa. Apoptosis may provide a mechanism for the diversification of the B cell immune repertoire and/or the selection of non-self reactive B cells.

The intestinal habitat for organized lymphoid tissues in ruminants; comparative aspects of structure, function and development

Unlike the Peyer's patches of rats and mice, which are considered to be secondary lymphoid organs, the ileal Peyer's patch of sheep is thought to be responsible for the primary generation of B cells, like the bursa of Fabricius of birds. The ileal Peyer's patch of sheep shows prenatal maturation, antigen-independent lymphopoiesis, a rate of lymphocyte production larger than that of the thymus, and involution at a young age. Follicles contain few T cells and have an IgM +, relatively immature B lymphocyte population, as judged by B-cell differentiation markers. The follicle-associated epithelium of the ileal Peyer's patch is of a special type that sheds carbonic anhydrase-rich, 50-nanometer membrane-bounded particles (carbonic anhydrase-reactive particles; CAP) into the intercellular spaces. The CAP filter into the follicle centre and are taken up by lymphocytes. They represent the epithelial (bursa-like) element in an otherwise mesenchymal stroma of reticular cells embedding the follicle lymphocytes. Transepithelial transport of macromolecules, with the formation of multivesicular body-like cytoplasmic vacuoles, appears to be the basis for CAP formation. The jejunal Peyer's patches are devoid of CAP, persist in the adult animal, contain M cells with clusters of B cells in the follicle-associated epithelium, and have many CD4 + lymphocytes in the follicles and in the interfollicular areas. Aggregates of lymphoid follicles in the large intestine resemble the jejunal Peyer's patches with respect to their lymphocyte population and the ileal Peyer's patch with respect to their follicle-associated epithelium.

Ilal Peyer's patch emigrants are predominantly B cells and travel to all lymphoid tissues in sheep

The ileal Peyer's patch (PP) was selectively labeled with fluorescein isothiocyanate by extracorporeal perfusion in 7-12 week-old lambs and the lymphocyte lineage and fate of the emigrants was determined by fluorescence microscopy and flow cytometry. PP emigrants were found in all tissues examined, accounting for 10%-15% of ileal mesenteric lymph node (MLN). 1%-2% of jejunal MLN, jejunal PP, prescapular lymph node (PLN) and 3%-4% of spleen cells. All ileal PP emigrants enter the ileal MLN on their way to the circulation. Removal of the MLN prior to perfusion enabled emigrants to go directly to the circulation and extravasate in distant tissues faster than in intact animals. The ileal MLN might provide an additional level of regulation for ileal PP emigrants. The perfused ileal PP contained about 25 times more B cells than T cells. The emigrant cells found in different tissues included both T and B cells but came to reflect, although to a lesser degree, the B cell composition of the tissue from which they were derived. One day after perfusion the composition of PP emigrants was similar to that of the tissue within which they were found; the spleen was the exception with a bias towards B cells. By day 3 the ratio of B to T cells in the PP emigrants was 1 for jejunal MLN and PLN. 1.5 for ileal MLN and jejunal PP, and 4-5 for the spleen and blood. It was concluded that the PP-derived T cells were recirculating T cells that were in the ileal PP at the time of perfusion. These cells emigrated rapidly and equilibrated such that they accounted for about 1.5% of the T cell pool in various tissues. Most PP-derived B cells were probably produced in the PP. The greatest contribution (24.4%) that ileal PP emigrants made to the B cell pool of a tissue was with the ileal MLN through which they are obliged to pass. The contribution was lower but still very significant in blood (8.9%), spleen (6.8%), PLN (3.9%), jejunal MLN (3.5%) and jejunal PP (1.8%). There was no evidence that ileal PP emigrants made a greater relative contribution to either T or B cell populations in MLN or jejunal PP than to non-gut-associated sites. The B cells were distributed throughout the immune system, which is in accordance with the proposal that the ileal PP is a site of primary B cell genesis in sheep.

