初生与成年牦牛心肌的组织学结构比较

为探究牦牛心肌发育过程中组织学结构的变化,采用组织学、组织化学和免疫组织化学方法对初生和成年牦牛心肌的组织学结构、心钠素（ANP）和缝隙连接蛋白43（Cx43）的表达情况进行了观察。结果显示,初生牦牛心肌细胞数量少且细短,闰盘为直线型或V型,心肌细胞间以Ⅲ型胶原纤维为主,Ⅰ型胶原纤维较少;成年牦牛心肌细胞粗长,其数量是初生牦牛的2倍,闰盘呈竹节样吻合或阶梯状,心肌细胞间以Ⅰ型胶原纤维为主。初生和成年牦牛,ANP在心房肌细胞中均表达强烈,且右心房表达量显著高于左心房,心室肌细胞中不表达。ANP在普肯耶纤维中有少量表达。初生牦牛心房肌细胞ANP表达量高于成年牦牛。在心肌细胞膜和胞质内,初生牦牛Cx43表达强于成年牦牛,但在闰盘内,成年牦牛Cx43表达强于初生牦牛。Cx43在初生和成年牦牛的普肯耶纤维中均呈膜阳性。结果提示,初生与成年牦牛相比,成年牦牛的心肌细胞变粗长且数量增多,ANP在心房肌表达减弱,Cx43在闰盘表达更显著,说明成年牦牛较初生牦牛适应循环变化的代偿能力呈进行性减弱;细胞间牢固性增加,有助于实现心肌收缩信号的迅速传导。     

Ig isotypes produced by EBV-transformed B cells as a function of age and tissue distribution

EBV can transform human B cells giving rise to lymphoblastoid cell lines that produce and secrete Ig. Herein B cells from various tissues of newborns and adults were transformed by EBV and their Ig products were analyzed with isotype-specific mAb. Although IgG- and IgA-bearing B cells were present in the newborn, EBV transformed IgM-producing cells almost exclusively in both newborn blood and breast milk. IgM-secreting cells were derived from IgM+ B cells and IgM- pre-B cells present in neonatal blood, but only from IgM+ cells in adult blood. Whereas in adults most EBV-transformed cells produced IgM, producers of IgG and of IgA were present in frequencies that varied according to the tissue source. Precursors of IgG-producing cells were relatively abundant in blood, spleen, and tonsil, and relatively infrequent in bone marrow and appendix. EBV-inducible IgA producers were relatively concentrated in the appendix and to a lesser extent in tonsils and blood. Differences in the subclass composition of EBV-transformed populations of IgG- and IgA-producers were also observed for the various adult lymphoid tissues. IgG1-producing cells predominated in most tissues, and precursors of IgG2 were largely confined to the circulation. Whereas IgA1-producing cells were predominant in all tissues, a marked enrichment in IgA2-producers was observed in the appendix. These results indicate a remarkable heterogeneity in the isotype distribution pattern of EBV-transformable B cells that is determined both by developmental age and tissue localization. We propose that EBV selectively transforms primed B cells, the isotype commitment of which varies according to tissue origin and age.     

Rabbit tonsil-associated M-cells express cytokeratin 20 and take up particulate antigen.

M-cells are believed to play a pivotal role in initiation of the immune response. These cells, located in the epithelia that overlie mucosal lymphoid follicles, are responsible for the active uptake of particulate antigens and for their translocation to the underlying lymphoid tissue. The identification of reliable markers for M-cells is therefore extremely important for the study of the initial steps that lead to the immune response. For this purpose, we studied cytokeratin 20 (CK20) expression in the epithelium of rabbit palatine tonsils by immunofluorescence, confocal microscopy, and Western blotting. CK20+ cells were observed in all rabbit palatine tonsils examined. By Western blotting, one CK20-immunoreactive band was identified at 46 kD on samples of proteins from the intermediate filament-enriched cytoskeletal fraction of tonsil epithelium. Double labeling of CK20+ cells with cell-specific markers confirmed that such cells were actually M-cells. Moreover, CK20+ M-cells displayed a mature phenotype (they formed pockets harboring lymphoid cells) and were functionally competent because they could take up particulate antigens from the pharyngeal lumen. We conclude that CK20 is an M-cell marker for rabbit palatine tonsils. Moreover, we can hypothesize the use of M-cells as a possible site for antigen delivery of particle-based vaccines.     

