Your search keyword '"bronchus-associated lymphoid tissue (BALT)"' showing total 16 results

1. Anti-cyclic citrullinated peptide antibody-positive rheumatoid arthritis caused by bacterial organizing pneumonia in a patient with Sjogren’s syndrome

Author

Horino Taro, Yoshida Mitsuharu, Inotani Satoshi, Anabuki Kazuki, Ohnishi Hiroshi, Komori Masahiro, Ichii Osamu, and Terada Yoshio

Subjects

anti-cyclic citrullinated peptide antibody (acpa), bronchus-associated lymphoid tissue (balt), organizing pneumonia (op), rheumatoid arthritis (ra), sjogren syndrome (sjs), Internal medicine, RC31-1245

Abstract

A 58-year-old woman with a history of Sjogren’s syndrome was admitted to our hospital with cough, decreased right lung breath sounds and arthralgia in both thumbs. Chest computed tomography showed consolidation with air bronchogram in the right lung. Levels of anti-cyclic citrullinated peptide antibody and rheumatoid factor levels were significantly elevated. She was diagnosed with rheumatoid arthritis induced by bacterial organizing pneumonia. Treatment with salazosulfapyridine was added for rheumatoid arthritis and arthralgia gradually improved. This case highlights that respiratory infections could lead to anti-cyclic citrullinated peptide antibody-positive rheumatoid arthritis in patients with Sjogren’s syndrome.

Published

2022

2. Intranasal Delivery of MVA Vector Vaccine Induces Effective Pulmonary Immunity Against SARS-CoV-2 in Rodents.

Author

Bošnjak, Berislav, Odak, Ivan, Barros-Martins, Joana, Sandrock, Inga, Hammerschmidt, Swantje I., Permanyer, Marc, Patzer, Gwendolyn E., Greorgiev, Hristo, Gutierrez Jauregui, Rodrigo, Tscherne, Alina, Schwarz, Jan Hendrik, Kalodimou, Georgia, Ssebyatika, George, Ciurkiewicz, Malgorzata, Willenzon, Stefanie, Bubke, Anja, Ristenpart, Jasmin, Ritter, Christiane, Tuchel, Tamara, and Meyer zu Natrup, Christian

Subjects

INTRANASAL administration, VACCINE effectiveness, SARS-CoV-2, BOOSTER vaccines, VIRUS diseases, PSYCHONEUROIMMUNOLOGY

Abstract

Antigen-specific tissue-resident memory T cells (Trms) and neutralizing IgA antibodies provide the most effective protection of the lungs from viral infections. To induce those essential components of lung immunity against SARS-CoV-2, we tested various immunization protocols involving intranasal delivery of a novel Modified Vaccinia virus Ankara (MVA)-SARS-2-spike vaccine candidate. We show that a single intranasal MVA-SARS-CoV-2-S application in mice strongly induced pulmonary spike-specific CD8+ T cells, albeit restricted production of neutralizing antibodies. In prime-boost protocols, intranasal booster vaccine delivery proved to be crucial for a massive expansion of systemic and lung tissue-resident spike-specific CD8+ T cells and the development of Th1 - but not Th2 - CD4+ T cells. Likewise, very high titers of IgG and IgA anti-spike antibodies were present in serum and broncho-alveolar lavages that possessed high virus neutralization capacities to all current SARS-CoV-2 variants of concern. Importantly, the MVA-SARS-2-spike vaccine applied in intramuscular priming and intranasal boosting treatment regimen completely protected hamsters from developing SARS-CoV-2 lung infection and pathology. Together, these results identify intramuscular priming followed by respiratory tract boosting with MVA-SARS-2-S as a promising approach for the induction of local, respiratory as well as systemic immune responses suited to protect from SARS-CoV-2 infections. [ABSTRACT FROM AUTHOR]

