Your search keyword '"MESOTHELIUM"' showing total 2,355 results

1. Ventilator-induced Lung Injury Promotes Inflammation within the Pleural Cavity.

Author

Baldi, Rhianna F., Koh, Marissa W., Thomas, Chubicka, Sabbat, Tomasz, Wang, Bincheng, Tsatsari, Stefania, Young, Kieron, Wilson-Slomkowski, Alexander, Soni, Sanooj, O'Dea, Kieran P., Patel, Brijesh V., Takata, Masao, and Wilson, Michael R.

Subjects

LUNGS, PURINERGIC receptors, LUNG injuries, INTENSIVE care patients, INFLAMMATION, EXTRACELLULAR vesicles

Abstract

Mechanical ventilation contributes to the morbidity and mortality of patients in intensive care, likely through the exacerbation and dissemination of inflammation. Despite the proximity of the pleural cavity to the lungs and exposure to physical forces, little attention has been paid to its potential as an inflammatory source during ventilation. Here, we investigate the pleural cavity as a novel site of inflammation during ventilator-induced lung injury. Mice were subjected to low or high tidal volume ventilation strategies for up to 3 hours. Ventilation with a high tidal volume significantly increased cytokine and total protein levels in BAL and pleural lavage fluid. In contrast, acid aspiration, explored as an alternative model of injury, only promoted intraalveolar inflammation, with no effect on the pleural space. Resident pleural macrophages demonstrated enhanced activation after injurious ventilation, including upregulated ICAM-1 and IL-1β expression, and the release of extracellular vesicles. In vivo ventilation and in vitro stretch of pleural mesothelial cells promoted ATP secretion, whereas purinergic receptor inhibition substantially attenuated extracellular vesicles and cytokine levels in the pleural space. Finally, labeled protein rapidly translocated from the pleural cavity into the circulation during high tidal volume ventilation, to a significantly greater extent than that of protein translocation from the alveolar space. Overall, we conclude that injurious ventilation induces pleural cavity inflammation mediated through purinergic pathway signaling and likely enhances the dissemination of mediators into the vasculature. This previously unidentified consequence of mechanical ventilation potentially implicates the pleural space as a focus of research and novel avenue for intervention in critical care. [ABSTRACT FROM AUTHOR]

Published

2024

2. GlcNAc6ST2/CHST4 Is Essential for the Synthesis of R-10G-Reactive Keratan Sulfate/Sulfated N -Acetyllactosamine Oligosaccharides in Mouse Pleural Mesothelium.

Author

Takeda-Uchimura, Yoshiko, Ikezaki, Midori, Akama, Tomoya O., Ihara, Yoshito, Allain, Fabrice, Nishitsuji, Kazuchika, and Uchimura, Kenji

Subjects

*CARRIER proteins, *LUNGS, *SULFATES, *PLEURA, *MICE, *CELL differentiation, *CELL proliferation, *GLYCANS

Abstract

We recently showed that 6-sulfo sialyl N-acetyllactosamine (LacNAc) in O-linked glycans recognized by the CL40 antibody is abundant in the pleural mesothelium under physiological conditions and that these glycans undergo complementary synthesis by GlcNAc6ST2 (encoded by Chst4) and GlcNAc6ST3 (encoded by Chst5) in mice. GlcNAc6ST3 is essential for the synthesis of R-10G-positive keratan sulfate (KS) in the brain. The predicted minimum epitope of the R-10G antibody is a dimeric asialo 6-sulfo LacNAc. Whether R-10G-reactive KS/sulfated LacNAc oligosaccharides are also present in the pleural mesothelium was unknown. The question of which GlcNAc6STs are responsible for R-10G-reactive glycans was an additional issue to be clarified. Here, we show that R-10G-reactive glycans are as abundant in the pulmonary pleura as CL40-reactive glycans and that GlcNAc6ST3 is only partially involved in the synthesis of these pleural R-10G glycans, unlike in the adult brain. Unexpectedly, GlcNAc6ST2 is essential for the synthesis of R-10G-positive KS/sulfated LacNAc oligosaccharides in the lung pleura. The type of GlcNAc6ST and the magnitude of its contribution to KS glycan synthesis varied among tissues in vivo. We show that GlcNAc6ST2 is required and sufficient for R-10G-reactive KS synthesis in the lung pleura. Interestingly, R-10G immunoreactivity in KSGal6ST (encoded by Chst1) and C6ST1 (encoded by Chst3) double-deficient mouse lungs was markedly increased. MUC16, a mucin molecule, was shown to be a candidate carrier protein for pleural R-10G-reactive glycans. These results suggest that R-10G-reactive KS/sulfated LacNAc oligosaccharides may play a role in mesothelial cell proliferation and differentiation. Further elucidation of the functions of sulfated glycans synthesized by GlcNAc6ST2 and GlcNAc6ST3, such as R-10G and CL40 glycans, in pathological conditions may lead to a better understanding of the underlying mechanisms of the physiopathology of the lung mesothelium. [ABSTRACT FROM AUTHOR]

Published

2024

3. Peritoneal Organ-Anatomical and Physiological Considerations

Author

Arslan, Orhan E. and Shegokar, Ranjita, editor

Published

2023

4. Engineering Approaches in Ovarian Cancer Cell Culture

Author

Iwanicki, Marcin, Pavlovic, Tonja, Behboodi, Panteha, El-Deiry, Wafik, Series Editor, Wong, Ian Y., editor, and Dawson, Michelle R., editor

Published

2023

5. Early Malignant Mesothelioma Detection Using Ensemble of Naive Bayes Under Decorate Ensemble Framework

Author

Moirangthem, Akash, Lepcha, Olive Simick, Panigrahi, Ranjit, Brahma, Biswajit, and Bhoi, Akash Kumar

Published

2024

6. A Macroscopic and Microscopic Study of Liver in Female Iraqi Green Freshwater Turtle (Chelonia mydas) Linnaeus, 1758 during the Active Period.

Author

Al-Alwany, Ekhlas Abid Hamza, Al-Khakani, Salim Salih Ali, Al-Khamas, Ahlam J. H., Al-Janabi, Sabreen M., Zabiba, Isam M. J., and AL-Khafaji, Siraj M.

Subjects

TURTLES, GREEN turtle, HEMATOXYLIN & eosin staining, MESOTHELIUM, LIVER

Abstract

The study aims to provide anatomical and histological information about the liver in female Iraqi green freshwater turtles. Ten female green freshwater turtles (Chelonia mydas) were collected from Shatt Al-Hilla and used in this study. They were anesthetized by chloroform in closed chambers. The anatomical information was recorded and the histological sections of the liver were stained by using hematoxylin and Eosin stains. The result showed that the liver of a female green freshwater turtle (Chelonia mydas) is a large elongated organ. The mean weight of turtles is 735±0.04 gm, and the mean weight of the liver is 28±0.02 gm. The ratio between the weight of the liver to the weight of the body was 3.809 %. The liver of (Chelonia mydas) is formed from three lobes right, left and middle (central) lobes. The right lobe is the large one with an average weight of 13 ±0.022 gm. It looks like a square and has two surfaces ventral and dorsal (visceral) surface. The left lobe is smaller than the right with an average weight of 9±0.05gm, and its shape is rectangular. The middle lobe is rounded and small. Its mean weight is 7±0.01gm. Histologically, the liver is covered by mesothelium under its connective tissue layer as a hepatic capsule which divided the liver into lobules in the shape of hexagons with portal spaces, from the central to the walls of the hepatocyte. [ABSTRACT FROM AUTHOR]

Published

2023

7. Organotypic 3D Co-Culture of Human Pleura as a Novel In Vitro Model of Staphylococcus aureus Infection and Biofilm Development.

Author

Kurow, Olga, Nuwayhid, Rima, Stock, Peggy, Steinert, Matthias, Langer, Stefan, Krämer, Sebastian, and Metelmann, Isabella B.

Subjects

*STAPHYLOCOCCUS aureus infections, *PLEURA, *BIOFILMS, *BACTERIAL diseases, *TIGHT junctions

Abstract

Bacterial pleural infections are associated with high mortality. Treatment is complicated due to biofilm formation. A common causative pathogen is Staphylococcus aureus (S. aureus). Since it is distinctly human-specific, rodent models do not provide adequate conditions for research. The purpose of this study was to examine the effects of S. aureus infection on human pleural mesothelial cells using a recently established 3D organotypic co-culture model of pleura derived from human specimens. After infection of our model with S. aureus, samples were harvested at defined time points. Histological analysis and immunostaining for tight junction proteins (c-Jun, VE-cadherin, and ZO-1) were performed, demonstrating changes comparable to in vivo empyema. The measurement of secreted cytokine levels (TNF-α, MCP-1, and IL-1β) proved host–pathogen interactions in our model. Similarly, mesothelial cells produced VEGF on in vivo levels. These findings were contrasted by vital, unimpaired cells in a sterile control model. We were able to establish a 3D organotypic in vitro co-culture model of human pleura infected with S. aureus resulting in the formation of biofilm, including host–pathogen interactions. This novel model could be a useful microenvironment tool for in vitro studies on biofilm in pleural empyema. [ABSTRACT FROM AUTHOR]

Published

2023

8. GlcNAc6ST2/CHST4 Is Essential for the Synthesis of R-10G-Reactive Keratan Sulfate/Sulfated N-Acetyllactosamine Oligosaccharides in Mouse Pleural Mesothelium

Author

Yoshiko Takeda-Uchimura, Midori Ikezaki, Tomoya O. Akama, Yoshito Ihara, Fabrice Allain, Kazuchika Nishitsuji, and Kenji Uchimura

Subjects

sulfotransferase, keratan sulfate, sialomucin, mesothelium, MUC16, Organic chemistry, QD241-441

Abstract

We recently showed that 6-sulfo sialyl N-acetyllactosamine (LacNAc) in O-linked glycans recognized by the CL40 antibody is abundant in the pleural mesothelium under physiological conditions and that these glycans undergo complementary synthesis by GlcNAc6ST2 (encoded by Chst4) and GlcNAc6ST3 (encoded by Chst5) in mice. GlcNAc6ST3 is essential for the synthesis of R-10G-positive keratan sulfate (KS) in the brain. The predicted minimum epitope of the R-10G antibody is a dimeric asialo 6-sulfo LacNAc. Whether R-10G-reactive KS/sulfated LacNAc oligosaccharides are also present in the pleural mesothelium was unknown. The question of which GlcNAc6STs are responsible for R-10G-reactive glycans was an additional issue to be clarified. Here, we show that R-10G-reactive glycans are as abundant in the pulmonary pleura as CL40-reactive glycans and that GlcNAc6ST3 is only partially involved in the synthesis of these pleural R-10G glycans, unlike in the adult brain. Unexpectedly, GlcNAc6ST2 is essential for the synthesis of R-10G-positive KS/sulfated LacNAc oligosaccharides in the lung pleura. The type of GlcNAc6ST and the magnitude of its contribution to KS glycan synthesis varied among tissues in vivo. We show that GlcNAc6ST2 is required and sufficient for R-10G-reactive KS synthesis in the lung pleura. Interestingly, R-10G immunoreactivity in KSGal6ST (encoded by Chst1) and C6ST1 (encoded by Chst3) double-deficient mouse lungs was markedly increased. MUC16, a mucin molecule, was shown to be a candidate carrier protein for pleural R-10G-reactive glycans. These results suggest that R-10G-reactive KS/sulfated LacNAc oligosaccharides may play a role in mesothelial cell proliferation and differentiation. Further elucidation of the functions of sulfated glycans synthesized by GlcNAc6ST2 and GlcNAc6ST3, such as R-10G and CL40 glycans, in pathological conditions may lead to a better understanding of the underlying mechanisms of the physiopathology of the lung mesothelium.