MTNR1a和MTNR1b在牦牛不同组织中的表达及其在睾丸中的定位

褪黑素对调节季节性繁殖哺乳动物的生殖具有重要调节作用。其受体MTNR1a（Melatonin receptor 1a,褪黑素受体1a）主要参与昼夜节律和生殖调控,MTNR1b（Melatonin receptor 1b,褪黑素受体1b）与多种疾病发生密切相关。为了探讨褪黑素受体基因的生物学功能,本实验对牦牛不同组织中MTNR1a、MTNR1b基因的表达与定位情况进行了研究。采用qRT-PCR (Quantitative Real-Time PCR, qRT-PCR) 检测成年雄性牦牛各组织及不同发育阶段（30日龄,2岁、4岁、6岁和8岁龄）牦牛睾丸组织中MTNR1a、MTNR1b mRNA的表达规律,并运用免疫组化技术对不同年龄牦牛睾丸中MTNR1a、MTNR1b蛋白进行了定位研究。结果发现,MTNR1a mRNA在松果体组织中表达量最高,肺脏、肌肉和睾丸次之;随着年龄增加,MTNR1a mRNA在睾丸中的表达量逐渐升高,到4岁后表达量趋于平稳;MTNR1a蛋白在不同发育阶段牦牛睾丸组织中均有表达,圆形精子呈现较强的免疫阳性,其次为初级精母细胞;MTNR1b mRNA在松果体表达量最高（P<0.05）,肾脏、肝脏和下丘脑次之;在不同年龄牦牛睾丸中MTNR1b mRNA均有表达,且随着年龄的增加表达量逐渐增加,在8岁时表达量最高;MTNR1b蛋白主要定位在圆形精子细胞中。MTNR1a、MTNR1b基因在牦牛不同组织及不同发育阶段睾丸中的广泛表达,揭示了其在雄性牦牛生殖等生理过程中的重要作用。     

Plasma-cell homing

Recent studies indicate that chemoattractant cytokines (chemokines), together with tissue-specific adhesion molecules, coordinate the migration of antibody-secreting cells (ASCs) from their sites of antigen-driven differentiation in lymphoid tissues to target effector tissues. Developing ASCs downregulate the expression of receptors for lymphoid tissue chemokines and selectively upregulate the expression of chemokine receptors that might target the migration of IgA ASCs to mucosal surfaces, IgG ASCs to sites of tissue inflammation and both types of ASC to the bone marrow - an important site for serum antibody production. By directing plasma-cell homing, chemokines might help to determine the character and efficiency of mucosal, inflammatory and systemic antibody responses.     

Evidence of a true pharyngeal tonsil in birds: a novel lymphoid organ in Dromaius novaehollandiae and Struthio camelus (Palaeognathae)

ABSTRACT: BACKGROUND: Tonsils are secondary lymphoid organs located in the naso- and oropharynx of most mammalian species. Most tonsils are characterised by crypts surrounded by dense lymphoid tissue. However, tonsils without crypts have also been recognised. Gut-associated lymphoid tissue (GALT), although not well-organised and lacking tonsillar crypts, is abundant in the avian oropharynx and has been referred to as the "pharyngeal tonsil". In this context the pharyngeal folds present in the oropharynx of ratites have erroneously been named the pharyngeal tonsils. This study distinguishes between the different types and arrangements of lymphoid tissue in the pharyngeal region of D. novaehollandiae and S. camelus and demonstrates that both species possess a true pharyngeal tonsil which fits the classical definition of tonsils in mammals. RESULTS: The pharyngeal tonsil (Tonsilla pharyngea) of D. novaehollandiae was located on the dorsal free surface of the pharyngeal folds and covered by a small caudo-lateral extension of the folds whereas in S. camelus the tonsil was similarly located on the dorsal surface of the pharyngeal folds but was positioned retropharyngeally and encapsulated by loose connective tissue. The pharyngeal tonsil in both species was composed of lymph nodules, inter-nodular lymphoid tissue, mucus glands, crypts and intervening connective tissue septa. In S. camelus a shallow tonsillar sinus was present. Aggregated lymph nodules and inter-nodular lymphoid tissue was associated with the mucus glands on the ventral surface of the pharyngeal folds in both species and represented the Lymphonoduli pharyngeales. Similar lymphoid tissue, but more densely packed and situated directly below the epithelium, was present on the dorsal, free surface of the pharyngeal folds and represented a small, non-follicular tonsil. CONCLUSIONS: The follicular pharyngeal tonsils in D. novaehollandiae and S. camelus are distinct from the pharyngeal folds in these species and perfectly fit the classical mammalian definition of pharyngeal tonsils. The presence of a true pharyngeal tonsil differentiates these two ratite species from other known avian species where similar structures have not been described. The pharyngeal tonsils in these ratites may pose a suitable and easily accessible site for immune response surveillance as indicated by swelling and inflammation of the tonsillar tissue and pharyngeal folds. This would be facilitated by the fact that the heads of these commercially slaughtered ratites are discarded, thus sampling at these sites would not result in financial losses.     

