Your search keyword '"A Zarebska"' showing total 18 results

1. Role of Ciliary Protein Intraflagellar Transport Protein 88 in the Regulation of Cartilage Thickness and Osteoarthritis Development in Mice

Author

J. Miotla-Zarebska, E. Chang, Eleanor McSorley, Claudia Duarte, Tonia L. Vincent, C.R. Coveney, A.K. Wann, I. Parisi, Vicky Batchelor, B. Stott, and Linyi Zhu

Subjects

Cartilage, Articular, Male, medicine.medical_specialty, Immunology, Chondrocyte hypertrophy, Osteoarthritis, Mice, Atrophy, Rheumatology, Internal medicine, medicine, Animals, Immunology and Allergy, Hedgehog, Mice, Knockout, business.industry, Tumor Suppressor Proteins, Cartilage, Cilium, Organ Size, medicine.disease, medicine.anatomical_structure, Endocrinology, Knockout mouse, Immunohistochemistry, business

Abstract

Objective Mechanical and biologic cues drive cellular signaling in cartilage development, health, and disease. Primary cilia proteins, which are implicated in the transduction of biologic and physiochemical signals, control cartilage formation during skeletal development. This study was undertaken to assess the influence of the ciliary protein intraflagellar transport protein 88 (IFT88) on postnatal cartilage from mice with conditional knockout of the Ift88 gene (Ift88-KO). Methods Ift88fl/fl and aggrecanCreERT2 mice were crossed to create a strain of cartilage-specific Ift88-KO mice (aggrecanCreERT2;Ift88fl/fl). In these Ift88-KO mice and Ift88fl/fl control mice, tibial articular cartilage thickness was assessed by histomorphometry, and the integrity of the cartilage was assessed using Osteoarthritis Research Society International (OARSI) damage scores, from adolescence through adulthood. In situ mechanisms of cartilage damage were investigated in the microdissected cartilage sections using immunohistochemistry, RNAScope analysis, and quantitative polymerase chain reaction. Osteoarthritis (OA) was induced in aggrecanCreERT2;Ift88fl/fl mice and Ift88fl/fl control mice using surgical destabilization of the medial meniscus (DMM). Following tamoxifen injection and DMM surgery, the mice were given free access to exercise on a wheel. Results Deletion of Ift88 resulted in progressive reduction in the thickness of the medial tibial cartilage in adolescent mice, as well as marked atrophy of the cartilage in mice during adulthood. In aggrecanCreERT2;Ift88fl/fl mice at age 34 weeks, the median thickness of the medial tibial cartilage was 89.42 μm (95% confidence interval [95% CI] 84.00–93.49), whereas in Ift88fl/fl controls at the same age, the median cartilage thickness was 104.00 μm (95% CI 100.30–110.50; P Conclusion Our results in a mouse model of OA demonstrate that IFT88 performs a chondroprotective role in articular cartilage by controlling the calcification of cartilage via maintenance of a threshold of Hh signaling during physiologic loading.

Published

2021

2. Implementation of the web‐based calculator estimating odds ratio of severe COVID ‐19 for unvaccinated individuals in a country with high coronavirus‐related death toll