Published

2021

3. Intranasal Delivery of MVA Vector Vaccine Induces Effective Pulmonary Immunity Against SARS-CoV-2 in Rodents

Author

Berislav Bošnjak, Ivan Odak, Joana Barros-Martins, Inga Sandrock, Swantje I. Hammerschmidt, Marc Permanyer, Gwendolyn E. Patzer, Hristo Greorgiev, Rodrigo Gutierrez Jauregui, Alina Tscherne, Jan Hendrik Schwarz, Georgia Kalodimou, George Ssebyatika, Malgorzata Ciurkiewicz, Stefanie Willenzon, Anja Bubke, Jasmin Ristenpart, Christiane Ritter, Tamara Tuchel, Christian Meyer zu Natrup, Dai-Lun Shin, Sabrina Clever, Leonard Limpinsel, Wolfgang Baumgärtner, Thomas Krey, Asisa Volz, Gerd Sutter, and Reinhold Förster

Subjects

bronchus-associated lymphoid tissue (BALT), lungs, modified vaccinia virus Ankara (MVA), severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), spike (S) protein, vaccine, Immunologic diseases. Allergy, RC581-607

Abstract

Antigen-specific tissue-resident memory T cells (Trms) and neutralizing IgA antibodies provide the most effective protection of the lungs from viral infections. To induce those essential components of lung immunity against SARS-CoV-2, we tested various immunization protocols involving intranasal delivery of a novel Modified Vaccinia virus Ankara (MVA)-SARS-2-spike vaccine candidate. We show that a single intranasal MVA-SARS-CoV-2-S application in mice strongly induced pulmonary spike-specific CD8+ T cells, albeit restricted production of neutralizing antibodies. In prime-boost protocols, intranasal booster vaccine delivery proved to be crucial for a massive expansion of systemic and lung tissue-resident spike-specific CD8+ T cells and the development of Th1 - but not Th2 - CD4+ T cells. Likewise, very high titers of IgG and IgA anti-spike antibodies were present in serum and broncho-alveolar lavages that possessed high virus neutralization capacities to all current SARS-CoV-2 variants of concern. Importantly, the MVA-SARS-2-spike vaccine applied in intramuscular priming and intranasal boosting treatment regimen completely protected hamsters from developing SARS-CoV-2 lung infection and pathology. Together, these results identify intramuscular priming followed by respiratory tract boosting with MVA-SARS-2-S as a promising approach for the induction of local, respiratory as well as systemic immune responses suited to protect from SARS-CoV-2 infections.

Published

2021

4. The distributive and structural characteristics of bronchus-associated lymphoid tissue (BALT) in Bactrian camels (Camelus bactrianus)

Author

Wanhong He, Wangdong Zhang, Cuicui Cheng, Jianfei Li, Xiuping Wu, Min Li, Zhihua Chen, and Wenhui Wang

Subjects

Bactrian camels, Bronchial tree, Bronchus-associated lymphoid tissue (BALT), Distribution characteristics, Medicine, Biology (General), QH301-705.5

Abstract

Background Bronchus-associated lymphoid tissue (BALT), distributed in the bronchial mucosa, plays a critical role in maintaining the mucosal immune homeostasis of the lower respiratory tract. The bronchial tree is a functional structure for gas exchange with the outside environment and maintains basic lung morphology. Methods To explore the structural and distributive characteristics of BALT in Bactrian camels, twelve healthy adult Bactrian camels were divided into two groups (six in each group). The lungs, bronchial tree and BALT were observed and analysed systematically through anatomical and histological methods. Results The results showed that Bactrian camel lungs were constituted by the left cranial lobe, left caudal lobe, right cranial lobe, right caudal lobe and accessory lobe, but lacked the middle lobe. The cranial lobe was narrow and small, the caudal lobe was extremely developed (almost four times the cranial lobe in size), and the accessory lobe was smaller than the cranial lobe; the bronchial tree, an unequal dichotomy with a tracheobronchial branch, was composed of dorsal, ventral, lateral and medial bronchiole systems. Isolated lymphoid follicles (the chief type) and aggregates of lymphoid follicles revealed two types of BALT, and germinal centres, follicle-associated epithelium and high endothelial venules could be observed in some well-developed BALT. Additionally, BALT was scattered along the bronchial tree in the entire lung, and the density increased from the trachea to the lower graded branches (densest in the bronchioles) and then decreased, with the occasional location around respiratory bronchioles or among the pulmonary mesenchyme. In the conducting portion, BALT was primarily located in the mucosa lamina propria but was also found in the submucosa, under the muscular layer, and around the submucosal glands and cartilage. Conclusion The results demonstrated that the lung morphology of Bactrian camels was similar to that of horses, but the bronchial branches were more closely related to those of ruminants. These characteristics were in accordance with the morphological and structural variation regularity of lungs with species evolution. BALT was mainly scattered in the conducting portion, and bronchioles, as the final “checkpoint” in the surveillance, capture and recognition of antigens before pulmonary exchange, were the pivotal locational position of BALT. However, BALT at different depths of the bronchial wall of the conducting portion might be at different developmental stages. Our study provided evidence for further insight into the mucosal immunomodulatory mechanism of BALT in the respiratory system of Bactrian camels.