Ultrastructure and alkaline phosphatase activity of the dome epithelium of canine Peyer's patches

The dome epithelium of Peyer's patches from different parts of the intestine of four dogs was examined by scanning and transmission electron-microscopy and by alkaline phosphatase histochemistry on glycol-methacrylate embedded sections. M cells were scattered among more numerous enterocytes in duodenal and jejunal Peyer's patches, but constituted the major cellular component of dome epithelia of the ileal Peyer's patches. Alkaline phosphatase histochemistry demonstrated low enzyme activity in the brush border of M cells, as compared to enterocytes, in the duodenum and jejunum, allowing identification of M cells at the light microscopic level. Alkaline phosphatase activity was too low in ileal enterocytes to permit visualization of M cells. The presence of intrafollicular invaginations of dome epithelium is a consistent finding in duodenal Peyer's patches of the dog and these invaginations were characterized by few M cells, many intraepithelial lymphocytes and strong alkaline phosphatase activity.

Peyer's patches in experimental Salmonella dublin infection in calves

Six calves were infected per os with Salmonella dublin and killed nine hours to seven days later. Early changes included occlusion of capillaries with a hyaline material, particularly in the ileal Peyer's patch (PP). Central areas of the follicles contained hemorrhages and edema. In later stages the follicle-associated epithelium (FAE) of both the jejunal and ileal PP was fused with the adjacent epithelium and the follicles were collapsed. As judged from 5'nucleotidase histochemistry, follicles were depleted of lymphocytes whereas reticular cells were retained. Carbonic anhydrase (CA) histochemistry showed a decreased reaction in the ileal FAE and a reduced amount of CA reactive material in the follicles of the ileal PP, indicating loss of FAE differentiation and function. Hyaline material and fibrinous thrombi were seen occluding the blood capillaries and the lymphatics, respectively. The villi were atrophied and covered with thick fibrin deposits. Using antifibrinogen antibodies, immunoperoxidase stained fibrin in the lymphatics and the lumenal deposits but not the hyaline material in the capillaries. Reaction for CA indicated that this hyaline material originated from erythrocytes. Factors contributing to the follicle atrophy may include anoxia due to stasis in the microcirculation with the formation of erythrocyte thrombi, and reduced lymphopoiesis due to a decrease in the stimulating factors provided by the FAE.

Absence of secretory component expression by epithelial cells overlying rabbit gut-associated lymphoid tissue

The expression of secretory component by epithelial cells overlying intestinal lymphoid aggregates was examined immunocytochemically in rabbits. Intensely labeled epithelial cells were distributed along surfaces of villi surrounding follicles in jejunal and ileal Peyer's patches and along interdomal epithelium in sacculus rotundus and appendix. Secretory component labeling extended from within crypts and appendiceal crevices to the tips of villi and interdomal regions. In contrast, no immunologically detectable secretory component sites were observed in follicle-associated epithelial cells. In crypts and crevices supplying follicles, epithelial cells facing the lamina propria of villi and interdomal epithelium expressed secretory component, but cells flanking the follicle domes lacked secretory component immunostaining, with a clear demarcation between positive and negative zones at the base of the stem cell regions. These findings demonstrate a unique difference in the expression of the receptor for immunoglobulin A antibody between follicle-associated and non-follicle-associated epithelium.

Phagocytosis and transcytosis by the follicle‐associated epithelium of the ileal Peyer's patch in calves

Latex beads, 250 and 610 nm in diameter, and parapox virus isolated from ecthyma in sheep, were injected into intestinal loops containing either jejunal or ileal Peyer's patches (PP) of 3-4 week old calves. Uptake of latex and parapox virus was restricted to the ileal PP, 30-60 min after injection. The latex beads seemed to be embraced by thin surface protrusions extending from the concentric folds of the follicle-associated epithelial cells (FAE) of the ileal PP. Both latex and virus were internalized into cytoplasmic vacuoles. Some of the vacuoles containing virus showed reaction for acid phosphatase. The latex beads and virus were shed to the intercellular spaces of the FAE. The exocytosis appeared to occur through specialized indentations of the lateral plasma membrane where the production of 50 nm membrane-bounded particles by budding off from the lateral plasma membrane was a prominent phenomenon.