Author

Kwasniewski, Miroslaw, primary, Korotko, Urszula, additional, Chwialkowska, Karolina, additional, Niemira, Magdalena, additional, Jaroszewicz, Jerzy, additional, Sobala‐Szczygiel, Barbara, additional, Puzanowska, Beata, additional, Moniuszko‐Malinowska, Anna, additional, Pancewicz, Sławomir, additional, Parfieniuk‐Kowerda, Anna, additional, Martonik, Diana, additional, Zarebska‐Michaluk, Dorota, additional, Simon, Krzysztof, additional, Pazgan‐Simon, Monika, additional, Mozer‐Lisewska, Iwona, additional, Bura, Maciej, additional, Adamek, Agnieszka, additional, Tomasiewicz, Krzysztof, additional, Pawłowska, Małgorzata, additional, Piekarska, Anna, additional, Berkan‐Kawinska, Aleksandra, additional, Horban, Andrzej, additional, Kowalska, Justyna, additional, Podlasin, Regina, additional, Wasilewski, Piotr, additional, Azzadin, Arsalin, additional, Czuczwar, Miroslaw, additional, Borys, Michal, additional, Piwowarczyk, Pawel, additional, Czaban, Slawomir, additional, Bogocz, Jacek, additional, Ochab, Magdalena, additional, Kruk, Anna, additional, Uszok, Sandra, additional, Bielska, Agnieszka, additional, Szałkowska, Anna, additional, Raczkowska, Justyna, additional, Sokołowska, Gabriela, additional, Chorostowska‐Wynimko, Joanna, additional, Jezela‐Stanek, Aleksandra, additional, Rozy, Adriana, additional, Lechowicz, Urszula, additional, Połowianiuk, Urszula, additional, Tycinska, Agnieszka, additional, Grubczak, Kamil, additional, Starosz, Aleksandra, additional, Izdebska, Wiktoria, additional, Krzemiński, Tadeusz F., additional, Bousqet, Jean, additional, Franchini, Genoveffa, additional, Hadlock, Jennifer, additional, Kretowski, Adam, additional, Akdis, Mubeccel, additional, Akdis, Cezmi A., additional, Sokolowska, Milena, additional, Eljaszewicz, Andrzej, additional, Flisiak, Robert, additional, and Moniuszko, Marcin, additional

Published

2022

3. Ciliary IFT88 protects coordinated adolescent growth plate ossification from disruptive physiological mechanical forces

Author

Clarissa R Coveney, Hasmik J Samvelyan, Jadwiga Miotla‐Zarebska, Josephine Carnegie, Emer Chang, C Jonty Corrin, Trystan Coveney, Bryony Stott, Ida Parisi, Claudia Duarte, Tonia L Vincent, Katherine A Staines, and Angus KT Wann

Subjects

Vascular Endothelial Growth Factor A, Mice, Chondrocytes, Osteogenesis, Endocrinology, Diabetes and Metabolism, Tumor Suppressor Proteins, Animals, Orthopedics and Sports Medicine, Hedgehog Proteins, Growth Plate, Mechanotransduction, Cellular

Abstract

Compared with our understanding of endochondral ossification, much less is known about the coordinated arrest of growth defined by the narrowing and fusion of the cartilaginous growth plate. Throughout the musculoskeletal system, appropriate cell and tissue responses to mechanical force delineate morphogenesis and ensure lifelong health. It remains unclear how mechanical cues are integrated into many biological programs, including those coordinating the ossification of the adolescent growth plate at the cessation of growth. Primary cilia are microtubule-based organelles tuning a range of cell activities, including signaling cascades activated or modulated by extracellular biophysical cues. Cilia have been proposed to directly facilitate cell mechanotransduction. To explore the influence of primary cilia in the mouse adolescent limb, we conditionally targeted the ciliary gene Intraflagellar transport protein 88 (Ift88fl/fl) in the juvenile and adolescent skeleton using a cartilage-specific, inducible Cre (AggrecanCreERT2 Ift88fl/fl). Deletion of IFT88 in cartilage, which reduced ciliation in the growth plate, disrupted chondrocyte differentiation, cartilage resorption, and mineralization. These effects were largely restricted to peripheral tibial regions beneath the load-bearing compartments of the knee. These regions were typified by an enlarged population of hypertrophic chondrocytes. Although normal patterns of hedgehog signaling were maintained, targeting IFT88 inhibited hypertrophic chondrocyte VEGF expression and downstream vascular recruitment, osteoclastic activity, and the replacement of cartilage with bone. In control mice, increases to physiological loading also impair ossification in the peripheral growth plate, mimicking the effects of IFT88 deletion. Limb immobilization inhibited changes to VEGF expression and epiphyseal morphology in Ift88cKO mice, indicating the effects of depletion of IFT88 in the adolescent growth plate are mechano-dependent. We propose that during this pivotal phase in adolescent skeletal maturation, ciliary IFT88 protects uniform, coordinated ossification of the growth plate from an otherwise disruptive heterogeneity of physiological mechanical forces.

