Your search keyword '"Shkhyan, Ruzanna"' showing total 4 results

1. Genetic ablation of adenosine receptor A3 results in articular cartilage degeneration

Author

Shkhyan, Ruzanna, Lee, Siyoung, Gullo, Francesca, Li, Lei, Peleli, Maria, Carlstrom, Mattias, Chagin, Andrei S., Banks, Nicholas W., Limfat, Sean, Liu, Nancy Q., and Evseenko, Denis

Published

2018

2. gp130/STAT3 signaling is required for homeostatic proliferation and anabolism in postnatal growth plate and articular chondrocytes.

Author

Liu, Nancy Q., Lin, Yucheng, Li, Liangliang, Lu, Jinxiu, Geng, Dawei, Zhang, Jiankang, Jashashvili, Tea, Buser, Zorica, Magallanes, Jenny, Tassey, Jade, Shkhyan, Ruzanna, Sarkar, Arijita, Lopez, Noah, Lee, Siyoung, Lee, Youngjoo, Wang, Liming, Petrigliano, Frank A., Van Handel, Ben, Lyons, Karen, and Evseenko, Denis

Subjects

GROWTH plate, BIOSYNTHESIS, ARTICULAR cartilage, BONE growth, CYTOKINE receptors, FEMALES

Abstract

Growth of long bones and vertebrae is maintained postnatally by a long-lasting pool of progenitor cells. Little is known about the molecular mechanisms that regulate the output and maintenance of the cells that give rise to mature cartilage. Here we demonstrate that postnatal chondrocyte-specific deletion of a transcription factor Stat3 results in severely reduced proliferation coupled with increased hypertrophy, growth plate fusion, stunting and signs of progressive dysfunction of the articular cartilage. This effect is dimorphic, with females more strongly affected than males. Chondrocyte-specific deletion of the IL-6 family cytokine receptor gp130, which activates Stat3, phenocopied Stat3-deletion; deletion of Lifr, one of many co-receptors that signals through gp130, resulted in a milder phenotype. These data define a molecular circuit that regulates chondrogenic cell maintenance and output and reveals a pivotal positive function of IL-6 family cytokines in the skeletal system with direct implications for skeletal development and regeneration. Liu et al. demonstrate the role of gp130/STAT3 signalling in the development and homeostasis of chondrocytes in the growth plate and articular cartilage. The authors report that tamoxifen-induced deletion of STAT3 or gp130 in chondrocytes after birth results in defective chondrocyte proliferation, growth plate fusion and stunting, and signs of progressive dysfunction of the articular cartilage, with female mice more strongly affected than males. [ABSTRACT FROM AUTHOR]

Published

2022

3. Long-term repair of porcine articular cartilage using cryopreservable, clinically compatible human embryonic stem cell-derived chondrocytes.

Author

Petrigliano, Frank A., Liu, Nancy Q., Lee, Siyoung, Tassey, Jade, Sarkar, Arijita, Lin, Yucheng, Li, Liangliang, Yu, Yifan, Geng, Dawei, Zhang, Jiankang, Shkhyan, Ruzanna, Bogdanov, Jacob, Van Handel, Ben, Ferguson, Gabriel B., Lee, Youngjoo, Hinderer, Svenja, Tseng, Kuo-Chang, Kavanaugh, Aaron, Crump, J. Gage, and Pyle, April D.

Subjects

ARTICULAR cartilage, CARTILAGE cells, SURFACE defects, TRANSCRIPTOMES, CARTILAGE

Abstract

Osteoarthritis (OA) impacts hundreds of millions of people worldwide, with those affected incurring significant physical and financial burdens. Injuries such as focal defects to the articular surface are a major contributing risk factor for the development of OA. Current cartilage repair strategies are moderately effective at reducing pain but often replace damaged tissue with biomechanically inferior fibrocartilage. Here we describe the development, transcriptomic ontogenetic characterization and quality assessment at the single cell level, as well as the scaled manufacturing of an allogeneic human pluripotent stem cell-derived articular chondrocyte formulation that exhibits long-term functional repair of porcine articular cartilage. These results define a new potential clinical paradigm for articular cartilage repair and mitigation of the associated risk of OA. [ABSTRACT FROM AUTHOR]

Published

2021

4. Modulation of Hedgehog Signaling by Kappa Opioids to Attenuate Osteoarthritis.

Author

Weber, Alexander E., Jalali, Omid, Limfat, Sean, Shkhyan, Ruzanna, Van Der Horst, Robert, Lee, Siyoung, Lin, Yucheng, Li, Liangliang, Mayer, Erik N., Wang, Liming, Liu, Nancy Q., Petrigliano, Frank A., Lieberman, Jay R., and Evseenko, Denis

Subjects

THERAPEUTIC use of narcotics, ANALGESICS, ANIMAL experimentation, ARTICULAR cartilage, CARTILAGE cells, CELL receptors, INTRA-articular injections, KNEE, KNEE diseases, METAPLASTIC ossification, NARCOTICS, OSTEOARTHRITIS, PEPTIDES, RATS, SWINE, TIBIA, TREATMENT effectiveness, NEURAL pathways, HEDGEHOG signaling proteins, DESCRIPTIVE statistics, IN vivo studies, CHEMICAL inhibitors

Abstract

Objective: Inhibition of hedgehog (HH) signaling prevents cartilage degeneration and promotes repair in animal models of osteoarthritis (OA). This study, undertaken in OA models and in human OA articular cartilage, was designed to explore whether kappa opioid receptor (KOR) modulation via the inhibition of HH signaling may have therapeutic potential for achieving disease‐modifying activity in OA. Methods: Primary human articular cartilage and synovial tissue samples from patients with knee OA undergoing total joint replacement and from healthy human subjects were obtained from the National Disease Research Interchange. For in vivo animal studies, a partial medial meniscectomy (PMM) model of knee OA in rats was used. A novel automated 3‐dimensional indentation tester (Mach‐1) was used to quantify the thickness and stiffness properties of the articular cartilage. Results: Inhibition of HH signaling through KOR activation was achieved with a selective peptide agonist, JT09, which reduced HH signaling via the cAMP/CREB pathway in OA human articular chondrocytes (P = 0.002 for treated versus untreated OA chondrocytes). Moreover, JT09 markedly decreased matrix degeneration induced by an HH agonist, SAG, in pig articular chondrocytes and cartilage explants (P = 0.026 versus untreated controls). In vivo application of JT09 via intraarticular injection into the rat knee joint after PMM surgery significantly attenuated articular cartilage degeneration (60% improvement in the tibial plateau; P = 0.021 versus vehicle‐treated controls). In JT09‐treated rats, cartilage content, structure, and functional properties were largely maintained, and osteophyte formation was reduced by 70% (P = 0.005 versus vehicle‐treated controls). Conclusion: The results of this study define a novel mechanism for the role of KOR in articular cartilage homeostasis and disease, providing a potential unifying mechanistic basis for the overlap in disease processes and features involving opioid and HH signaling. Moreover, this study identifies a potential novel therapeutic strategy in which KOR modulation can improve outcomes in patients with OA. [ABSTRACT FROM AUTHOR]

Published

2020