Peyer's patches export lymphocytes throughout the lymphoid system in sheep.

Abstract The lymphocyte output from small intestine containing either the long continuous ileal Peyer's patch (PP) or several smaller jejunal PP was examined in young lambs. Most studies were done in 2-mo-old lambs, 1 mo after removal of mesenteric lymph nodes (MLN). Extracorporeal perfusion of part of the intestine and addition of fluorescein isothiocyanate to the perfusate led to the labeling, in their normal microenvironment, of a regionally defined population of cells. One day later considerable numbers of emigrant lymphocytes were identified by fluorescence microscopy in the spleen, MLN and peripheral lymph nodes, jejunal PP, and bone marrow. In nonperfused ileal PP and thymus the labeling indexes were low. The highest labeling index was in the blood where 3.7% of the lymphocytes were labeled. A similar organ distribution of emigrant cells was found on day 3. When MLN were included in the perfused region more emigrants were identified. In some animals the intestinal lymphatic draining the perfused ileum was cannulated. Continual lymph drainage caused a dramatic decrease in the labeling indexes in other lymphoid organs. A substantial number of lymphocytes leave both ileal PP and jejunal PP via lymphatics and travel to all other lymphoid organs. However, the number of emigrant lymphocytes compared with the total number of labeled lymphocytes in the perfused tissue was about 10 times greater after perfusing gut with the jejunal PP than after ileal PP perfusion. We conclude that relatively more lymphocytes emigrate from the jejunal PP than from the ileal PP.

The follicle-associated epithelium of the ileal Peyer's patch in ruminants is distinguished by its shedding of 50 nm particles.

Significant differences were found between the follicle-associated epithelial cells (FAE) covering the domes of the jejunal and ileal Peyer's patches (PP) in calves. Whereas the FAE of the jejunal PP had scattered membraneous (M) cells among absorptive epithelial cells, the FAE of the ileal PP constituted a homogeneous population of cells different from both absorptive cells and M cells. The FAE of the ileal PP had short microvilli or folds, cytoplasmic vesicles and vacuoles containing acid phosphatase. Fifty nanometer membrane-bounded particles were found in lacunae extending from the lateral cell border. These particles appeared to have been shed from the FAE. Finger-like projections, rich in microfilaments, extended into the lacunae. M cells had short, sparse microvilli, many vesicles, few lysosomal structures, and they enfolded groups of mononuclear leucocytes. Transcytosis of macromolecular tracers occurred in both M cells and in the FAE of the ileal PP, though the uptake was greater in the latter. The 50 nm particles were also found between cells in the lymphoid tissue underneath the FAE of the ileal PP. The FAE of PP in pre- and post-natal lambs from 115 days of gestation and onwards, and goat kids, showed similar structural features.

Evidence of extensive lymphocyte death in sheep Peyer's patches. II. The number and fate of newly-formed lymphocytes that emigrate from Peyer's patches.