Published

2022

4. Role of Ciliary Protein Intraflagellar Transport Protein 88 in the Regulation of Cartilage Thickness and Osteoarthritis Development in Mice

Author

Coveney, Clarissa R., primary, Zhu, Linyi, additional, Miotla‐Zarebska, Jadwiga, additional, Stott, Bryony, additional, Parisi, Ida, additional, Batchelor, Vicky, additional, Duarte, Claudia, additional, Chang, Emer, additional, McSorley, Eleanor, additional, Vincent, Tonia L., additional, and Wann, Angus K. T., additional

Published

2021

5. Does pain at an earlier stage of chondropathy protect female mice from structural progression after surgically induced osteoarthritis?

Author

A Burleigh, C. Driscoll, Shi‐Lu L. Chia, B. Stott, Isabell S. von Loga, Francesco Dell'Accio, David M. Riley, Tonia L. Vincent, J. Miotla-Zarebska, and Vicky Batchelor

Subjects

Chondropathy, Cartilage, Articular, Male, medicine.medical_specialty, Immunology, Pain, Osteoarthritis, 03 medical and health sciences, Mice, 0302 clinical medicine, Sex Factors, Rheumatology, In vivo, Internal medicine, medicine, Glial cell line-derived neurotrophic factor, Immunology and Allergy, Animals, Pain Measurement, 030203 arthritis & rheumatology, biology, business.industry, Cartilage, Osteoarthritis, Knee, medicine.disease, Arthritis, Experimental, Fold change, Disease Models, Animal, Endocrinology, medicine.anatomical_structure, biology.protein, Ovariectomized rat, Disease Progression, Female, business, 030217 neurology & neurosurgery, Neurotrophin

Abstract

Objective Female C57BL/6 mice exhibit less severe chondropathy than male mice. This study was undertaken to test the robustness of this observation and explore underlying mechanisms. Methods Osteoarthritis was induced in male and female C57BL/6 or DBA/1 mice (n = 6–15 per group) by destabilization of the medial meniscus (DMM) or partial meniscectomy (PMX). Some mice were ovariectomized (OVX) (n = 30). In vivo repair after focal cartilage defect or joint immobilization (sciatic neurectomy) following DMM was assessed. Histologic analysis, evaluation of gene expression in whole knees, and behavioral analysis using Laboratory Animal Behavior Observation Registration and Analysis System (LABORAS) and Linton incapacitance testing (n = 7–10 mice per group) were performed. Results Female mice displayed less severe chondropathy (20–75% reduction) across both strains and after both surgeries. Activity levels after PMX were similar for male and female mice. Some repair‐associated genes were increased in female mouse joints after surgery, but no repair differences were evident in vivo. Despite reduced chondropathy, female mice developed pain‐like behavior at the same time as male mice. At the time of established pain‐like behavior (10 weeks after PMX), pain‐associated genes were significantly up‐regulated in female mice, including Gdnf (mean ± SEM fold change 2.54 ± 0.30), Nrtn (6.71 ± 1.24), Ntf3 (1.92 ± 0.27), and Ntf5 (2.89 ± 0.48) (P < 0.01, P < 0.01, P < 0.05, and P < 0.001, respectively, versus male mice). Inflammatory genes were not regulated in painful joints in mice of either sex. Conclusion We confirm strong structural joint protection in female mice that is not due to activity or intrinsic repair differences. Female mice develop pain at the same time as males, but induce a distinct set of neurotrophins. We speculate that heightened pain sensitivity in female mice protects the joint by preventing overuse.

Published

2020

6. Does Pain at an Earlier Stage of Chondropathy Protect Female Mice Against Structural Progression After Surgically Induced Osteoarthritis?