Published

2024

9. Nephronectin is required to maintain right lung lobar separation during embryonic development.

Author

Wilson, Carole L., Hung, Chi F., Burkel, Brian M., Ponik, Suzanne M., Gharib, Sina A., and Schnapp, Lynn M.

Subjects

*EMBRYOLOGY, *LUNGS, *BASAL lamina, *RESPIRATORY mechanics, *NEPHROBLASTOMA

Abstract

Nephronectin (NPNT) is a basement membrane (BM) protein and high-affinity ligand of integrin α8β1 that is required for kidney morphogenesis in mice. In the lung, NPNT also localizes to BMs, but its potential role in pulmonary development has not been investigated. Mice with a floxed Npnt allele were used to generate global knockouts (KOs). Staged embryos were obtained by timed matings of heterozygotes and lungs were isolated for analysis. Although primary and secondary lung bud formation was normal in KO embryos, fusion of right lung lobes, primarily the medial and caudal, was first detected at E13.5 and persisted into adulthood. The lung parenchyma of KO mice was indistinguishable from wild-type (WT) and lobe fusion did not alter respiratory mechanics in adult KO mice. Interrogation of an existing single-cell RNA-seq atlas of embryonic and adult mouse lungs identified Npnt transcripts in mesothelial cells at E12.5 and into the early postnatal period, but not in adult lungs. KO embryonic lungs exhibited increased expression of laminin α5 and deposition of collagen IV in the mesothelial BM, accompanied by abnormalities in collagen fibrils in the adjacent stroma. Cranial and accessory lobes extracted from KO embryonic lungs fused ex vivo when cultured in juxtaposition, with the area of fusion showing loss of the mesothelial marker Wilms tumor 1. Because a similar pattern of lobe fusion was previously observed in integrin α8 KO embryos, our results suggest that NPNT signaling through integrin α8, likely in the visceral pleura, maintains right lung lobe separation during embryogenesis. [ABSTRACT FROM AUTHOR]

Published

2023

10. A mesothelium divides the subarachnoid space into functional compartments.

Author

Møllgård, Kjeld, Beinlich, Felix R. M., Kusk, Peter, Miyakoshi, Leo M., Delle, Christine, Plá, Virginia, Hauglund, Natalie L., Esmail, Tina, Rasmussen, Martin K., Gomolka, Ryszard S., Mori, Yuki, and Nedergaard, Maiken

Subjects

*MESOTHELIUM, *SUBARACHNOID space, *CENTRAL nervous system, *ARACHNOIDITIS, *MENINGES

Abstract

The central nervous system is lined by meninges, classically known as dura, arachnoid, and pia mater. We show the existence of a fourth meningeal layer that compartmentalizes the subarachnoid space in the mouse and human brain, designated the subarachnoid lymphatic-like membrane (SLYM). SLYM is morpho- and immunophenotypically similar to the mesothelial membrane lining of peripheral organs and body cavities, and it encases blood vessels and harbors immune cells. Functionally, the close apposition of SLYM with the endothelial lining of the meningeal venous sinus permits direct exchange of small solutes between cerebrospinal fluid and venous blood, thus representing the mouse equivalent of the arachnoid granulations. The functional characterization of SLYM provides fundamental insights into brain immune barriers and fluid transport. [ABSTRACT FROM AUTHOR]

Published

2023

11. High endothelial venules in the pleura: MECA-79 expression in mesothelioma, pleural metastasis and pleuritis.

Author

Kherrour, Ikram, Mobarki, Mousa, Péoc'h, Michel, and Karpathiou, Georgia

Subjects

*METASTASIS, *LYMPHOCYTES, *PLEURISY, *TUMOR microenvironment, *MESOTHELIOMA, *BREAST, *PLEURA

Abstract

High endothelial venules (HEVs) are vessels specialized in the extravasation of lymphocytes from the blood to the tissue implicated in the immune microenvironment of several tumors. Their presence has been never studied in the pleural tissue. We retrospectively studied 149 surgical pleural biopsies by immunohistochemistry for MECA-79 expression, a marker specifically recognizing HEVs. The tissues included 44 (44 %) inflammatory and 105 (56 %) neoplastic diseases. The latter corresponded to 34 (22.8 %) mesotheliomas and 71 (47.7 %) metastases from lung (n=50) or breast (n=21) primaries. HEVs were present in 102 (68 %) of all pleural specimens with a mean number of foci containing HEVs of 13.33 (±20.64). Neoplastic pleural pathologies harbored HEVs in 73.3 % of the cases compared to the non-neoplastic pathologies which harbored HEVs in 56.8 % of the cases (p=0.048). Their presence did not differ between pulmonary or mammary metastasis (p=0.7). We show for the first time that HEVs are present in the pleural cavity probably participating in the immune microenvironment of inflammatory and neoplastic pleural disease. [ABSTRACT FROM AUTHOR]

Published

2024

12. Sugar-binding profiles of the mesothelial glycocalyx in frozen tissues of mice revealed by lectin staining.

Author

Taniguchi, Toshiaki, Mogi, Kazumasa, Tomita, Hiroyuki, Okada, Hideshi, Mori, Kosuke, Imaizumi, Yuko, Ichihashi, Koki, Okubo, Takafumi, Niwa, Ayumi, Kanayma, Tomohiro, Yamakita, Yoshihiko, Suzuki, Akio, Sugie, Shigeyuki, Yoshihara, Masato, and Hara, Akira

Subjects

*PARIETAL cells, *ORGANS (Anatomy), *DATURA stramonium, *GLYCOCALYX, *PERITONEUM

Abstract

The mesothelium is a non-adhesive protective surface that lines the serosal cavities and organs within the body. The glycocalyx is a complex structure that coats the outer layer of the mesothelium. However, due to the limitations of conventional fixation techniques, studies on glycans are limited. In this study, lectin staining of frozen tissues was performed to investigate the diversity of glycans in the glycocalyx of mesothelial cells in mice. Datura stramonium lectin (DSL), which recognizes lactosamine and binds to Galectin-3 and −1, was broadly bound to the mesothelial cells of the visceral and parietal peritoneum but not to the pancreas, liver, intestine, or heart. Furthermore, human mesothelial cells in the omentum and parietal peritoneum were positive for DSL. Erythrina cristagalli lectin binding was specific to mesothelial cells in the parietal peritoneum, that is, the pleura, diaphragm, and peritoneum. Intriguingly, surface sialylation, the key element in reducing peritoneal dissemination and implantation, and promoting ascites formation by ovarian carcinoma cells, was much higher in the parietal peritoneum than in the omentum. These findings revealed slight differences in the glycans of mesothelial cells of different organs, which may be related to clinical diseases. These results also suggest that there may be differences in the functions of parietal and visceral mesothelial cells. [ABSTRACT FROM AUTHOR]

Published

2024

13. Understanding Cell Model Characteristics—RNA Expression Profiling in Primary and Immortalized Human Mesothelial Cells, and in Human Vein and Microvascular Endothelial Cells.

Author

Marinovic, Iva, Bartosova, Maria, Herzog, Rebecca, Sacnun, Juan Manuel, Zhang, Conghui, Hoogenboom, Robin, Unterwurzacher, Markus, Hackert, Thilo, Teleman, Aurelio A., Kratochwill, Klaus, and Schmitt, Claus Peter

Subjects

*ENDOTHELIAL cells, *EXTRACELLULAR matrix, *RNA sequencing, *UMBILICAL veins, *VEINS, *CELL adhesion

Abstract

In vitro studies are essential in pre-clinical research. While choice of cell lines is often driven by handling and cost-effectiveness, in-depth knowledge on specific characteristics is scant. Mesothelial cells, which interact with endothelial cells, are widely used in research, including cancer and drug development, but have not been comprehensively profiled. We therefore performed RNA sequencing of polarized, primary peritoneal (HPMC) and immortalized pleural mesothelial cells (MeT-5A), and compared them to endothelial cells from umbilical vein (HUVEC) and cardiac capillaries (HCMEC). Seventy-seven per cent of 12,760 genes were shared between the 4 cell lines, 1003 were mesothelial and 969 were endothelial cell specific. The transcripts reflected major differences between HPMC and MeT-5A in DNA-related processes, extracellular matrix, migration, proliferation, adhesion, transport, growth factor- and immune response, and between HUVEC and HCMEC in DNA replication, extracellular matrix and adhesion organization. Highly variable shared genes were related to six clusters, cell tissue origin and immortalization, but also cell migration capacity, cell adhesion, regulation of angiogenesis and response to hypoxia. Distinct, cell type specific biological processes were further described by cellular component-, molecular function- and Reactome pathway analyses. We provide crucial information on specific features of the most frequently used mesothelial and endothelial cell lines, essential for appropriate use. [ABSTRACT FROM AUTHOR]

Published

2022

14. Molecular and Functional Characterization of the Peritoneal Mesothelium, a Barrier for Solute Transport.

Author

Iva M, Maria B, Eszter L, Rebecca H, Arslan S, Zhiwei D, Conghui Z, Manuel SJ, Eleanna P, Sotirios S, Ivan D, Damir K, Trim L, Mohammed AS, Attila SJ, Michael H, Domonkos P, Klaus K, Susanne K, Zarogiannis Sotirios G, and Peter SC

Abstract

Peritoneal dialysis (PD) is an increasingly needed, life-maintaining kidney replacement therapy; efficient solute transport is critical for patient outcome. While the role of peritoneal perfusion on solute transport in PD has been described, the role of cellular barriers is uncertain, the mesothelium has been considered irrelevant. We calculated peritoneal blood microvascular endothelial (BESA) to mesothelial surface area (MSA) ratio in human peritonea in health, chronic kidney disease, and on PD, and performed molecular transport related gene profiling and single molecule localization microscopy in two mesothelial (MC) and two endothelial cell lines (EC). Molecular-weight dependent transport was studied in-vitro, ex-vivo and in mice. Peritoneal BESA is 1-3-fold higher than MSA across age groups, and increases with PD, while the mesothelium is preserved during the first two years of PD. Tight junction, transmembrane and transcytotic transporter expression are cell-type specifically expressed. At nanoscale, tight junction anchoring protein Zonula occludens-1 is more abundant and more continuously expressed along the MC than the EC. Ionic conductance is 3-fold lower across the MC than human microvascular EC, as is the permeability for creatinine, 4- and 10-kDa, but not for 70-kDa dextran. MC removal from sheep peritoneum abolishes ionic barrier function. Short term intraperitoneal LPS exposure in mice selectively affects peritoneal mesothelial integrity and increases transperitoneal solute transport. We provide molecular correlates and consistent functional evidence for the mesothelium as a barrier for peritoneal solute transport, i.e., essential information on peritoneal transport modelling, and for interventions to improve PD efficiency and biocompatibility, and beyond., (© The Author(s) 2024. Published by Oxford University Press on behalf of American Physiological Society.)