Postnatal development of mucosa-associated lymphoid tissues in chickens

Summary The postnatal development of chicken mucosa-associated lymphoid tissues of the eyes, lungs, and intestines were investigated with monoclonal antibodies specific for either all leucocytes, B lymphocytes, mononuclear phagocytes, IgM, IgG, or IgA. Attention has been paid to the relation of lymphoid infiltrates with their surrounding mucosae, the segregation into B-cell and T-cell areas, development of germinal centers, and secretory immunoglobulins. Abudant secretory IgM and IgA was detected in the epithelium of the Harderian glands in the orbits, even though they lacked large leucocyte infiltrates with germinal centers. Lymphoid tissues in the mucosae of lungs and intestines developed separate B-cell and T-cell areas. The proventriculus, Meckel's diverticulum, and Peyer's patches generally contained germinal centers from 12 weeks of age on. Because chickens as young as 2 weeks old had germinal centers in bronchus-associated lymphoid tissue and cecal tonsils, these areas were probably highly stimulated by antigens. Isotype-specific monoclonal antibodies were used to detect IgM-, IgG-, and IgA-bearing follicular cells in the same germinal center.     

Differentiation of the palatine tonsillar tissues of the human fetus]

Differentiation of epithelial and lymphoid tissues of the palatine tonsils was studied in human embryos at the age of 8-34 weeks of development by means of histochemical, immunomorphological and morphometric methods. The anlage of the palatine tonsils appears at the age of 9 weeks of fetal development. At the age of 13-14 weeks of fetal development the tonsil suspension contains 2 subpopulations of lymphocytes possessing properties of T-cells differing in the ability of their superficial receptors to interact with sheep erythrocyte antigens forming rosettes (RFC--rosette forming cells) and with antigens of their own erithrocytes (autoRFC). The number both increases sharply by the 16th week of gestation. Simultaneously, essential alterations are noted in epithelial and lymphoid tissues. In epithelium of crypts cornified cells appear; the amount of lymphoid tissue increases sharply, primary follicles without reactive centers appear, lymphocytic infiltration of epithelium occurs. The amount of RFC does not change considerably, and the amount of autoRFC has a tendency towards some increase. From the data obtained, it is possible to suggest that human palatine tonsils already at embryonic period participate in functioning of immunogenic organs and in maintaining of immunologic homeostasis of the fetal organism.     

Histological studies on the development of porcine tonsils after birth

Tonsils form the topographically first immune barrier of an organism against the invasion of pathogens. We used histology to study the development of tonsils of pigs after birth. At birth, the tonsils consist of diffuse lymphoid tissue without any lymphoid follicle aggregations. At the age of 7 days, lymphoid follicles appeared in the soft palate tonsil. The lymphoid layer of the nasopharyngeal tonsil, soft palate tonsil, and lingual tonsil became thicker, and lymphoid follicles in the lamina propria were clearly visible at the age of 21 days. Secondary lymphoid follicles were present in the nasopharyngeal tonsil at the age of 50 days, and in the soft palate tonsil at the age of 120 days. Dendritic cells (DCs), CD3⁺ T cells and IgA⁺ B cells in the soft palate tonsil, nasopharyngeal tonsil and lingual tonsil increased continuously, especially during the first 21 days. The results suggested that tonsils have an important role in local immune defense against invading antigens after birth and will be beneficial for understanding the mechanisms of immunity in these animals after nasal and oral vaccination.     