Author

Loga, Isabell S., primary, Batchelor, Vicky, additional, Driscoll, Clare, additional, Burleigh, Annika, additional, Chia, Shi‐Lu L., additional, Stott, Bryony, additional, Miotla‐Zarebska, Jadwiga, additional, Riley, David, additional, Dell’Accio, Francesco, additional, and Vincent, Tonia L., additional

Published

2020

7. TSG‐6 Is Weakly Chondroprotective in Murine OA but Does not Account for FGF2‐Mediated Joint Protection

Author

Zhu, Linyi, primary, Donhou, Shannah, additional, Burleigh, Annika, additional, Miotla Zarebska, Jadwiga, additional, Curtinha, Marcia, additional, Parisi, Ida, additional, Khan, Sumayya Nafisa, additional, Dell’Accio, Francesco, additional, Chanalaris, Anastasios, additional, and Vincent, Tonia L., additional

Published

2020

8. Studying Osteoarthritis Pathogenesis in Mice

Author

Blease, Andrew, primary, Das Neves Borges, Patricia, additional, Curtinha, Marcia, additional, Javaheri, Behzad, additional, von Loga, Isabell S., additional, Parisi, Ida, additional, Zarebska, Jadwiga, additional, Pitsillides, Andrew, additional, Vincent, Tonia L., additional, and Potter, Paul K., additional

Published

2018

9. JNK2 controls aggrecan degradation in murine articular cartilage and the development of experimental osteoarthritis

Author

Kazuhiro Yamamoto, Amanda J. Fosang, Linda Troeberg, J. Miotla-Zarebska, B. Stott, J. Saklatvala, Tonia L. Vincent, Hideaki Nagase, Xiaodi Tang, and Heba M. Ismail

Subjects

Pathology, medicine.medical_specialty, biology, Chemistry, Cartilage, Immunology, Arthritis, Osteoarthritis, medicine.disease, Andrology, ADAMTS4, medicine.anatomical_structure, Rheumatology, Proteoglycan, In vivo, Gene expression, medicine, biology.protein, Immunology and Allergy, Aggrecan

Abstract

Objective The pathogenesis of osteoarthritis (OA) is poorly understood. Loss of the proteoglycan aggrecan from cartilage is an early event. Recently, we identified a role for the JNK pathway, particularly JNK-2, in human articular chondrocytes in vitro in regulating aggrecan degradation. The present study was undertaken to investigate whether JNK-2 has a similar function in vivo and to examine its role in gene expression. Methods Aggrecan fragments were analyzed by Western blotting. OA was induced by destabilization of the medial meniscus (DMM) and assessed at 4, 8, and 12 weeks after surgery. Knee sections were stained with Safranin O. Medial compartments were scored by histologic grading for aggrecan loss and cartilage damage. RNA was extracted from JNK-2(-/-) and wild-type mouse knees 6 hours after DMM or after interleukin-1 stimulation of the proximal epiphysis, and expression of 33 DMM-regulated genes was analyzed with quantitative polymerase chain reaction-customized array cards. Results In vitro, basal and interleukin-1- or tumor necrosis factor-stimulated release of aggrecanase-generated aggrecan fragments was greatly reduced in cartilage from JNK-2(-/-) mice. In the OA model, JNK-2(-/-) mice exhibited significant reduction of aggrecanase-generated fragments and cartilage damage. Of 33 genes investigated, 13 were significantly down-regulated in JNK-2(-/-) mice compared with wild-type mice, following DMM. These included Has1, Adamts4, Tnf, Il6, Il18, Il18rap, Il1a, Inhba, Cd68, Ngf, Ccr2, Wnt16, and Tnfaip6, but not Adamts5. Conclusion Our results demonstrate that JNK-2 regulates aggrecan degradation in cultured murine cartilage and surgically induced OA in vivo following mechanical destabilization of the knee joint. This implicates the JNK signaling pathway in OA and suggests potential novel approaches to therapy.

Published

2015

10. JNK-2 Controls Aggrecan Degradation in Murine Articular Cartilage and the Development of Experimental Osteoarthritis

Author

Ismail, HM, Miotla-Zarebska, J, Troeberg, L, Tang, X, Stott, B, Yamamoto, K, Nagase, H, Fosang, AJ, Vincent, TL, Saklatvala, J, Ismail, HM, Miotla-Zarebska, J, Troeberg, L, Tang, X, Stott, B, Yamamoto, K, Nagase, H, Fosang, AJ, Vincent, TL, and Saklatvala, J