Published

2024

15. Gender- and Age-Based Characterization and Comparison of the Murine Primary Peritoneal Mesothelial Cell Proteome.

Author

Wang Z, Liu Y, Safavisohi R, Asem M, Hu DD, Stack MS, and Champion MM

Abstract

Organs in the abdominal cavity are covered by a peritoneal membrane, which is comprised of a monolayer of mesothelial cells (MC). Diseases involving the peritoneal membrane include peritonitis, primary cancer (mesothelioma), and metastatic cancers (ovarian, pancreatic, colorectal). These diseases have gender- and/or age-related pathologies; however, the impact of gender and age on the peritoneal MC is not well evaluated. To address this, we identified and characterized gender- and age-related differences in the proteomes of murine primary peritoneal MC. Primary peritoneal MC were isolated from young female (FY) or male (MY) mice (3-6 months) and aged female (FA) or male (MA) mice (20-23 months), lysed, trypsin digested using S-Traps, then subjected to bottom-up proteomics using an LC-Orbitrap mass spectrometer. In each cohort, we identified >1000 protein groups. Proteins were categorized using Gene Ontology and pairwise comparisons between gender and age cohorts were conducted. This study establishes baseline information for studies on peritoneal MC in health and disease at two physiologic age/gender points. Segregation of the data by gender and age could reveal novel factors to specific disease states involving the peritoneum. [This in vitro primary cell model has utility for future studies on the interaction between the mesothelium and foreign materials.]., Competing Interests: CONFLICT OF INTEREST The authors have no financial or commercial conflicts of interest to declare.

Published

2024

16. Xenografts on nude mouse diaphragm of human DU145 prostate carcinoma cells: mesothelium removal by outgrowths and angiogenesis.

Author

Gilloteaux, Dr Jacques, Jamison, James M, Summers, Jack L, and Taper, Henryk S

Subjects

*PROSTATE, *XENOGRAFTS, *NEOVASCULARIZATION, *MICE, *TRANSMISSION electron microscopy, *ANDROGEN receptors, *TERATOCARCINOMA

Abstract

Human prostate carcinoma DU145 cells, androgen-independent malignant cells, implanted in the athymic nu/nu male mouse, developed numerous tumors on peritoneal and retro-peritoneal organs whose growth aspects and vascular supply have yet to be investigated with fine structure techniques. A series of necropsies from moribund implanted mice diaphragms were examined with light, scanning, and transmission electron microscopy. DU145 xenografts installations, far away from the implanted site, were described as the smallest installation to large diaphragm outgrowths in moribund mice. Carcinomas did not show extracellular matrix and, reaching more than 0.15 mm in thickness, they revealed new structures in these outgrowths. Voids to be gland-like structures with mediocre secretion and, unexpectedly, intercellular spaces connected with fascicles of elongated DU145 cells that merged with a vascular supply originated from either the tumor cells and/or some perimysium vessels. In the largest carcinomas, most important vascular invasions coincidently accompanied the mouse lethality, similarly to human cancers. This androgen-independent model would be useful to study tumor outgrowth's changes related to testing anticancer strategy, including anti-angiogenic therapies involving toxicity, simultaneously with those of other vital organs with combined biomolecular and fine structure techniques. [ABSTRACT FROM AUTHOR]

Published

2022

17. Complementary Role of GlcNAc6ST2 and GlcNAc6ST3 in Synthesis of CL40-Reactive Sialylated and Sulfated Glycans in the Mouse Pleural Mesothelium.

Author

Takeda-Uchimura, Yoshiko, Ikezaki, Midori, Akama, Tomoya O., Nishioka, Kaho, Ihara, Yoshito, Allain, Fabrice, Nishitsuji, Kazuchika, and Uchimura, Kenji

Subjects

*GLYCANS, *LUNGS, *MICE, *PLEURA, *IMMUNOSTAINING, *MUCOUS membranes

Abstract

Sialyl 6-sulfo Lewis X (6-sulfo sLeX) and its derivative sialyl 6-sulfo N-acetyllactosamine (LacNAc) are sialylated and sulfated glycans of sialomucins found in the high endothelial venules (HEVs) of secondary lymphoid organs. A component of 6-sulfo sLeX present in the core 1-extended O-linked glycans detected by the MECA-79 antibody was previously shown to exist in the lymphoid aggregate vasculature and bronchial mucosa of allergic and asthmatic lungs. The components of 6-sulfo sLeX in pulmonary tissues under physiological conditions remain to be analyzed. The CL40 antibody recognizes 6-sulfo sLeX and sialyl 6-sulfo LacNAc in O-linked and N-linked glycans, with absolute requirements for both GlcNAc-6-sulfation and sialylation. Immunostaining of normal mouse lungs with CL40 was performed and analyzed. The contribution of GlcNAc-6-O-sulfotransferases (GlcNAc6STs) to the synthesis of the CL40 epitope in the lungs was also elucidated. Here, we show that the expression of the CL40 epitope was specifically detected in the mesothelin-positive mesothelium of the pulmonary pleura. Moreover, GlcNAc6ST2 (encoded by Chst4) and GlcNAc6ST3 (encoded by Chst5), but not GlcNAc6ST1 (encoded by Chst2) or GlcNAc6ST4 (encoded by Chst7), are required for the synthesis of CL40-positive glycans in the lung mesothelium. Furthermore, neither GlcNAc6ST2 nor GlcNAc6ST3 is sufficient for in vivo expression of the CL40 epitope in the lung mesothelium, as demonstrated by GlcNAc6ST1/3/4 triple-knock-out and GlcNAc6ST1/2/4 triple-knock-out mice. These results indicate that CL40-positive sialylated and sulfated glycans are abundant in the pleural mesothelium and are synthesized complementarily by GlcNAc6ST2 and GlcNAc6ST3, under physiological conditions in mice. [ABSTRACT FROM AUTHOR]

Published

2022

18. Das Mesothel - Relevanz in der Ergusszytologie.

Author

Feldhaus, Suhela

Subjects

*PERICARDIAL effusion, *PLEURAL effusions, *CYTOLOGY, *CONTINUING education units, *EPITHELIAL cells, *PERICARDIUM, *PERITONEUM, *CANCER invasiveness, *PLEURA, *EPITHELIUM, *CLINICAL pathology, *METASTASIS, *PERITONEUM diseases, *MESOTHELIOMA, *STAINS & staining (Microscopy), *MICROSCOPY, *TUMORS, *DISEASE complications

Abstract

The mesothelium consists of a single-layer squamous epithelium and lines the internal organs of the body. Mesothelial cells have many important functions, including the transport of cells and fluid into the serous cavities. Localizations of the mesothelium that are relevant for cytology are the pleura, the pericardium and the peritoneum. An effusion in the serous cavities can be caused by various factors. For diagnostic examination, the free fluid is removed clinically and examined in a cytology laboratory. The cells of the effusion, especially the mesothelial cells, are examined morpho - logically under a light microscope and the cause of the effusion is determined. Not only metastatic tumors can invade the serous cavities, mesothelial cells can also be the origin of a malignant tumor disease. [ABSTRACT FROM AUTHOR]

Published

2024

19. Organotypic 3D Co-Culture of Human Pleura as a Novel In Vitro Model of Staphylococcus aureus Infection and Biofilm Development

Author

Olga Kurow, Rima Nuwayhid, Peggy Stock, Matthias Steinert, Stefan Langer, Sebastian Krämer, and Isabella B. Metelmann

Subjects

pleura, mesothelium, 3D co-culture, organotypic model, tissue engineering, Staphylococcus aureus, Technology, Biology (General), QH301-705.5

Abstract

Bacterial pleural infections are associated with high mortality. Treatment is complicated due to biofilm formation. A common causative pathogen is Staphylococcus aureus (S. aureus). Since it is distinctly human-specific, rodent models do not provide adequate conditions for research. The purpose of this study was to examine the effects of S. aureus infection on human pleural mesothelial cells using a recently established 3D organotypic co-culture model of pleura derived from human specimens. After infection of our model with S. aureus, samples were harvested at defined time points. Histological analysis and immunostaining for tight junction proteins (c-Jun, VE-cadherin, and ZO-1) were performed, demonstrating changes comparable to in vivo empyema. The measurement of secreted cytokine levels (TNF-α, MCP-1, and IL-1β) proved host–pathogen interactions in our model. Similarly, mesothelial cells produced VEGF on in vivo levels. These findings were contrasted by vital, unimpaired cells in a sterile control model. We were able to establish a 3D organotypic in vitro co-culture model of human pleura infected with S. aureus resulting in the formation of biofilm, including host–pathogen interactions. This novel model could be a useful microenvironment tool for in vitro studies on biofilm in pleural empyema.

Published

2023

20. Angiogenic Role of Mesothelium-Derived Chemokine CXCL1 During Unfavorable Peritoneal Tissue Remodeling in Patients Receiving Peritoneal Dialysis as Renal Replacement Therapy.