Published

2019

5. Fibrocytes and Pulmonary Vascular Remodeling: The Good, the Bad, and the Progenitors

Author

Colvin, Kelley L., Lohani, Ozus, Yeager, Michael E., Turksen, Kursad, Series editor, Firth, Amy, editor, and Yuan, Jason X.-J., editor

Published

2015

6. Regulation of macrophage and dendritic cell function by pathogens and through immunomodulation in the avian mucosa.

Author

de Geus, Eveline D. and Vervelde, Lonneke

Subjects

*MACROPHAGES, *DENDRITIC cells, *IMMUNOREGULATION, *CELL physiology, *MUCOUS membranes, *DIAGNOSTIC microbiology, *PATHOGENIC microorganisms, *IMMUNITY, *FUNCTIONAL foods, *VACCINATION, *BIRDS

Abstract

Highlights: [•] Current understanding of DC and MPh function is addressed. [•] Receptors expressed by MPh and DC involved in pathogen recognition are described. [•] Responses of DC and MPh against respiratory and intestinal pathogens in the chicken are described. [•] Potential opportunities are described to modulate MPh and DC responses to enhance disease resistance by modulation through nutraceuticals and vaccination. [Copyright &y& Elsevier]

Published

2013

7. Coincidence of different structures of mucosa-associated lymphoid tissue (MALT) in the respiratory tract of children: no indications for enhanced mucosal immunostimulation in sudden infant death syndrome (SIDS).

Author

Debertin, A. S., Tschernig, T., Schürmann, A., Bajanowski, T., Brinkmann, B., and Pabst, R.

Subjects

*MUCOSA-associated lymphoid tissue lymphoma, *LYMPHOMAS, *SUDDEN infant death syndrome, *INFANT death, *LYMPHOID tissue

Abstract

Mucosa-associated lymphoid tissue (MALT) is the principal inductive site for mucosal immune responses that are capable of T and B cell responses and antigen-specific responses. In previous independent studies different structures of MALT, e.g. bronchus-, larynx- and nose-associated lymphoid tissue (BALT, LALT, NALT) have been described separately in various frequencies in the human respiratory tract over life spans. Because upper respiratory tract infections are common in infants, dysregulations of mucosal immune responses might be seriously involved in the aetiology of sudden infant death syndrome (SIDS). In the present study the coincidental occurrence of the three different MALT structures in the respiratory tract within the same patients were studied, and cases of SIDS and children who had died from different traumatic and natural causes of death (non-SIDS) were compared. First, the frequency of BALT and LALT in 46 children (35 SIDS, 11 non-SIDS) with or without NALT were examined. A tendency was found of a coincidence of respiratory MALT structures. In 50 additional cases of infant death (30 SIDS, 20 non-SIDS) from the multi-centric German Study on Sudden Infant Death Syndrome (GeSID) where death had occurred in the first year of life, the coincidence was evaluated. A coincidental occurrence of BALT, LALT and NALT or BALT and LALT (each about 30%) was found in both groups, whereby the coincidence in SIDS and the control patients did not differ. Interestingly, the children with coincidental MALT were strikingly older, supporting the hypothesis of respiratory MALT formation via environmental stimulation over time. [ABSTRACT FROM AUTHOR]