Abstract

OBJECTIVE: The pathogenesis of osteoarthritis (OA) is poorly understood. Loss of the proteoglycan aggrecan from cartilage is an early event. Recently, we identified a role for the JNK pathway, particularly JNK-2, in human articular chondrocytes in vitro in regulating aggrecan degradation. The present study was undertaken to investigate whether JNK-2 has a similar function in vivo and to examine its role in gene expression. METHODS: Aggrecan fragments were analyzed by Western blotting. OA was induced by destabilization of the medial meniscus (DMM) and assessed at 4, 8, and 12 weeks after surgery. Knee sections were stained with Safranin O. Medial compartments were scored by histologic grading for aggrecan loss and cartilage damage. RNA was extracted from JNK-2(-/-) and wild-type mouse knees 6 hours after DMM or after interleukin-1 stimulation of the proximal epiphysis, and expression of 33 DMM-regulated genes was analyzed with quantitative polymerase chain reaction-customized array cards. RESULTS: In vitro, basal and interleukin-1- or tumor necrosis factor-stimulated release of aggrecanase-generated aggrecan fragments was greatly reduced in cartilage from JNK-2(-/-) mice. In the OA model, JNK-2(-/-) mice exhibited significant reduction of aggrecanase-generated fragments and cartilage damage. Of 33 genes investigated, 13 were significantly down-regulated in JNK-2(-/-) mice compared with wild-type mice, following DMM. These included Has1, Adamts4, Tnf, Il6, Il18, Il18rap, Il1a, Inhba, Cd68, Ngf, Ccr2, Wnt16, and Tnfaip6, but not Adamts5. CONCLUSION: Our results demonstrate that JNK-2 regulates aggrecan degradation in cultured murine cartilage and surgically induced OA in vivo following mechanical destabilization of the knee joint. This implicates the JNK signaling pathway in OA and suggests potential novel approaches to therapy.

Published

2016

11. Brief Report: JNK‐2 Controls Aggrecan Degradation in Murine Articular Cartilage and the Development of Experimental Osteoarthritis

Author

Ismail, Heba M., primary, Miotla‐Zarebska, Jadwiga, additional, Troeberg, Linda, additional, Tang, Xiaodi, additional, Stott, Bryony, additional, Yamamoto, Kazuhiro, additional, Nagase, Hideaki, additional, Fosang, Amanda J., additional, Vincent, Tonia L., additional, and Saklatvala, Jeremy, additional

Published

2016

12. ChemInform Abstract: PUVA (Psoralen + UVA) Photochemotherapy: Processes Triggered in the Cells

Author

Sergio Caffieri, Francesco Dall'Acqua, E. Waszkowska, and Z Zarebska

Subjects

chemistry.chemical_compound, UVA Radiation, Chemistry, Cancer research, heterocyclic compounds, sense organs, General Medicine, Psoralen

Abstract

Photochemotherapy using psoralens and UVA is a treatment used widely in some skin diseases, in cutaneous lymphomas and in autoimmune diseases. This review has selected recent publications dealing with the photochemical processes triggered in the cells by UVA radiation and psoralen treatment. The photochemical changes initiated in the cell membranes were described.

Published

2001

13. Consumption of soup and nutritional intake in French adults: consequences for nutritional status

Author

Bertrais, S., primary, Galan, P., additional, Renault, N., additional, Zarebska, M., additional, Preziosi, P., additional, and Hercberg, S., additional

Published

2001

14. ChemInform Abstract: PUVA (Psoralen + UVA) Photochemotherapy: Processes Triggered in the Cells

Author

Zarebska, Z., primary, Waszkowska, E., additional, Caffieri, S., additional, and Dall'Acqua, F., additional

Published

2001

15. ANTIGENICITY OF DNA INDUCED BY PHOTOADDITION OF 8-METHOXYPSORALEN

Author

Z Zarebska, G Rzesa, Jarzabek-Chorzelska M, and Chorzelski T

Subjects

Antiserum, Antigenicity, biology, Ultraviolet Rays, Methoxsalen, DNA, General Medicine, biology.organism_classification, Biochemistry, Molecular biology, Immunodiffusion, chemistry.chemical_compound, chemistry, medicine, Crithidia luciliae, Agarose, Antigens, Physical and Theoretical Chemistry, Psoralen, medicine.drug