Author

Catar, Rusan Ali, Bartosova, Maria, Kawka, Edyta, Chen, Lei, Marinovic, Iva, Zhang, Conghui, Zhao, Hongfan, Wu, Dashan, Zickler, Daniel, Stadnik, Honorata, Karczewski, Marek, Kamhieh-Milz, Julian, Jörres, Achim, Moll, Guido, Schmitt, Claus Peter, and Witowski, Janusz

Subjects

RENAL replacement therapy, PERITONEAL dialysis, TISSUE remodeling, HEMODIALYSIS, ENDOTHELIUM diseases, VASCULAR endothelial growth factors, CORONAVIRUS diseases

Abstract

Peritoneal dialysis (PD) is a valuable 'home treatment' option, even more so during the ongoing Coronavirus pandemic. However, the long-term use of PD is limited by unfavourable tissue remodelling in the peritoneal membrane, which is associated with inflammation-induced angiogenesis. This appears to be driven primarily through vascular endothelial growth factor (VEGF), while the involvement of other angiogenic signaling pathways is still poorly understood. Here, we have identified the crucial contribution of mesothelial cell-derived angiogenic CXC chemokine ligand 1 (CXCL1) to peritoneal angiogenesis in PD. CXCL1 expression and peritoneal microvessel density were analysed in biopsies obtained by the International Peritoneal Biobank (NCT01893710 at www.clinicaltrials.gov), comparing 13 children with end-stage kidney disease before initiating PD to 43 children on chronic PD. The angiogenic potential of mesothelial cell-derived CXCL1 was assessed in vitro by measuring endothelial tube formation of human microvascular endothelial cells (HMECs) treated with conditioned medium from human peritoneal mesothelial cells (HPMCs) stimulated to release CXCL1 by treatment with either recombinant IL-17 or PD effluent. We found that the capillary density in the human peritoneum correlated with local CXCL1 expression. Both CXCL1 expression and microvessel density were higher in PD patients than in the age-matched patients prior to initiation of PD. Exposure of HMECs to recombinant CXCL1 or conditioned medium from IL-17-stimulated HPMCs resulted in increased endothelial tube formation, while selective inhibition of mesothelial CXCL1 production by specific antibodies or through silencing of relevant transcription factors abolished the proangiogenic effect of HPMC-conditioned medium. In conclusion, peritoneal mesothelium-derived CXCL1 promotes endothelial tube formation in vitro and associates with peritoneal microvessel density in uremic patients undergoing PD, thus providing novel targets for therapeutic intervention to prolong PD therapy. [ABSTRACT FROM AUTHOR]

Published

2022

21. Angiogenic Role of Mesothelium-Derived Chemokine CXCL1 During Unfavorable Peritoneal Tissue Remodeling in Patients Receiving Peritoneal Dialysis as Renal Replacement Therapy

Author

Rusan Ali Catar, Maria Bartosova, Edyta Kawka, Lei Chen, Iva Marinovic, Conghui Zhang, Hongfan Zhao, Dashan Wu, Daniel Zickler, Honorata Stadnik, Marek Karczewski, Julian Kamhieh-Milz, Achim Jörres, Guido Moll, Claus Peter Schmitt, and Janusz Witowski

Subjects

end-stage renal disease (ESRD), peritoneal dialysis (PD), mesothelium, cytokine/chemokine-signaling, angiogenesis, interleukin 17, Immunologic diseases. Allergy, RC581-607

Abstract

Peritoneal dialysis (PD) is a valuable ‘home treatment’ option, even more so during the ongoing Coronavirus pandemic. However, the long-term use of PD is limited by unfavourable tissue remodelling in the peritoneal membrane, which is associated with inflammation-induced angiogenesis. This appears to be driven primarily through vascular endothelial growth factor (VEGF), while the involvement of other angiogenic signaling pathways is still poorly understood. Here, we have identified the crucial contribution of mesothelial cell-derived angiogenic CXC chemokine ligand 1 (CXCL1) to peritoneal angiogenesis in PD. CXCL1 expression and peritoneal microvessel density were analysed in biopsies obtained by the International Peritoneal Biobank (NCT01893710 at www.clinicaltrials.gov), comparing 13 children with end-stage kidney disease before initiating PD to 43 children on chronic PD. The angiogenic potential of mesothelial cell-derived CXCL1 was assessed in vitro by measuring endothelial tube formation of human microvascular endothelial cells (HMECs) treated with conditioned medium from human peritoneal mesothelial cells (HPMCs) stimulated to release CXCL1 by treatment with either recombinant IL-17 or PD effluent. We found that the capillary density in the human peritoneum correlated with local CXCL1 expression. Both CXCL1 expression and microvessel density were higher in PD patients than in the age-matched patients prior to initiation of PD. Exposure of HMECs to recombinant CXCL1 or conditioned medium from IL-17-stimulated HPMCs resulted in increased endothelial tube formation, while selective inhibition of mesothelial CXCL1 production by specific antibodies or through silencing of relevant transcription factors abolished the proangiogenic effect of HPMC-conditioned medium. In conclusion, peritoneal mesothelium-derived CXCL1 promotes endothelial tube formation in vitro and associates with peritoneal microvessel density in uremic patients undergoing PD, thus providing novel targets for therapeutic intervention to prolong PD therapy.

Published

2022

22. The relationship between changes in peritoneal permeability with CA-125 and HIF-1α.

Author

Koyuncu S, Sipahioğlu H, Karakukcu C, Zararsız G, İçaçan G, Biçer NS, and Kocyigit I

Abstract

Background: Peritoneal fibrosis (PF) is a major, persistent complication of prolonged peritoneal dialysis that eventually leads to peritoneal ultrafiltration failure and termination of peritoneal dialysis. Prolonged exposure to high glucose concentrations, degradation products, uremic toxins, and episodes of peritonitis can cause some changes in the peritoneal membrane, resulting in intraperitoneal inflammation and PF, leading to failure of ultrafiltration and dialysis. CA-125 can be used as a biomarker of peritoneal mesothelial cell count in the peritoneal dialysate and for monitoring cell count in PD patients. Hypoxia-inducible factor 1-alpha (HIF-1α) has been reported to cause PF, but has not been reported to be associated with changes in peritoneal structure. We hypothesized that peritoneal adequacy can be followed using HIF-1α and CA-125 values. In the present study, therefore, we investigated the relationship between HIF-1α and CA-125 levels and parietal membrane permeability changes in PD patients., Methods: Forty-five patients were included in the study. Peritoneal permeability was constant in 20 of these, while peritoneal permeability increased in 11 and decreased in 14. The HIF-1α value from the blood samples of the patients and the CA-125 measurement from the peritoneal fluids were measured. The relationship between peritoneal variability and CA-125 and HIF levels after follow-up was investigated., Results: We compared serum HIF-1α and peritoneal fluid CA-125 levels in the three groups receiving peritoneal dialysis treatment. HIF-1α levels increased with peritoneal permeability changes, while CA-125 levels decreased. In patients with high to low permeability changes, HIF-1α levels were higher compared to those with stable or low to high changes, which was statistically significant. Conversely, CA-125 levels significantly decreased in patients whose peritoneal permeability changed from high to low, compared to the other two groups., Conclusion: Changes in peritoneal structure can be followed with biomarkers. It has been shown that CA-125 and HIF-1α levels can guide the changes in the peritoneal membrane. This can be useful in the monitoring of peritoneal dialysis., (© 2024 International Society for Apheresis and Japanese Society for Apheresis.)

Published

2024

23. Cellular Origin(s) of Congenital Diaphragmatic Hernia

Author

Gabriëla G. Edel, Gerben Schaaf, Rene M. H. Wijnen, Dick Tibboel, Gabrielle Kardon, and Robbert J. Rottier

Subjects

congenital diaphragmatic hernia (CDH), diaphragm, pleuroperitoneal folds, perivascular cells, mesothelium, Pediatrics, RJ1-570

Abstract

Congenital diaphragmatic hernia (CDH) is a structural birth defect characterized by a diaphragmatic defect, lung hypoplasia and structural vascular defects. In spite of recent developments, the pathogenesis of CDH is still poorly understood. CDH is a complex congenital disorder with multifactorial etiology consisting of genetic, cellular and mechanical factors. This review explores the cellular origin of CDH pathogenesis in the diaphragm and lungs and describes recent developments in basic and translational CDH research.

Published

2021

24. Understanding Cell Model Characteristics—RNA Expression Profiling in Primary and Immortalized Human Mesothelial Cells, and in Human Vein and Microvascular Endothelial Cells

Author

Iva Marinovic, Maria Bartosova, Rebecca Herzog, Juan Manuel Sacnun, Conghui Zhang, Robin Hoogenboom, Markus Unterwurzacher, Thilo Hackert, Aurelio A. Teleman, Klaus Kratochwill, and Claus Peter Schmitt

Subjects

mesothelium, endothelium, RNA sequencing, in vitro, cell models, Cytology, QH573-671

Abstract

In vitro studies are essential in pre-clinical research. While choice of cell lines is often driven by handling and cost-effectiveness, in-depth knowledge on specific characteristics is scant. Mesothelial cells, which interact with endothelial cells, are widely used in research, including cancer and drug development, but have not been comprehensively profiled. We therefore performed RNA sequencing of polarized, primary peritoneal (HPMC) and immortalized pleural mesothelial cells (MeT-5A), and compared them to endothelial cells from umbilical vein (HUVEC) and cardiac capillaries (HCMEC). Seventy-seven per cent of 12,760 genes were shared between the 4 cell lines, 1003 were mesothelial and 969 were endothelial cell specific. The transcripts reflected major differences between HPMC and MeT-5A in DNA-related processes, extracellular matrix, migration, proliferation, adhesion, transport, growth factor- and immune response, and between HUVEC and HCMEC in DNA replication, extracellular matrix and adhesion organization. Highly variable shared genes were related to six clusters, cell tissue origin and immortalization, but also cell migration capacity, cell adhesion, regulation of angiogenesis and response to hypoxia. Distinct, cell type specific biological processes were further described by cellular component-, molecular function- and Reactome pathway analyses. We provide crucial information on specific features of the most frequently used mesothelial and endothelial cell lines, essential for appropriate use.

Published

2022

25. Mesothelial cells are not a source of adipocytes in mice

Author

Gregory P. Westcott, Margo P. Emont, Jin Li, Christopher Jacobs, Linus Tsai, and Evan D. Rosen

Subjects

mesothelium, adipogenesis, adipocyte, single-cell RNA-seq, Biology (General), QH301-705.5

Abstract

Summary: Visceral adipose tissue (VAT) depots are associated with the adverse metabolic consequences of obesity, such as insulin resistance. The developmental origin of VAT depots and the identity and regulation of adipocyte progenitor cells have been active areas of investigation. In recent years, a paradigm of mesothelial cells as a source of VAT adipocyte progenitor cells has emerged based on lineage tracing studies using the Wilms’ tumor gene, Wt1, as a marker for cells of mesothelial origin. Here, we show that Wt1 expression in adipose tissue is not limited to the mesothelium but is also expressed by a distinct preadipocyte population in mice and humans. We identify keratin 19 (Krt19) as a highly specific marker for the adult mouse mesothelium and demonstrate that Krt19-expressing mesothelial cells do not differentiate into visceral adipocytes. These results contradict the assertion that the VAT mesothelium can serve as a source of adipocytes.