The emigration of newly produced lymphocytes from Peyer's patches (PP) of lambs was studied. Mesenteric lymph nodes (MLN) were excised from most animals a few weeks after birth, and then at 8 to 10 wk of age, the dividing cells in 3 to 4 m of the small intestine were labeled in situ with [3H]thymidine. An extracorporeal perfusion system was used to restrict the 15-min period of labeling to the perfused lengths of intestine, which included either the large continuous ileal PP or a number of smaller jejunal PP. One or 3 days later, the number of labeled cells in the perfused tissue and in other lymphoid organs was studied by autoradiography. In the perfused tissues, labeled lymphocytes accounted for 63.7% of ileal PP cells by 1 day and for 86.7% by 3 days compared with only 9.6% of lymphocytes in the perfused MLN. Labeled lymphoid cells in the perfused PP were nearly all in the follicles. Labeled lymphocytes that must have been produced in the segments of ileum or jejunum at the time of the perfusion, subsequently emigrated via the lymphatics, and were identified in the spleen, MLN, other lymph nodes, blood, jejunal PP, and at a lower frequency in the thymus, nonperfused ileal PP, and bone marrow. In lymph nodes, spleen, and nonperfused PP, more than 80% of the immigrant newly formed PP-derived cells were small- and medium-sized lymphocytes, and about 15% were large lymphocytes. The nature of the labeled cells in the lamina propria of the nonperfused small intestine was quite different in that approximately 50% were plasma cells as early as 24 hr after the cells were born in the perfused gut. It is proposed that terminal B cell differentiation was most likely initiated within the PP in response to the entry of antigen. It was estimated that at both 1 and 3 days after perfusion there were about 100 times more labeled cells in the perfused ileal PP than could be accounted for by emigration to other organs. It was concluded that these results provide additional support for the view that PP in lambs produce a tremendous number of lymphocytes, but relatively few leave their site of production; most apparently die in situ.

Evidence of extensive lymphocyte death in sheep Peyer's patches. I. A comparison of lymphocyte production and export.

The metaphase arrest technique was used to determine the rate at which cells divide in the Peyer's patches (PP) and the thymus of 5 to 8 wk old lambs. The metaphase indices of these tissues were determined by analyzing cell suspensions of tissues taken before and 1, 2, 3, and 4 hr after metaphase arrest was initiated with i.v. vincristine. The metaphase indices increased in both tissues at a linear rate, which provided an estimate of the rate at which cells entered mitosis and of the lymphocyte birth rate. The ileal PP had the highest lymphocyte birth rate, 2.8% of the lymphocytes entered mitosis each hour; the rate was lower in jejunal PP (1.0%/hr) and thymus (0.5%/hr). With these values and estimates of the lymphocyte content in all PP (1.45 X 10(11)) and in the thymus (1.71 X 10(11)), it was calculated that the hourly lymphocyte production by PP in a lamb was 3.61 X 10(9) cells, which is four to five times greater than for the thymus (0.82 X 10(9)). Lymphocyte production in PP could then be compared with the number of lymphocytes that emigrated from the small intestine. Newly produced cells leave PP via the intestinal lymph, which could be collected from the entire small intestine after removal of the mesenteric lymph nodes. Cells entered the lymph at a rate of 0.8 X 10(9)/hr, but the output fell rapidly during chronic lymphatic drainage, a procedure known to deplete long-lived recirculating cells. It was concluded that most of the cells in intestinal lymph were recirculating cells, and newly formed lymphocytes produced in PP probably account for less than 25% of the total or 0.2 X 10(9)/hr. It seems unlikely that emigration could occur at a rate comparable with the rate of production in the PP. At most, only 5% of the PP cells seemed destined to leave their site of production, and it is proposed that most die within the PP follicles. The high mortality rate associated with the production of large numbers of B lymphocytes in lamb PP seems likely to have a significant impact on the nature of the contribution that these tissues make to the immune system.

Distribution of T and B lymphocytes in jejunal and ileocaecal Peyer's patches of lambs

Jejunal (JPPs) and ileocaecal (IPP) Peyer's patches in lambs were studied by employing the indirect and the avidin-biotin-peroxidase methods, using antibodies to sheep IgM and thymocytes. Thymocyte sera absorbed with IPP germinal centre cells showed specificity for T cells in the thymus, lymph nodes and Peyer's patches. Whereas JPPs had large interfollicular T cell areas, IPP mainly contained B cells, although small triangular T cell areas were found at the apex of the follicles. Some T cells were also found in the dome and corona region of JPPs and IPP. While germinal centres of JPPs had about 40 per cent of IgM-positive cells, IPP germinal centres contained about 80 per cent of such cells. Negative or weak IgM-positive cells were seen in the peripheral zone of IPP germinal centres, contrasting with surface IgM-positive cells in the central zone, and indicating a centripetal migration of maturing lymphocytes.