Diurnal variation and oscillatory patterns in physiological responses and HSP70 profile in heat stressed yaks at high altitude

The present study was carried out at altitude of 3000 m above sea level (asl) to evaluate the impact of heat stress on yak adaptability. Sixteen healthy yaks of different age were randomly divided into two groups, calf (GI; n = 8) and adult (GII; n = 8). Experimental yaks were exposed to heat stress in the open paddock. THI ranged between 61.60 and 64.17 which were beyond the comfortable limit for yak. Post-exposure, rectal temperature increased (p < 0.01) by 2.97 °F and 2.42 °F in calf and adult yaks as compared to pre-exposure (100.08 ± 0.04 °F, 100.06 ± 0.05 °F). Respiration rate increased (p < 0.01) by 2.96 and 2.40 fold in calf and adult yaks with increased pulse rate on post-exposure to heat stress. The oscillatory patterns of physiological responses indicated that the level of heat stress increment was higher (p < 0.05) in calves than adult yaks. Plasma HSP70 increased (p < 0.01) by 7 fold in calf and 5 fold in adult yaks in comparison to pre-exposure level of 83.67 ± 1.11pg/ml and 80.65 ± 1.35 pg/ml. Thus, the yaks were experiencing heat stress at high altitude of 3000 m asl during the warmer months of the year and calves were more prone to heat stress as compared to adults.     

Changes in the Anatomic and Microscopic Structure and the Expression of HIF-1α and VEGF of the Yak Heart with Aging and Hypoxia

The study aimed to identify the changes of anatomic and microscopic structure and the expression and localization of hypoxia-inducible factor (HIF)-1α and vascular endothelial growth factor (VEGF) in the myocardium and coronary artery of the yak heart adapted to chronic hypoxia with aging. Thirty-two yaks (1 day, 6 months, 1 year, 2 years, and 5 year old) were included, and immunoelectronmicroscopy, immunohistochemistry, and enzyme-linked immunosorbent assay (ELISA) were used. Right ventricular hypertrophy was not present in yaks with aging. There was no intima thickening phenomenon in the coronary artery. The ultrastructure of myofibrils, mitochondria, and collagen fibers and the diameter and quantity of collagen changed significantly with aging. The enzymatic activity of complexes I, II, and V increased with age. Immunogold labeling showed the localization of HIF-1α protein in the cytoplasm and nuclei of endothelial cells and cytoplasm of cardiac muscle cells, and VEGF protein in the nuclei and perinuclei areas of smooth muscle cells of coronary artery, and in the cytoplasm and nuclei of endothelial cells. ELISA results showed that HIF-1α secretion significantly increased in the myocardium and coronary artery from an age of 1 day to 2 years of yaks and decreased in old yaks. However, VEGF protein always increased with aging. The findings of this study suggest that 6 months is a key age of yak before which there are some adaptive changes to deal with low-oxygen environment, and there is a maturation of the yak heart from the age of 6 months to 2 years.     

Development of dome epithelium in gut-associated lymphoid tissues: Association of IgA with M cells

Summary The dome epithelium (DE), which covers gutassociated lymphoid tissues (GALT) and provides both a protective barrier over lymphoid follicles and a route for antigen uptake from the gut, develops in rabbit appendix (caecum) during the first week of neonatal life. To determine if secretory immunoglobulins from maternal milk interact with this developing tissue, their interrelationships in neonatal rabbit appendix were examined by use of immunocytochemical techniques. The glycoprotein, secretory component, was not produced by neonatal rabbits less than 15 days old, since neither the membranous nor the free, secreted forms of maternal secretory component were associated with villi or DE of neonates. Immunoglobulin A (IgA), but neither IgG nor IgM, were noted on DE by light microscopy, even though IgG was abundant in the villus lamina propria and vascular spaces. The epithelial IgA was distributed, in a patchy pattern, across the upper dome surface of some two-day-old, and all five-and ten-day old nursing animals, but IgA was not on DE of rabbits prevented from nursing. Immunoelectron microscopy of appendix from nursed rabbits revealed IgA directly over the apical surface of M cells, where it formed a continous, thick coating without binding to adjacent immature absorptive cells; it was also within apical vacuoles of M cell cytoplasm. The distribution of IgA on the DE of rabbit appendices indicated that in differentiating GALT, maternal IgA reacted preferentially with M cells or pre-M cells, leading to speculation concerning a role for IgA in the development of GALT and in establishment of mucosal immune responses in neonates.In conducting the research described in this report, the investigators adhered to the standards set forth in the Guide for the Care and Use of Laboratory Animals (NIH Publication 85-23) as promulgated by the Committee on Care and Use of Laboratory Animals of the Institute of Laboratory Animal Resources, National Research Council, USAAbbreviations DE dome epithelium - GALT gutassociated lymphoid tissues - HRP horseradish peroxidase - IgA immunoglobulin A - SC secretory component The views of the authors expressed here do not purport to reflect the position of the Department of the Army or the Department of Defense     