Published

2021

26. Restricted differentiative capacity of Wt1-expressing peritoneal mesothelium in postnatal and adult mice.

Author

Wilm, Thomas P., Tanton, Helen, Mutter, Fiona, Foisor, Veronica, Middlehurst, Ben, Ward, Kelly, Benameur, Tarek, Hastie, Nicholas, and Wilm, Bettina

Subjects

*MESOTHELIUM, *PROTEIN expression, *VASCULAR smooth muscle, *PERITONEUM, *LABORATORY mice

Abstract

Previously, genetic lineage tracing based on the mesothelial marker Wt1, appeared to show that peritoneal mesothelial cells have a range of differentiative capacities and are the direct progenitors of vascular smooth muscle in the intestine. However, it was not clear whether this was a temporally limited process or continued throughout postnatal life. Here, using a conditional Wt1-based genetic lineage tracing approach, we demonstrate that the postnatal and adult peritoneum covering intestine, mesentery and body wall only maintained itself and failed to contribute to other visceral tissues. Pulse-chase experiments of up to 6 months revealed that Wt1-expressing cells remained confined to the peritoneum and failed to differentiate into cellular components of blood vessels or other tissues underlying the peritoneum. Our data confirmed that the Wt1-lineage system also labelled submesothelial cells. Ablation of Wt1 in adult mice did not result in changes to the intestinal wall architecture. In the heart, we observed that Wt1-expressing cells maintained the epicardium and contributed to coronary vessels in newborn and adult mice. Our results demonstrate that Wt1-expressing cells in the peritoneum have limited differentiation capacities, and that contribution of Wt1-expressing cells to cardiac vasculature is based on organ-specific mechanisms. [ABSTRACT FROM AUTHOR]

Published

2021

27. Diagnostic mesothelioma biomarkers in effusion cytology.

Author

Eccher, Albino, Girolami, Ilaria, Lucenteforte, Ersilia, Troncone, Giancarlo, Scarpa, Aldo, and Pantanowitz, Liron

Abstract

Malignant mesothelioma is a rare malignancy with a poor prognosis whose development is related to asbestos fiber exposure. An increasing role of genetic predisposition has been recognized recently. Pleural biopsy is the gold standard for diagnosis, in which the identification of pleural invasion by atypical mesothelial cell is a major criterion. Pleural effusion is usually the first sign of disease; therefore, a cytological specimen is often the initial or the only specimen available for diagnosis. Given that reactive mesothelial cells may show marked atypia, the diagnosis of mesothelioma on cytomorphology alone is challenging. Accordingly, cell block preparation is encouraged, as it permits immunohistochemical staining. Traditional markers of mesothelioma such as glucose transporter 1 (GLUT1) and insulin‐like growth factor 2 mRNA‐binding protein 3 (IMP3) are informative, but difficult to interpret when reactive proliferations aberrantly stain positive. BRCA1‐associated protein 1 (BAP1) nuclear staining loss is highly specific for mesothelioma, but sensitivity is low in sarcomatoid tumors. Cyclin‐dependent kinase inhibitor 2A (CDKN2A)/p16 homozygous deletion, assessed by fluorescence in situ hybridization, is more specific for mesothelioma with better sensitivity, even in the sarcomatoid variant. The surrogate marker methylthioadenosine phosphorylase (MTAP) has been found to demonstrate excellent diagnostic correlation with p16. The purpose of this review is to provide an essential appraisal of the literature regarding the diagnostic value of many of these emerging biomarkers for malignant mesothelioma in effusion cytology. Effusion cytology is often the only available specimen for diagnosis of malignant pleura mesothelioma (MPM), but the cytological features of MPM are not always straightforward, as reactive mesothelial cells can have an atypical appearance that overlaps with MPM. There are many biomarkers currently available to aid in the diagnosis of mesothelioma; however, because none of these markers is to be relied upon alone, they are best used in combination to increase their diagnostic yield. [ABSTRACT FROM AUTHOR]

Published

2021

28. Targeting the Formyl Peptide Receptor type 1 to prevent the adhesion of ovarian cancer cells onto mesothelium and subsequent invasion

Author

Michele Minopoli, Giovanni Botti, Vincenzo Gigantino, Concetta Ragone, Sabrina Sarno, Maria Letizia Motti, Giosuè Scognamiglio, Stefano Greggi, Cono Scaffa, Maria Serena Roca, Maria Patrizia Stoppelli, Gennaro Ciliberto, Nunzia Simona Losito, and Maria Vincenza Carriero

Subjects

Formyl peptide receptor, Urokinase receptor, Peptide, Ovarian cancer, Adhesion, Mesothelium, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The biological behavior of epithelial ovarian cancer (EOC) is unique since EOC cells metastasize early to the peritoneum. Thereby, new anti-target agents designed to block trans-coelomic dissemination of EOC cells may be useful as anti-metastatic drugs. The Urokinase Plasminogen Activator Receptor (uPAR) is overexpressed in EOC tissues, and its truncated forms released in sera and/or ascitic fluid are associated with poor prognosis and unfavorable clinical outcome. We documented that uPAR triggers intra-abdominal dissemination of EOC cells through the interaction of its 84–95 sequence with the Formyl Peptide Receptor type 1 (FPR1), even as short linear peptide Ser-Arg-Ser-Arg-Tyr (SRSRY). While the pro-metastatic role of uPAR is well documented, little information regarding the expression and role of FPR1 in EOC is currently available. Methods Expression levels of uPAR and FPR1 in EOC cells and tissues were assessed by immunofluorescence, Western blot, or immunohystochemistry. Cell adhesion to extra-cellular matrix proteins and mesothelium as well as mesothelium invasion kinetics by EOC cells were monitored using the xCELLigence technology or assessed by measuring cell-associated fluorescence. Cell internalization of FPR1 was identified on multiple z-series by confocal microscopy. Data from in vitro assays were analysed by one-way ANOVA and post-hoc Dunnett t-test for multiple comparisons. Tissue microarray data were analyzed with the Pearson’s Chi-square (χ2) test. Results Co-expression of uPAR and FPR1 by SKOV-3 and primary EOC cells confers a marked adhesion to vitronectin. The extent of cell adhesion decreases to basal level by pre-exposure to anti-uPAR84–95 Abs, or to the RI-3 peptide, blocking the uPAR84–95/FPR1 interaction. Furthermore, EOC cells exposed to RI-3 or desensitized with an excess of SRSRY, fail to adhere also to mesothelial cell monolayers, losing the ability to cross them. Finally, primary and metastatic EOC tissues express a high level of FPR1. Conclusions Our findings identify for the first time FPR1 as a potential biomarker of aggressive EOC and suggests that inhibitors of the uPAR84–95/FPR1 crosstalk may be useful for the treatment of metastatic EOC.

Published

2019

29. Complementary Role of GlcNAc6ST2 and GlcNAc6ST3 in Synthesis of CL40-Reactive Sialylated and Sulfated Glycans in the Mouse Pleural Mesothelium

Author

Yoshiko Takeda-Uchimura, Midori Ikezaki, Tomoya O. Akama, Kaho Nishioka, Yoshito Ihara, Fabrice Allain, Kazuchika Nishitsuji, and Kenji Uchimura

Subjects

sulfotransferase, sulfated glycan, sialyl 6-sulfo Lewis X, sialomucin, mesothelium, Organic chemistry, QD241-441

Abstract

Sialyl 6-sulfo Lewis X (6-sulfo sLeX) and its derivative sialyl 6-sulfo N-acetyllactosamine (LacNAc) are sialylated and sulfated glycans of sialomucins found in the high endothelial venules (HEVs) of secondary lymphoid organs. A component of 6-sulfo sLeX present in the core 1-extended O-linked glycans detected by the MECA-79 antibody was previously shown to exist in the lymphoid aggregate vasculature and bronchial mucosa of allergic and asthmatic lungs. The components of 6-sulfo sLeX in pulmonary tissues under physiological conditions remain to be analyzed. The CL40 antibody recognizes 6-sulfo sLeX and sialyl 6-sulfo LacNAc in O-linked and N-linked glycans, with absolute requirements for both GlcNAc-6-sulfation and sialylation. Immunostaining of normal mouse lungs with CL40 was performed and analyzed. The contribution of GlcNAc-6-O-sulfotransferases (GlcNAc6STs) to the synthesis of the CL40 epitope in the lungs was also elucidated. Here, we show that the expression of the CL40 epitope was specifically detected in the mesothelin-positive mesothelium of the pulmonary pleura. Moreover, GlcNAc6ST2 (encoded by Chst4) and GlcNAc6ST3 (encoded by Chst5), but not GlcNAc6ST1 (encoded by Chst2) or GlcNAc6ST4 (encoded by Chst7), are required for the synthesis of CL40-positive glycans in the lung mesothelium. Furthermore, neither GlcNAc6ST2 nor GlcNAc6ST3 is sufficient for in vivo expression of the CL40 epitope in the lung mesothelium, as demonstrated by GlcNAc6ST1/3/4 triple-knock-out and GlcNAc6ST1/2/4 triple-knock-out mice. These results indicate that CL40-positive sialylated and sulfated glycans are abundant in the pleural mesothelium and are synthesized complementarily by GlcNAc6ST2 and GlcNAc6ST3, under physiological conditions in mice.

Published

2022

30. Sterile Injury Repair and Adhesion Formation at Serosal Surfaces

Author

Simone N. Zwicky, Deborah Stroka, and Joel Zindel

Subjects

peritoneal adhesions, peritoneum, sterile injury, mesothelium, post-surgical adhesions, Immunologic diseases. Allergy, RC581-607

Abstract

Most multicellular organisms have a major body cavity containing vital organs. This cavity is lined by a mucosa-like serosal surface and filled with serous fluid which suspends many immune cells. Injuries affecting the major body cavity are potentially life-threatening. Here we summarize evidence that unique damage detection and repair mechanisms have evolved to ensure immediate and swift repair of injuries at serosal surfaces. Furthermore, thousands of patients undergo surgery within the abdominal and thoracic cavities each day. While these surgeries are potentially lifesaving, some patients will suffer complications due to inappropriate scar formation when wound healing at serosal surfaces defects. These scars called adhesions cause profound challenges for health care systems and patients. Therefore, reviewing the mechanisms of wound repair at serosal surfaces is of clinical importance. Serosal surfaces will be introduced with a short embryological and microanatomical perspective followed by a discussion of the mechanisms of damage recognition and initiation of sterile inflammation at serosal surfaces. Distinct immune cells populations are free floating within the coelomic (peritoneal) cavity and contribute towards damage recognition and initiation of wound repair. We will highlight the emerging role of resident cavity GATA6+ macrophages in repairing serosal injuries and compare serosal (mesothelial) injuries with injuries to the blood vessel walls. This allows to draw some parallels such as the critical role of the mesothelium in regulating fibrin deposition and how peritoneal macrophages can aggregate in a platelet-like fashion in response to sterile injury. Then, we discuss how serosal wound healing can go wrong, causing adhesions. The current pathogenetic understanding of and potential future therapeutic avenues against adhesions are discussed.