Published

2006

8. An overview of the effects of tobacco ingredients on smoke chemistry and toxicity

Author

Baker, Richard R., Massey, Eian D., and Smith, Graham

Subjects

*TOBACCO, *CIGARETTES, *CHEMISTRY, *CIGARETTE smoke, *TOXICITY testing, *ADDITIVES

Abstract

This paper presents an overview of a series of studies designed to assess the influence of 482 tobacco ingredients on cigarette smoke chemistry and toxicity. The studies are: pyrolysis of the ingredients; influence of the ingredients on smoke constituents believed by regulatory authorities to be relevant to smoking-related diseases (“Hoffmann analytes”); influence of the ingredients on in vitro genotoxicity and cytotoxicity of smoke partiulate matter; and influence of the ingredients on the inhalation toxicity of smoke. The present paper brings the salient features of these studies together. A pyrolysis technique has been developed which, as far as practicably possible, mimics the combustion conditions inside a burning cigarette. The results from 291 single-substance ingredients indicate that almost a third would transfer out of the cigarette burning zone at least 99% intact (i.e. less than 1% pyrolysis), and almost two thirds would transfer at least 95% intact. Of the ingredients that underwent some degree of pyrolysis, a few “Hoffmann analytes” were detected amongst the pyrolysis products of 19 ingredients. Taking into account maximum use levels, their maximum pyrolysis levels were generally small and often insignificant compared to the levels typically present in smoke. Possible exceptions were acetaldehyde and benzene from the pyrolysis of malic acid. However, subsequent smoke chemistry studies indicated that the maximum levels predicted from pyrolysis of this involatile substance were overestimated, suggesting that malic acid does not undergo complete pyrolysis in the burning cigarette and/or generates acetaldehyde and benzene at similar rates to that of tobacco on a per weight basis. When added to tobacco, many of the ingredient mixtures produced no significant effect on the levels of many of the “Hoffmann analytes” in smoke, while some produced increases or decreases relative to the relevant control cigarettes. The study has concentrated on the increases. Many of the differences were found to be not significant when the long-term variability of the analytical methodology was taken into account. However, even taking this into account, the smoke formaldehyde levels in two of the test cigarettes were significantly increased relative to their controls, by up to 26 μg (73%). These increases are likely to be due to the pyrolysis of sugars, cellulose and other polysaccharide materials. The activity of smoke particulate matter from cigarettes containing tobacco ingredients has been determined with three in vitro bioassays, two for genotoxicity and one for cytotoxicity. These were the Ames test, the mammalian cell micronucleus assay, and the neutral red uptake cytotoxicity assay. Within the sensitivity and specificity of these bioassays, the specific activity of the cigarette smoke particulate matter was not changed by the addition of ingredients to the cigarette. Three 90-day sub-chronic inhalation studies have been undertaken and histopathological and histomorphometric assessments made within the respiratory tracts of animals exposed to smoke from cigarettes containing the various ingredient mixtures and their control cigarettes. The response due to tobacco smoke exposure was not distinguishable between the test and control cigarettes, indicating that the presence of the ingredients had made no discernable differences to the type and severity of the treatment-related changes. [Copyright &y& Elsevier]

Published

2004

9. Immunoglobulin A and secretory immunoglobulin A in the bronchoalveolar lavage from patients after lung transplantation.

Author

Bastian, Andreas, Tunkel, Christine, Lins, Markus, Böttcher, Heidi, Hirt, Stephan W, Cremer, Jochen, and Bewig, Burkhard

Subjects

*LUNG transplantation, *IMMUNOGLOBULIN A, *BRONCHOALVEOLAR lavage, *PREVENTION

Abstract

Secretory immunoglobulin A (sIgA) is the most important Ig on mucosal surfaces. In bronchoalveolar lavage (BAL) fluid, sIgA is mainly produced by bronchus-associated lymphoid tissue (BALT). The presence of pre-formed antibodies against donor tissue in kidney transplantation is associated with hyperacute rejection, indicating a humoral (antibody-mediated) reaction. In heart and liver transplantation, humoral rejection has also been documented. The goal of this study was to evaluate the role of IgA in patients after lung transplantation. An enzyme-linked immunosorbent assay was established to determine the levels of sIgA, IgA, and total protein in the lavage. IgA and sIgA were both detectable in BAL from transplanted lungs. IgA and sIgA levels were both higher during episodes of infection than during episodes of rejection or during the control episodes. The level of IgA during episodes of rejection equaled the level of IgA during the control episodes. The level of sIgA was significantly decreased during episodes of acute rejection (1.8±1.0 μg/mL) when compared with the control (7.2±1.0 μg/mL; p=0.013). This study demonstrates that BALT retains the ability to produce Ig even after lung transplantation. The levels of IgA and sIgA and their ratio do not contribute to the differentiation between rejection and infection in lung-transplanted patients. [ABSTRACT FROM AUTHOR]