The epithelium overlying rabbit bronchus-associated lymphoid tissue does not express the secretory component of immunoglobulin A

Summary The epithelium associated with lymphoid aggregates in the bronchial tract (BALT) was studied in rabbits by immunohistochemistry using monoclonal antibodies against the secretory component (SC) of IgA. The normal bronchus epithelium was intensely labelled. In contrast, epithelium overlying the central parts of the follicles was negative. This specialized epithelium cannot participate in the SC-mediated transport of IgA, which might be a basis for the adherence and transport of microorganisms into the lymphoid tissue, thus initiating immune responses of the BALT.     

Effect of neonatal thymectomy on rabbit tonsils.

An intensive lymphocyte migration takes place through the venules lined with high endothelium and situated in the extrafollicular areas of the tonsils. After thymectomy the migration of lymphocytes is less marked and in the areas surrounding the vessels lymphocyte depletion, connective tissue proliferation and a disintegration of the intimate contact between reticular cells and reticular fibres can be observed. A similar lymphocyte depletion appears also in the epithelium. Similarly as the deep cortical substance of the lymph nodes the extrafollicular regions of the tonsils belong to the peripheral lymphoid organs.     

Immune complexes of E. coli antigens and maternal IgG in the bursa of Fabricius

The bursa of Fabricius of the chicken is known to be both a primary lymphoid organ and a secondary lymphoid tissue. Bursal follicles are equipped with antigen-trapping follicle-associated epithelium. However, bioactive antigens such as protein and bacteria have not been detected in the bursal parenchyma. By immunoperoxidase staining with a polyspecific antibody (Ab) against Escherichia coli, we detected aggregated E. coli antigens in the medulla of bursal follicles after hatching. The distribution of aggregated E. coli antigens is restricted to the medulla of bursal follicles. The antigens are not found in the spleen or the parenchyma of the caecal tonsil. The bursa is thus a trapping site for E. coli antigens from the external environment. Furthermore, two-color immunostaining clarified that these antigens form immune complexes with maternal IgG (MIgG) and are retained by reticular cells. Additionally, immune complexes in the bursa were shown to induce the rapid development of serum IgM Ab for indigenous E. coli. Our results suggest that immune complexes of MIgG and environmental antigens in the medulla of bursal follicles exert positive effects on B-cell differentiation in the bursa in situ.     

Induction of plasma cell differentiation of human fetal lymphocytes: evidence for functional immaturity of T and B cells.

Resembling the in vitro antibody response of the newborn cultures of cord blood lymphocytes stimulated with pokeweed mitogen (PWM) generated fewer plasma cells (PC) than comparable adult lymphocyte cultures and the response was almost exclusively of the IgM class. We investigated the cellular basis of this difference by preparing mixed cultures of newborn T or B lymphocytes with adult B or T cells. Substitution of adult for newborn T cells enhanced the response of newborn B cells, particularly of the IgG and IgA classes. The response of second trimester fetal spleen cells was also increased by adult T cells, although no IgA PC appeared. Conversely, adult B cells generated fewer PC particularly of the IgG and IgA classes when cultured with newborn T cells. The relatively poor IgA and IgG responses of newborn cells seems partially but not entirely due to deficiency of T cell helper function. Suppressor activity of newborn T cells was investigated by adding excess unrelated newborn or adult T cells to adult T + B cells: adult T cells improved the response whereas newborn T cells were variably suppressive. The results indicate that newborn T cells, although capable of helper function, are balanced toward suppression.     