Published

2021

31. The Respiratory System

Author

Rehfeld, Anders, Nylander, Malin, Karnov, Kirstine, Rehfeld, Anders, Nylander, Malin, and Karnov, Kirstine

Published

2017

32. Sterile Injury Repair and Adhesion Formation at Serosal Surfaces.

Author

Zwicky, Simone N., Stroka, Deborah, and Zindel, Joel

Subjects

SEROUS fluids, WOUND healing, PERITONEAL macrophages, ABDOMINAL surgery, CHEST (Anatomy), INAPPROPRIATE prescribing (Medicine)

Abstract

Most multicellular organisms have a major body cavity containing vital organs. This cavity is lined by a mucosa-like serosal surface and filled with serous fluid which suspends many immune cells. Injuries affecting the major body cavity are potentially life-threatening. Here we summarize evidence that unique damage detection and repair mechanisms have evolved to ensure immediate and swift repair of injuries at serosal surfaces. Furthermore, thousands of patients undergo surgery within the abdominal and thoracic cavities each day. While these surgeries are potentially lifesaving, some patients will suffer complications due to inappropriate scar formation when wound healing at serosal surfaces defects. These scars called adhesions cause profound challenges for health care systems and patients. Therefore, reviewing the mechanisms of wound repair at serosal surfaces is of clinical importance. Serosal surfaces will be introduced with a short embryological and microanatomical perspective followed by a discussion of the mechanisms of damage recognition and initiation of sterile inflammation at serosal surfaces. Distinct immune cells populations are free floating within the coelomic (peritoneal) cavity and contribute towards damage recognition and initiation of wound repair. We will highlight the emerging role of resident cavity GATA6+ macrophages in repairing serosal injuries and compare serosal (mesothelial) injuries with injuries to the blood vessel walls. This allows to draw some parallels such as the critical role of the mesothelium in regulating fibrin deposition and how peritoneal macrophages can aggregate in a platelet-like fashion in response to sterile injury. Then, we discuss how serosal wound healing can go wrong, causing adhesions. The current pathogenetic understanding of and potential future therapeutic avenues against adhesions are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

33. Endothelial Cell Protein C Receptor Deficiency Attenuates Streptococcus pneumoniae–induced Pleural Fibrosis.

Author

Keshava, Shiva, Magisetty, Jhansi, Tucker, Torry A., Kujur, Weshely, Mulik, Sachin, Esmon, Charles T., Idell, Steven, Mohan Rao, L. Vijaya, and Pendurthi, Usha R.

Subjects

STREPTOCOCCUS pneumoniae, EMPYEMA, IMMUNE system, PROTEIN C, ENDOTHELIAL cells

Abstract

Streptococcus pneumoniae is the leading cause of hospital community-acquired pneumonia. Patients with pneumococcal pneumonia may develop complicated parapneumonic effusions or empyema that can lead to pleural organization and subsequent fibrosis. The pathogenesis of pleural organization and scarification involves complex interactions between the components of the immune system, coagulation, and fibrinolysis. EPCR (endothelial protein C receptor) is a critical component of the protein C anticoagulant pathway. The present study was performed to evaluate the role of EPCR in the pathogenesis of S. pneumoniae infection–induced pleural thickening and fibrosis. Our studies show that the pleural mesothelium expresses EPCR. Intrapleural instillation of S. pneumoniae impairs lung compliance and lung volume in wild-type and EPCR-overexpressing mice but not in EPCR-deficient mice. Intrapleural S. pneumoniae infection induces pleural thickening in wild-type mice. Pleural thickening is more pronounced in EPCR-overexpressing mice, whereas it is reduced in EPCR-deficient mice. Markers of mesomesenchymal transition are increased in the visceral pleura of S. pneumoniae–infected wild-type and EPCR-overexpressing mice but not in EPCR-deficient mice. The lungs of wild-type and EPCR-overexpressing mice administered intrapleural S. pneumoniae showed increased infiltration of macrophages and neutrophils, which was significantly reduced in EPCR-deficient mice. An analysis of bacterial burden in the pleural lavage, the lungs, and blood revealed a significantly lower bacterial burden in EPCR-deficient mice compared with wild-type and EPCR-overexpressing mice. Overall, our data provide strong evidence that EPCR deficiency protects against S. pneumoniae infection–induced impairment of lung function and pleural remodeling. [ABSTRACT FROM AUTHOR]

Published

2021

34. Study of inflammatory signalling in epithelial ovarian cancer and the normal human mesothelium

Author

Fegan, Kenneth Scott, Hillier, Steven., and Sellar, Grant

Subjects

616.994, ovarian cancer, mesothelium, ovarian surface epithelium, 11ßHSD1, 11-beta hydroxysteroid dehydrogenase type 1, IgLON

Abstract

Epithelial Ovarian Cancer (EOC) kills more women annually in the United Kingdom than any other gynaecological cancer. Survival rates for women diagnosed with EOC have not improved over the past 30 years, due to the often advanced stage at presentation, where widespread intra-peritoneal dissemination has occurred. The natural history of the disease remains uncertain but the ovarian surface epithelium (OSE) is a strong candidate for the tissue of origin. The OSE undergoes cyclical damage and repair in women of reproductive age following ovulation, which can be considered an acute inflammatory event. Factors that prevent ovulation (pregnancy, breastfeeding and contraceptive pill use) also protect against the development of EOC. Previously published data show that the OSE is able to upregulate the enzyme 11-beta hydroxysteroid dehydrogenase type 1 (11βHSD1) in response to inflammation, the enzyme responsible for converting inactive cortisone to anti-inflammatory cortisol. This thesis hypothesises that 11βHSD isozymes are deregulated in ovarian cancer; that the peritoneal surface epithelium (PSE) is indistinguishable from the OSE in its response to inflammation and should be considered a potential source of some “ovarian cancers”; and finally that the expression of the tumour suppressor gene OPCML (OPioid binding Cell adhesion Molecule-Like) is altered by inflammation. These hypotheses were examined at three levels. Firstly, primary cultures of EOC were established, and glucocorticoid metabolism and the response to inflammation was compared to normal OSE. Results from these investigations reveal that the11βHSD1 response to IL-1α stimulation is impaired in EOC compared to normal OSE at the mRNA level but there is no significant difference when 11βHSD1 enzyme activity is measured in these tissues. When basal levels of 11βHSD1, 11βHSD2 and COX2 are compared amongst untreated samples of EOC and OSE, there was a significant correlation between 11βHSD1 and COX2 mRNA expression (P<0.001). 11βHSD2 mRNA expression was significantly higher in the EOC specimens compared to OSE (P<0.05). Secondly the response to inflammation was compared in primary cultures of human peritoneal surface epithelial (PSE) cells and OSE. The data suggest that the mRNA response to inflammation was similar in OSE and PSE, but that the 11βHSD1 enzyme activity was reduced in PSE (P<0.05), which may result in differences in tissue healing. Finally, the effect of inflammation on the expression of the ovarian cancer associated tumour suppressor gene (TSG), OPCML (OPioid binding Cell adhesion Molecule-Like) and the other members of the IgLON family, was examined in OSE. These results suggest that OPCML mRNA expression can be induced by IL-1α, an effect that is inhibited by cortisol.

Published

2010

35. DOCK-t(w)o Pleural Fibrosis.

Author

Huachun Cui and Gang Liu

Subjects

FIBROSIS, PLEURA diseases, CYTOKINESIS, MESOTHELIUM, MESENCHYME

Abstract

The authors comment on a study indicating a novel role of dedicator of cytokinesis 2 (DOCK2) in the mesothelial-mesenchymal transition (MesoMT) and pleural fibrosis processes. They examine the study's findings regarding the involvement of DOCK2 in MesoMT and its contribution to pleural fibrogenesis (PF). They suggest further investigation of the precise role of pleural mesothelial cells in DOCK2 and DOCK2-mediated MesoMT in PF.

Published

2022

36. Normal mesothelial cell lines newly derived from human pleural biopsy explants.

Author

Pruett, Nathanael, Singh, Anand, Shankar, Ahjeetha, Schrump, David S., and Hoang, Chuong D.

Subjects

*CELL lines, *TUMOR suppressor genes, *CELL culture, *BIOPSY, *FLOW cytometry

Abstract

Mesothelial cells are arranged as a monolayer on covering membranes that invest surfaces of body cavities like the pleura and peritoneum. Primary human mesothelial cell (HMC) cultures are needed for studying mesothelial cell homeostasis and developing disease models, such as wound healing or cancers. Remarkably, there is a paucity of useable HMC lines that are currently available that faithfully recapitulate normal in vivo phenotypic characteristics. Here, we present a strategy to recover HMC from human pleural tissue and to immortalize them for extended in vitro culturing. Human pleural membrane was harvested by minimally invasive surgical techniques. HMC were isolated using a two-step process combining explant cellular outgrowth from biopsy tissue and flow cytometry based on cell surface expression of cadherin-1 and CD71. Cell cultures were generated after lentiviral transfection with human telomerase. The new HMC cultures retain the same phenotypic traits and physiologic features as their in vivo counterparts, yet they can be adapted for short-term or long-term culture in large-scale in vitro experimentation. In particular, we generated a new HMC line harboring a germline mutation in breast cancer type-1-associated protein-1 (BAP1), a causal tumor suppressor gene, that could be instrumental to malignant mesothelioma research. Patient-specific, normal HMC may serve as novel discovery tools allowing more powerful research models of both normal physiology and disease processes. Our surgically driven approach leads to a limitless resource of novel mesothelial cell cultures. [ABSTRACT FROM AUTHOR]

Published

2020

37. N-ACETYLCYSTEINE MODULATES EFFECT OF THE IRON ISOMALTOSIDE ON PERITONEAL MESOTHELIAL CELLS.

Author

MISIAN, M., BAUM, E., and BREBOROWICZ, A.