Published

2000

10. Primary pulmonary lymphoma diagnosed by gene rearrangement: Report of a case.

Author

Miura, Hiroyuki, Taira, Osamu, Uchida, Osamu, Kajiwara, Naohiro, and Kato, Harubumi

Abstract

We report herein the case of a 59-year-old asymptomatic man who was referred to our department for investigation of an abnormal shadow detected on a routine chest roentogenogram. Computed tomography (CT) showed an infiltrative shadow and air bronchogram in the right middle lobe without mediastinal lymphadenopathy, and a right middle lobectomy was performed with hilar and interlobar lymph node excision. Microscopically, the tumor consisted of small lymphoid cells without atypia, admixed with neutrophils and other mononuclear cells, but there was no invasion of the bronchial cartilage or visceral pleura, or any lymph node involvement. Most of the tumor cells were positive for L26 and some for UCHL-1. Although a germinal center was not seen, pseudolymphoma could not be ruled out. Southern blot analysis of the frozen tissues revealed clonal rearrangements of the immunoglobulin heavy-chain J and light-chain J, whereby the tumor was diagnosed as malignant lymphoma of the small lymphocytic B-cell type. Thus, when such lymphoproliferative diseases which are difficult to diagnose are encountered, frozen tissue should be preserved for genetic analysis. [ABSTRACT FROM AUTHOR]

Published

1996

11. Low incidence of bronchus-associated lymphoid tissue (BALT) in chronically inflamed human lungs.

Author

Delventhal, S., Brandis, A., Ostertag, H., and Pabst, R.

Abstract

The relevance of bronchus-associated lymphoid tissue (BALT) in man is still under discussion. Animal experiments indicate that the development of BALT is dependent on microbial stimulation. Therefore, the incidence of BALT was investigated retrospectively in specimens removed during surgical procedures on patients with chronic pulmonary inflammation. All these patients had severe chronic bronchitis and bronchiectasis, but BALT was found in only 8%. In patients with BALT and a malignant tumor, occlusion of a bronchus with poststenotic pneumonia was always present and BALT was observed exclusively in areas peripheral to the occlusion. In man other compartments of the lung must be responsible for the immune function of BALT found in animals. [ABSTRACT FROM AUTHOR]

Published

1992

12. Visualisation and characterisation of mononuclear phagocytes in the chicken respiratory tract using CSF1R-transgenic chickens

Author

Sutton, Kate, Costa, Taiana, Alber, Andreas, Bryson, Karen, Borowska, Dominika, Balic, Adam, Kaiser, Pete, Stevens, Mark, and Vervelde, Lonneke

Subjects

anatomy, mmune, dendritic cell, [SDV]Life Sciences [q-bio], macrophage, Monocytes, lung, Secondary Bronchi (SB), Animals, Genetically Modified, Bronchus-associated Lymphoid Tissue (BALT), reporter, Animals, Lung, transgenic, lcsh:Veterinary medicine, Air Sacs, Parabronchi, Macrophages, mononuclear phagocyte, CSF1R, respiratory tract, Chicken, Trachea, Avian Pathogenic Escherichia Coli (APEC), lcsh:SF600-1100, Chickens, Primary Bronchi, Research Article