Expression of human B-Cell specific receptor FCRL1 in healthy individuals and in patients with autoimmune diseases

The expression levels of the FCRL1 gene, which encodes a human B-cell surface receptor, were compared in healthy individuals and patients with autoimmune diseases. The expression levels were evaluated using DNA dot hybridization on membranes with spotted cDNA samples derived from blood-cell sub-populations of patients with autoimmune diseases. Quantification of the hybridization signals showed that FCRL1 expression in peripheral blood B-lymphocytes of patients with multiple sclerosis, lupus anticoagulants, Takayasu’s arteritis, and von Willebrand disease was significantly higher than in healthy individuals. Monoclonal and polyclonal FCRL1-specific antibodies that enable FCRL1 detection in Western blotting, immunohistochemistry, and flow-cytometry assays were generated. It was found that FCRL1 is expressed on the surfaces of mature CD19+ B-cells. In the tonsils, FCRL1-positive cells were located in the crypt area, i.e., in the mantle zone of secondary lymphoid follicles and among the cells of lymphoid epithelium. FCRL1-positive cells were also found in B-cell follicles of the spleen.     

Alphavirus-induced encephalomyelitis: antibody-secreting cells and viral clearance from the nervous system

Sindbis virus (SINV) infection of the central nervous system (CNS) provides a model for understanding the role of the immune response in recovery from alphavirus infection of neurons. Virus clearance occurred in three phases: clearance of infectious virus (days 3 to 7), clearance of viral RNA (days 8 to 60), and maintenance of low levels of viral RNA (>day 60). The antiviral immune response was initiated in the cervical lymph nodes with rapid extrafollicular production of plasmablasts secreting IgM, followed by germinal center production of IgG-secreting and memory B cells. The earliest inflammatory cells to enter the brain were CD8(+) T cells, followed by CD4(+) T cells and CD19(+) B cells. During the clearance of infectious virus, effector lymphocytes in the CNS were primarily CD8(+) T cells and IgM antibody-secreting cells (ASCs). During the clearance of viral RNA, there were more CD4(+) than CD8(+) T cells, and B cells included IgG and IgA ASCs. At late times after infection, ASCs in the CNS were primarily CD19(+) CD38(+) CD138(-) Blimp-1(+) plasmablasts, with few fully differentiated CD38(-) CD138(+) Blimp-1(+) plasma cells. CD19(+) CD38(+) surface Ig(+) memory B cells were also present. The level of antibody to SINV increased in the brain over time, and the proportion of SINV-specific ASCs increased from 15% of total ASCs at day 14 to 90% at 4 to 6 months, suggesting specific retention in the CNS during viral RNA persistence. B cells in the CNS continued to differentiate, as evidenced by accumulation of IgA ASCs not present in peripheral lymphoid tissue and downregulation of major histocompatibility complex (MHC) class II expression on plasmablasts. However, there was no evidence of germinal center activity or IgG avidity maturation within the CNS.     

Clusterin in human gut-associated lymphoid tissue, tonsils, and adenoids: localization to M cells and follicular dendritic cells

The follicle-associated epithelium (FAE) overlying the follicles of mucosa-associated lymphoid tissue is a key player in the initiation of mucosal immune responses. We recently reported strong clusterin expression in the FAE of murine Peyer’s patches. In this study, we examined the expression of clusterin in the human gut-associated lymphoid tissue (GALT) and Waldeyer’s ring. Immunohistochemistry for clusterin in human Peyer’s patches, appendix and colon lymphoid follicles revealed expression in M cells and in follicular dendritic cells (FDCs). Using cryo-immunogold electron microscopy in Peyer’s patches, we observed cytosolic immunoreactivity in M cells and labeling in the ER/Golgi biosynthetic pathway in FDCs. In palatine tonsils and adenoids, we demonstrated clusterin expression in germinal centers and in the lymphoepithelium in the crypts where M cells are localized. In conclusion, clusterin is expressed in M cells and follicular dendritic cells at inductive sites of human mucosa-associated lymphoid tissue suggesting a role for this protein in innate immune responses. Moreover, the use of clusterin as a human M cell marker could prove to be a valuable tool in future M cell research.