Subjects

TISSUE plasminogen activator, PLASMINOGEN activators, INFLAMMATORY mediators, TREATMENT effectiveness, MONOCYTE chemotactic factor

Abstract

Intravenous (i.v.) iron supplementation is used in patients on chronic peritoneal dialysis (pd). Iron induced intraperitoneal inflammation observed in our previous studies with iron sucrose may deteriorate the function of the peritoneum as the dialysis membrane. We evaluated effect iron compound, iron-isomaltoside-100 (IIS) on the peritoneal mesothelial cells (MC). We studied the effect of iv treatment with IIS ± N-acetylcysteine (NAC) on the dialysate parameters and function of MC. In 7 uremic pd patients IIS 200 mg was infused i.v. ± NAC 600 mg. Afterward, a 4 hours exchange was performed with Dianeal 1.5%. As a control dialysate exchange preceding IIS treatment was used. Inflammatory parameters of the drained dialysates as well as the dialysates and IIS effects on MC were evaluated in ex vivo experiments. Intravenous infusion of IIS resulted in an increase of the dialysate Fe (+147%, P < 0.01). Concentrations of the dialysates inflammatory mediators were increased: interleukin-6 (IL-6) +39%, P < 0.02, monocyte chemoattractant protein-1(MCP1) +50%, P < 0.02, and hyaluronan (HA) +64%, P < 0.02. Simultaneous i.v. infusion of NAC prevented increase of the dialysate inflammatory mediators. Dialysates collected after IIS treatment induced oxidative stress in MC (+29%, P < 0.05) and stimulated IL-6 synthesis (+64%, P < 0.05) in MC; no such effect was seen in dialysates obtained after simultaneous IIS and NAC i.v. treatment. IIS used as the additive to culture medium stimulated synthesis in MC of IL6 (+76%, P < 0.001) and plasminogen activator inhibitor-1 (PAI-1) (28%, P < 0.001) whereas synthesis of tissue plasminogen activator (t-PA) was reduced (-16%, P < 0.001). These changes were prevented in the presence of NAC 1 mmol/L. Intravenous administration of IIS results in the mild stimulation of intraperitoneal inflammation. IIS changes MC phenotype to the inflammatory one with reduced fibrinolytic activity. These effects are prevented by NAC. [ABSTRACT FROM AUTHOR]

Published

2020

38. EMBRYONIC DEVELOPMENT OF THE INNER EAR IN THE QUAIL BIRD COTURNIX COTARNIX (LINNAEUS, 1758).

Author

Abed, Asmaa Basheer

Subjects

QUAILS, EMBRYOLOGY, EPIDERMIS, ECTODERM, MESOTHELIUM

Abstract

The study concerned the embryonic development of inner ear of Quail Coturnix coturnix (Linnaeus, 1758). The study is done in the period between (20 February and 20 October) in Department of Biology, College of Education for Pure Science (Ibn Al-Haitham), University of Baghdsd. Ten adult quail Coturnix coturnix (Linnaeus, 1758). The first sign of the formation of sensory part of the ear is evident in the embryo of the quail bird at 38 hours incubation. At this stage apairs of thickening on the sides of hind brain is known as the otic placodes of the proximal epidermis in the head region, these two placodes fall below the general level of the apparent ectoderm by invagination process at (40) hours incubation to be walls of pair spaces known as auditory pits where the walls are in the first composition is continuos with surface ectoderm and open wide open, after that the presure is sparated from the surface ectoderm. The ectoderm then clears the surface to become auditory vesicles located between ectoderm and hind brain (Myeloncephalon) where the hearing pressure deepens and grows with in the mesothelium, where the ectoderm separates when the fetus reaches (48) hours incibation, and becomes close to the lateral wall of the hind brain (Myeloncephalon). [ABSTRACT FROM AUTHOR]

Published

2020

39. ANATOMICAL AND HISTOLOGICAL STUDY OF THE UTERUS IN ADULT FEMALE ALBINO RAT.

Author

Rabie, Farhan O. and Haibat, Saif M.

Subjects

UTERUS, HISTOLOGY, FORMALDEHYDE, MUCOUS membranes, MESOTHELIUM

Abstract

Anatomical and histological process was used to investigate walls structure of uterus albino rat, total ten health albino rat was used for this study the animals were euthanized, dissected and subsequently uteruses were collected and fixed with 10% neutral buffered formalin then subjected to routine processing such as dehydration, clearing, embedding and block preparation, epithelial lining of uterine horn and body examined by H&E stain, PAS and masson trichrome stain by using routine tissue process technique. The uterus was show as being duplex, having two separate uterine horns and two cervices. Glandular mucosa consisting of lamina epithelialis and lamina propria mucosae. Its epithelium varied between simple and pseudostratified columnar and the tunica mucosa characterized by development of furthermore of simple mucosal folds in addition to elongation of these folds and the tunica muscularis was differentiated into two layers: thick inner circular and thin outer longitudinal smooth muscle fiber. Tunica serosa was cellular loose connective tissue covered by mesothelium. The two cervices were partially fused and separated by a mid-saggital septum. Their thick musculatures projected caudally into the vagina as the portio Vaginalis uteri. The uterine glands occurred in variable numbers and sizes and thickness of the uterus wall appear endometerium were 151.35±17.88, myometerium 103.91±5.60 and perimeterium 47.81±1.47 while thickness of cervix endometerium 117.85±12.27, myometerim 111.87±6.03 and permeterium 12.85±0.8. [ABSTRACT FROM AUTHOR]

Published

2020

40. Electrophysiological Parameters of Different Regions of the Rat Peritoneum.

Author

Markov, A. G., Fedorova, A. A., Usoltseva, E. O., Kruglova, N. M., Burdin, V. V., and Amasheh, S.

Subjects

*PERITONEUM, *ABDOMEN, *STRIATED muscle, *CONNECTIVE tissues, *ADIPOSE tissues

Abstract

The peritoneum lines the abdominal cavity, covering and supporting the abdominal organs. The layer of mesothelial cells provides a functional barrier and allows vectorial transport between serous fluid of the abdominal cavity and tissue fluid. Based on the anatomical localization, three peritoneal regions can be distinguished: parietal, visceral and diaphragmatic. However, a comparative analysis of their barrier and transport properties has not yet been carried out. Electrophysiological parameters of three different regions of the rat peritoneum were investigated here using the Ussing chamber. The parietal peritoneum revealed the highest transmesothelial potential (2.2 ± 0.3 mV), short circuit current (19.8 ± 1.7 мA/cm2), and transmesothelial resistance (94.9 ± 3.5 Ohm cm2) compared to other peritoneal regions. The addition of ouabain (1 mM) from the apical and basolateral sides of the parietal and visceral peritoneum resulted in an increase in the transmesothelial resistance. In addition, a histological analysis was performed. Tissue preparations of the parietal peritoneum comprised a layer of mesothelial cells and adjacent striated muscle fibers with small interlayers of loose connective tissue. Tissue specimens of the diaphragmatic and visceral peritonea included two layers of mesothelial cells. In the diaphragmatic peritoneum, they were separated by muscle fibers and large areas of loose connective tissue, while in the visceral peritoneum by adipose and connective tissues. In conclusion, the parietal and visceral regions of the rat peritoneum contribute differentially to transmesothelial transport. The parietal peritoneum exhibits pronounced barrier and transport properties and can be considered as a promising model for studying the molecular interaction between Na/K-ATPase and tight junction proteins, claudins. [ABSTRACT FROM AUTHOR]

Published

2020

41. Locational memory of macrovessel vascular cells is transcriptionally imprinted

Author

Spanjersberg, Talitha C F, Oosterhoff, Loes A, Kruitwagen, Hedwig S, van den Dungen, Noortje A M, Vernooij, Johannes C M, Asselbergs, Folkert W, Mokry, Michal, Spee, Bart, Harakalova, Magdalena, van Steenbeek, Frank G, Spanjersberg, Talitha C F, Oosterhoff, Loes A, Kruitwagen, Hedwig S, van den Dungen, Noortje A M, Vernooij, Johannes C M, Asselbergs, Folkert W, Mokry, Michal, Spee, Bart, Harakalova, Magdalena, and van Steenbeek, Frank G

Abstract

Vascular pathologies show locational predisposition throughout the body; further insights into the transcriptomics basis of this vascular heterogeneity are needed. We analyzed transcriptomes from cultured endothelial cells and vascular smooth muscle cells from nine adult canine macrovessels: the aorta, coronary artery, vena cava, portal vein, femoral artery, femoral vein, saphenous vein, pulmonary vein, and pulmonary artery. We observed that organ-specific expression patterns persist in vitro, indicating that these genes are not regulated by blood flow or surrounding cell types but are likely fixed in the epigenetic memory. We further demonstrated the preserved location-specific expression of GATA4 protein in cultured cells and in the primary adult vessel. On a functional level, arterial and venous endothelial cells differed in vascular network morphology as the arterial networks maintained a higher complexity. Our findings prompt the rethinking of the extrapolation of results from single-origin endothelial cell systems.

Published

2023

42. 2-Deoxy-glucose ameliorates the peritoneal mesothelial and endothelial barrier function perturbation occurring due to Peritoneal Dialysis fluids exposure.

Author

Pitaraki, Eleanna, Jagirdar, Rajesh M., Rouka, Erasmia, Bartosova, Maria, Sinis, Sotirios I., Gourgoulianis, Konstantinos I., Eleftheriadis, Theodoros, Stefanidis, Ioannis, Liakopoulos, Vassilios, Hatzoglou, Chrissi, Schmitt, Claus Peter, and Zarogiannis, Sotirios G.

Subjects

*PERITONEAL dialysis, *ASCITIC fluids, *TIGHT junctions, *GENE expression, *ENDOTHELIAL cells, *GLYCOCALYX

Abstract

Peritoneal dialysis (PD) and prolonged exposure to PD fluids (PDF) induce peritoneal membrane (PM) fibrosis and hypervascularity, leading to functional PM degeneration. 2-deoxy-glucose (2-DG) has shown potential as PM antifibrotic by inhibiting hyper-glycolysis induced mesothelial-to-mesenchymal transition (MMT). We investigated whether administration of 2-DG with several PDF affects the permeability of mesothelial and endothelial barrier of the PM. The antifibrotic effect of 2-DG was confirmed by the gel contraction assay with embedded mesothelial (MeT-5A) or endothelial (EA.hy926) cells cultured in Dianeal® 2.5 % (CPDF), BicaVera® 2.3 % (BPDF), Balance® 2.3 % (LPDF) with/without 2-DG addition (0.2 mM), and qPCR for αSMA , CDH2 genes. Moreover, 2-DG effect was tested on the permeability of monolayers of mesothelial and endothelial cells by monitoring the transmembrane resistance (R TM), FITC-dextran (10, 70 kDa) diffusion and mRNA expression levels of CLDN-1 to -5 , ZO1 , SGLT1 , and SGLT2 genes. Contractility of MeT-5A cells in CPDF/2-DG was decreased, accompanied by αSMA (0.17 ± 0.03) and CDH2 (2.92 ± 0.29) gene expression fold changes. Changes in αSMA , CDH2 were found in EA.hy926 cells, though αSMA also decreased under LPDF/2-DG incubation (0.42 ± 0.02). Overall, 2-DG mitigated the PDF-induced alterations in mesothelial and endothelial barrier function as shown by R TM , dextran transport and expression levels of the CLDN-1 to -5 , ZO1 , and SGLT2. Thus, supplementation of PDF with 2-DG not only reduces MMT but also improves functional permeability characteristics of the PM mesothelial and endothelial barrier. [Display omitted] • 2-DG mitigates mesenchymal transition of mesothelial and endothelial cells. • 2-DG functionally improves the peritoneal membrane permeability characteristics. • 2-DG administration restores gene expression changes of Tight Junction components. [ABSTRACT FROM AUTHOR]

Published

2024

43. A dynamical model of the transport of asbestos fibres in the human body

Author

Alisa DeStefano, Clyde F. Martin, and Dorothy I. Wallace

Subjects

Asbestos, exposure, transport, fibres, mesothelium, macrophage, Environmental sciences, GE1-350, Biology (General), QH301-705.5

Abstract

We present a model for the transport of a single type of asbestos fibre through the human body. The model captures the transport modes that pertain particularly to the lungs and the mesothelium. Numerical solutions of the system follow observed movement in the body. We compare the accumulation of fibres in the lungs versus the mesothelium, and then we give analysis and results for various cases of exposure level and exposure time. Models, such as the one developed here, can give clues as to how asbestos fibres impact the body, and where to look for major impact.