Abstract

The respiratory tract is a key organ for many avian pathogens as well as a major route for vaccination in the poultry industry. To improve immune responses after vaccination of chickens through increased uptake of vaccines and targeting to antigen presenting cells, a better understanding of the avian respiratory immune system is required. Transgenic MacReporter birds were used expressing a reporter gene (eGFP or mApple) under the control of the CSF1R promoter and enhancer in cells of the mononuclear phagocyte (MNP) lineage to visualize the ontogeny of the lymphoid tissue, macrophages and dendritic cells, in the trachea, lung and air sac of birds from embryonic day 18–63 weeks of age. Small aggregates of CSF1R-transgene+ cells start to form at the openings of the secondary bronchi at 1 week of age, indicative of the early development of the organised bronchus-associated lymphoid tissue. Immunohistochemical staining revealed subpopulations of MNPs in the lung, based on expression of CSF1R-transgene, CD11, TIM4, LAMP1, and MHC II. Specialised epithelial cells or M cells covering the bronchus-associated lymphoid tissue expressed CSF1R-transgene and type II pneumocytes expressed LAMP1 suggesting that these epithelial cells are phagocytic and transcytose antigen. Highly organised lymphoid tissue was seen in trachea from 4 weeks onwards. Throughout the air sacs at all ages, CSF1R-transgene+ cells were scattered and at later stages, CSF1R-transgene+ cells lined capillaries. These results will serve as a base for further functional characterization of macrophages and dendritic cells and their role in respiratory diseases and vaccine responses. Electronic supplementary material The online version of this article (10.1186/s13567-018-0598-7) contains supplementary material, which is available to authorized users.

Published

2018

13. Structure, Organization, and Development of the Mucosal Immune System of the Respiratory Tract

Author

Randall, Troy D.

Subjects

Bronchus-associated lymphoid tissue (BALT), Nasal-associated lymphoid tissue (NALT), B cell follicle, Germinal center, Mucosal lymphoid tissue, respiratory system, High endothelial venule (HEV), Article

Abstract

The respiratory tract is served by a variety of lymphoid tissues, including the tonsils, adenoids, nasal-associated lymphoid tissue (NALT), and bronchus-associated lymphoid tissue (BALT), as well as the lymph nodes that drain the upper and lower respiratory tract. Each of these tissues uses unique mechanisms to acquire antigens and respond to pathogens in the local environment and supports immune responses that are tailored to protect those locations. This chapter will review the important features of NALT and BALT and define how these tissues contribute to immunity in the upper and lower respiratory tract, respectively.

Published

2015

14. The distributive and structural characteristics of bronchus-associated lymphoid tissue (BALT) in Bactrian camels (Camelus bactrianus)

Author

Cui-Cui Cheng, Wangdong Zhang, Min Li, Wen-Hui Wang, He Wanhong, Xiu-Ping Wu, Zhi-Hua Chen, and Jian-Fei Li

Subjects

Veterinary Medicine, Histology, Bronchiole, lcsh:Medicine, General Biochemistry, Genetics and Molecular Biology, Muscular layer, 03 medical and health sciences, Bronchial tree, medicine, Bactrian camel, Respiratory system, Agricultural Science, Bactrian camels, Respiratory Medicine, 030304 developmental biology, Submucosal glands, 0303 health sciences, Lamina propria, Distribution characteristics, biology, General Neuroscience, lcsh:R, 030302 biochemistry & molecular biology, General Medicine, Anatomy, respiratory system, biology.organism_classification, Lobe, medicine.anatomical_structure, Bronchus-associated lymphoid tissue (BALT), General Agricultural and Biological Sciences, Zoology, Respiratory tract