Abstract

— Rabbits immunized with sonicated DNA UV-irradiated (365 nm) in the presence of 8-methoxypsoralen (8-MOP) produced a specific antiserum directed against DNA-8-MOP-photoadduct. None of the long chain DNA preparations modified photochemically in the same way elicited an immunological response, although all of them gave a positive immunodiffusion test on agarose with the antiserum directed against DNA-8-MOP-photoadduct. A positive reaction has also been demonstrated in the indirect immunofluorescence test, using as a source of cellular native DNA Crithidia luciliae cells treated with 8-MOP and irradiated at 365 nm (UVA). A possible use of the specific antiserum for detecting the formation of DNA-8-MOP-photoadduct, in the skin and/or lymphocytes of patients with psoriasis treated by combination of 8-MOP and UVA irradiation, is suggested.

Published

1978

16. ANTIGENICITY OF DNA INDUCED BY PHOTOADDITION OF 8-METHOXYPSORALEN

Author

Zarebska, Z., primary, Jarȩbek-Arzelska, M., additional, Rzȩsa, G., additional, and Chorzelski, T., additional

Published

1978

17. DETECTION OF DNA-PSORALEN PHOTOADDUCTS in situ

Author

ZAREBSKA, ZOFIA, primary, JARZABEK-CHORZELSKA, MARIA, additional, RZȨSA, GENOWEFA, additional, GLIŃSKI, WIESLAW, additional, PAWIŃKA, MARIA, additional, CHORZELSKI, TADEUSZ, additional, and JABLOŃKA, STEFANIA, additional

Published

1984

18. TSG‐6 Is Weakly Chondroprotective in Murine OA but Does not Account for FGF2‐Mediated Joint Protection

Author

Linyi Zhu, Shannah Donhou, Annika Burleigh, Jadwiga Miotla Zarebska, Marcia Curtinha, Ida Parisi, Sumayya Nafisa Khan, Francesco Dell’Accio, Anastasios Chanalaris, and Tonia L. Vincent

Subjects

Diseases of the musculoskeletal system, RC925-935

Abstract

Objective Tumor necrosis factor α–stimulated gene 6 (TSG‐6) is an anti‐inflammatory protein highly expressed in osteoarthritis (OA), but its influence on the course of OA is unknown. Methods Cartilage injury was assessed by murine hip avulsion or by recutting rested explants. Forty‐two previously validated injury genes were quantified by real‐time polymerase chain reaction in whole joints following destabilization of the medial meniscus (DMM) (6 hours and 7 days). Joint pathology was assessed at 8 and 12 weeks following DMM in 10‐week‐old male and female fibroblast growth factor 2 (FGF2)−/−, TSG‐6−/−, TSG‐6tg (overexpressing), FGF2−/−;TSG‐6tg (8 weeks only) mice, as well as strain‐matched, wild‐type controls. In vivo cartilage repair was assessed 8 weeks following focal cartilage injury in TSG‐6tg and control mice. FGF2 release following cartilage injury was measured by enzyme‐linked immunosorbent assay. Results TSG‐6 messenger RNA upregulation was strongly FGF2‐dependent upon injury in vitro and in vivo. Fifteeen inflammatory genes were significantly increased in TSG‐6−/− joints, including IL1α, Ccl2, and Adamts5 compared with wild type. Six genes were significantly suppressed in TSG‐6−/− joints including Timp1, Inhibin βA, and podoplanin (known FGF2 target genes). FGF2 release upon cartilage injury was not influenced by levels of TSG‐6. Cartilage degradation was significantly increased at 12 weeks post‐DMM in male TSG‐6−/− mice, with a nonsignificant 30% reduction in disease seen in TSG‐6tg mice. No differences were observed in cartilage repair between genotypes. TSG‐6 overexpression was unable to prevent accelerated OA in FGF2−/− mice. Conclusion TSG‐6 influences early gene regulation in the destabilized joint and exerts a modest late chondroprotective effect. Although strongly FGF2 dependent, TSG‐6 does not explain the strong chondroprotective effect of FGF2.

Published

2020