Published

2017

44. Solid epithelioid peritoneal mesothelioma with pulmonary metastasis in feline.

Author

de Carvalho HCT, Gundim LF, Pastor FM, Guimarães GH, Coleto AF, Szabó MPJ, and Medeiros-Ronchi AA

Abstract

Mesothelioma is a rare malignant neoplasm that affects the mesothelial cells lining the thoracic and abdominal cavities, such as the pleura, peritoneum, and pericardium. It is most prevalent in dogs and cattle, but the causes of this disease in animals are uncertain. In felines, it mainly affects the pleura, with an unfavorable prognosis. This paper explores a rare case of metastatic peritoneal mesothelioma in a 2-year-old female mixed breed cat, emphasizing its uniqueness due to the feline's age. The patient, previously treated at a private clinic, presented moderate abdominal distension as the only clinical sign. Abdominal ultrasound and peritoneal fluid cytology led to the provisional diagnosis of mesothelioma/carcinomatosis. One day after exploratory laparotomy, the animal died and was subsequently sent for necropsy. During macroscopic analysis, nodules were observed in the peritoneum, diaphragm, omentum, stomach serosa, and large intestine, and the diagnosis of solid epithelioid peritoneal mesothelioma with lung metastasis was confirmed after microscopic analysis. The diagnosis of mesothelioma is challenging, and the importance of immunohistochemical panels with specific markers such as cytokeratin AE1/AE3 and calretinin is highlighted. Considering that mesothelioma is a pathology with a poor prognosis, it is essential to include this disease in the list of differential diagnoses within veterinary oncology., Competing Interests: Conflict of interests: HCTC, LFG, FMP, GHG, AFC, MPJS and AAM-R - No conflict of interest.

Published

2024

45. Tongue: the unusual site in malignant pleural mesothelioma

Author

Timothy C. Bates, Iskandar Zulqarnain bin Mohamed, S. Yahya, and Matthew Idle

Subjects

0301 basic medicine, Male, Mesothelioma, Pathology, medicine.medical_specialty, Case Report, Metastasis, 03 medical and health sciences, 0302 clinical medicine, Peritoneum, Tongue, Testis, medicine, Pericardium, Humans, business.industry, Pleural mesothelioma, Tunica vaginalis, Mesothelioma, Malignant, General Medicine, medicine.disease, Mesothelium, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Oral and maxillofacial surgery, Pleura, business

Abstract

Malignant mesotheliomas (MMs) are malignancies of the mesothelium, with primary deposits originating in the pleura, peritoneum, pericardium and the tunica vaginalis (ie, testicular). Metastatic spread is commonly reported to affect the liver, adrenal glands, kidney and contralateral lung (in cases of malignant pleural mesothelioma). Metastases to distant sites are uncommon. Spread to the oral cavity in particular is very rare. A total of 23 cases of metastatic spread to the oral cavity have been reported in the literature to date; of those, 9 cases have been to the tongue. Given the rarity of the site of metastasis, the management remains challenging. This case highlights a rare site of metastasis in MM, discusses treatment options available and briefly talks about technical limitations in treating a mobile structure such as the tongue. Good palliative and supportive care is crucial in managing cases where no curative treatment is possible.

Published

2023

46. Post-Surgical Peritoneal Scarring and Key Molecular Mechanisms

Author

Sarah E. Herrick and Bettina Wilm

Subjects

peritoneum, mesothelium, serosal repair, post-surgical adhesions, molecular signatures, biomarkers, Microbiology, QR1-502

Abstract

Post-surgical adhesions are internal scar tissue and a major health and economic burden. Adhesions affect and involve the peritoneal lining of the abdominal cavity, which consists of a continuous mesothelial covering of the cavity wall and majority of internal organs. Our understanding of the full pathophysiology of adhesion formation is limited by the fact that the mechanisms regulating normal serosal repair and regeneration of the mesothelial layer are still being elucidated. Emerging evidence suggests that mesothelial cells do not simply form a passive barrier but perform a wide range of important regulatory functions including maintaining a healthy peritoneal homeostasis as well as orchestrating events leading to normal repair or pathological outcomes following injury. Here, we summarise recent advances in our understanding of serosal repair and adhesion formation with an emphasis on molecular mechanisms and novel gene expression signatures associated with these processes. We discuss changes in mesothelial biomolecular marker expression during peritoneal development, which may help, in part, to explain findings in adults from lineage tracing studies using experimental adhesion models. Lastly, we highlight examples of where local tissue specialisation may determine a particular response of peritoneal cells to injury.

Published

2021

47. Body Cavity Fluids

Author

Thrall, Michael J., Rosen, Steven T., Series editor, and Nayar, Ritu, editor

Published

2014

48. Mesothelial-mesenchymal transitions in embryogenesis.

Author

Carmona, Rita, Ariza, Laura, Cano, Elena, Jiménez-Navarro, Manuel, and Muñoz-Chápuli, Ramón

Subjects

*CELL populations, *EPITHELIAL cells, *CONNECTIVE tissues, *CELL physiology, *MORPHOGENESIS

Abstract

• The embryonic mesothelium has the capacity to respond to local molecular signals and generate populations of mesenchymal cells. • Mesothelium-derived mesenchymal cells produce essential signals for visceral morphogenesis. • They also contribute to vascular and connective tissue of many organs and they can differentiate into organ-specific cell types. • Adult mesothelial cells can recapitulate this embryonic process and transform into mesenchymal fibroblast-like cells. • This adult process of mesothelial transformation might be of translational relevance. Most animals develop coelomic cavities lined by an epithelial cell layer called the mesothelium. Embryonic mesothelial cells have the ability to transform into mesenchymal cells which populate many developing organs contributing to their connective and vascular tissues, and also to organ-specific cell types. Furthermore, embryonic mesothelium and mesothelial-derived cells produce essential signals for visceral morphogenesis. We review the most relevant literature about the mechanisms regulating the embryonic mesothelial-mesenchymal transition, the developmental fate of the mesothelial-derived cells and other functions of the embryonic mesothelium, such as its contribution to the establishment of left-right visceral asymmetries or its role in limb morphogenesis. [ABSTRACT FROM AUTHOR]

Published

2019

49. Fat, Cartilage, and Bone Metaplasia in Lungs of Cattle With Caudal Pleural Lesions and Subjacent Interstitial Fibrosis.

Author

Ramírez-Hernández, Cecilia, García-Márquez, Luis Jorge, Decanini-Arcaute, Horacio, Martínez-Burnes, Julio, and Ramírez-Romero, Rafael

Subjects

PLEURA, METAPLASIA, LUNGS, CARTILAGE, NEPHROBLASTOMA, CATTLE

Abstract

The changes associated with condemned lungs in cattle with chronic pleural lesions of the caudal lobes were characterized by histology and immunohistochemistry (IHC). Fibroproliferative pleural lesions were microscopically confirmed. Occasionally, the pleural lesions also included adipose, chondroid, and osseous metaplasia that were covered by mesothelial cells, mostly in the absence of inflammation. Other lungs also showed fibrosis in the subpleural interstitium and interlobular septa. In both condemned and noncondemned lungs, immunoreactivity to Wilms tumor 1 (WT1) was normally observed on surface mesothelial cells but not on the submesothelial fibroblasts and myofibroblasts. Conversely, the myofibroblasts beneath the pleura, but not the mesothelial cells, showed immunoreactivity to alpha smooth muscle actin and calponin. However, in the lungs with myofibroblastic foci in the pleura, the proliferated cells maintained WT1 immunoreactivity similar to those of some metaplastic cells. These findings may reflect the plasticity of mesothelial cells in vivo. [ABSTRACT FROM AUTHOR]

Published

2019

50. Isolation and culture of pleural mesothelial cells.

Author

Kawai, Norikazu, Ouji, Yukiteru, Sakagami, Masaharu, Tojo, Takashi, Sawabata, Noriyoshi, Yoshikawa, Masahide, and Taniguchi, Shigeki

Subjects

*ETHYLENEDIAMINETETRAACETIC acid, *CELL analysis, *CHEST (Anatomy), *CELLS, *CELL culture, *CELL proliferation

Abstract

Purpose: Although the isolation of rat and mouse mesothelial cells has previously been reported, most mesothelial cells used for experimental studies are obtained from peritoneal cells. Here, we describe an optimized method for the isolation and in vitro propagation of rodent pleural mesothelial cells without the requirement for specialized surgical techniques. Materials and Methods: To harvest pleural mesothelial cells, the pleural space of 8–9-week-old rats or older mice was filled with 0.25% trypsin in ethylenediaminetetraacetic acid (EDTA) buffer for 20 min at 37 °C. Cells were then harvested, and incubated at 37 °C in a humidified atmosphere with 5% CO2. Immunofluorescence analysis of plated pleural mesothelial cells was performed using Alexa 546 (calretinin). To investigate optimal proliferation conditions, medium enriched with various concentrations of fetal calf serum (FCS) was used for pleural mesothelial cell proliferation. Results: By day 10, confluent cell cultures were established, and the cells displayed an obvious cobblestone morphology. Immunofluorescence analysis of the cells demonstrated that all stained positive for Alexa 546 (calretinin) expression. Mesothelial cells grew better in medium containing 20% FCS than with 10% FCS. Conclusions: This is a simple procedure for the efficient collection of primary pleural mesothelial cells, which were obtained in defined culture conditions from the euthanized rodent thoracic cavity using trypsin-EDTA treatment. The ability to easily culture and maintain identifiable pleural mesothelial cells from rodents will be helpful for future experiments using these cells. [ABSTRACT FROM AUTHOR]

Published

2019