Abstract

BackgroundBronchus-associated lymphoid tissue (BALT), distributed in the bronchial mucosa, plays a critical role in maintaining the mucosal immune homeostasis of the lower respiratory tract. The bronchial tree is a functional structure for gas exchange with the outside environment and maintains basic lung morphology.MethodsTo explore the structural and distributive characteristics of BALT in Bactrian camels, twelve healthy adult Bactrian camels were divided into two groups (six in each group). The lungs, bronchial tree and BALT were observed and analysed systematically through anatomical and histological methods.ResultsThe results showed that Bactrian camel lungs were constituted by the left cranial lobe, left caudal lobe, right cranial lobe, right caudal lobe and accessory lobe, but lacked the middle lobe. The cranial lobe was narrow and small, the caudal lobe was extremely developed (almost four times the cranial lobe in size), and the accessory lobe was smaller than the cranial lobe; the bronchial tree, an unequal dichotomy with a tracheobronchial branch, was composed of dorsal, ventral, lateral and medial bronchiole systems. Isolated lymphoid follicles (the chief type) and aggregates of lymphoid follicles revealed two types of BALT, and germinal centres, follicle-associated epithelium and high endothelial venules could be observed in some well-developed BALT. Additionally, BALT was scattered along the bronchial tree in the entire lung, and the density increased from the trachea to the lower graded branches (densest in the bronchioles) and then decreased, with the occasional location around respiratory bronchioles or among the pulmonary mesenchyme. In the conducting portion, BALT was primarily located in the mucosa lamina propria but was also found in the submucosa, under the muscular layer, and around the submucosal glands and cartilage.ConclusionThe results demonstrated that the lung morphology of Bactrian camels was similar to that of horses, but the bronchial branches were more closely related to those of ruminants. These characteristics were in accordance with the morphological and structural variation regularity of lungs with species evolution. BALT was mainly scattered in the conducting portion, and bronchioles, as the final “checkpoint” in the surveillance, capture and recognition of antigens before pulmonary exchange, were the pivotal locational position of BALT. However, BALT at different depths of the bronchial wall of the conducting portion might be at different developmental stages. Our study provided evidence for further insight into the mucosal immunomodulatory mechanism of BALT in the respiratory system of Bactrian camels.

Published

2019

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

Author

Gehrke, I. and Pabst, R.

Abstract

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. [ABSTRACT FROM AUTHOR]

Published

1990

16. The distributive and structural characteristics of bronchus-associated lymphoid tissue (BALT) in Bactrian camels ( Camelus bactrianus ).

Author

He W, Zhang W, Cheng C, Li J, Wu X, Li M, Chen Z, and Wang W

Abstract

Background: Bronchus-associated lymphoid tissue (BALT), distributed in the bronchial mucosa, plays a critical role in maintaining the mucosal immune homeostasis of the lower respiratory tract. The bronchial tree is a functional structure for gas exchange with the outside environment and maintains basic lung morphology., Methods: To explore the structural and distributive characteristics of BALT in Bactrian camels, twelve healthy adult Bactrian camels were divided into two groups (six in each group). The lungs, bronchial tree and BALT were observed and analysed systematically through anatomical and histological methods., Results: The results showed that Bactrian camel lungs were constituted by the left cranial lobe, left caudal lobe, right cranial lobe, right caudal lobe and accessory lobe, but lacked the middle lobe. The cranial lobe was narrow and small, the caudal lobe was extremely developed (almost four times the cranial lobe in size), and the accessory lobe was smaller than the cranial lobe; the bronchial tree, an unequal dichotomy with a tracheobronchial branch, was composed of dorsal, ventral, lateral and medial bronchiole systems. Isolated lymphoid follicles (the chief type) and aggregates of lymphoid follicles revealed two types of BALT, and germinal centres, follicle-associated epithelium and high endothelial venules could be observed in some well-developed BALT. Additionally, BALT was scattered along the bronchial tree in the entire lung, and the density increased from the trachea to the lower graded branches (densest in the bronchioles) and then decreased, with the occasional location around respiratory bronchioles or among the pulmonary mesenchyme. In the conducting portion, BALT was primarily located in the mucosa lamina propria but was also found in the submucosa, under the muscular layer, and around the submucosal glands and cartilage., Conclusion: The results demonstrated that the lung morphology of Bactrian camels was similar to that of horses, but the bronchial branches were more closely related to those of ruminants. These characteristics were in accordance with the morphological and structural variation regularity of lungs with species evolution. BALT was mainly scattered in the conducting portion, and bronchioles, as the final "checkpoint" in the surveillance, capture and recognition of antigens before pulmonary exchange, were the pivotal locational position of BALT. However, BALT at different depths of the bronchial wall of the conducting portion might be at different developmental stages. Our study provided evidence for further insight into the mucosal immunomodulatory mechanism of BALT in the respiratory system of Bactrian camels., Competing Interests: The authors declare there are no competing interests.

Published

2019