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Aging, osteoarthritis and transforming growth factor-beta signaling in cartilage.
Osteoarthritis is a common malady of the musculoskeletal system affecting the articular cartilage. The increased frequency of osteoarthritis with aging indicates the complex etiology of this disease, which includes pathophysiology and joint stability including biomechanics. The balance between anabolic morphogens and growth factors and catabolic cytokines is at the crux of the problem of osteoarthritis. One such signal is transforming growth factor-beta (TGF-beta). The impaired TGF-beta signaling has been identified as a culprit in old mice in a recent article in this journal. This commentary places this discovery in the context of anabolic and catabolic signals and articular cartilage homeostasis in the joint
Interplay between bone morphogenetic proteins and cognate binding proteins in bone and cartilage development: noggin, chordin and DAN
This commentary is a concise discussion of the interactions between bone morphogenetic proteins (BMPs) and their binding proteins in bone and cartilage morphogenesis. BMPs are a family of growth and differentiation factors, and they act on mesenchymal cells to induce cartilage and bone differentiation in concentration-dependent thresholds. The BMP–BMP receptor binding leads to a cascade of signaling and transcription of BMP response genes. BMP binding proteins, noggin, chordin and DAN, act as antagonists and determine the bioavailability of BMPs for binding to cognate receptors to elicit the biological response. Noggin null mice with unrestricted action of BMPs exhibit defects in joint morphogenesis. BMPs and their binding proteins may reciprocally regulate the dynamic topography of joints, muscle, tendons and ligaments during morphogenesis of the skeleton. In addition, BMP actions may be potentiated by twisted gastrulation. BMPs and their binding proteins may play a critical role in regeneration of cartilage in osteoarthritis
Aging, osteoarthritis and transforming growth factor-β signaling in cartilage
Osteoarthritis is a common malady of the musculoskeletal system affecting the articular cartilage. The increased frequency of osteoarthritis with aging indicates the complex etiology of this disease, which includes pathophysiology and joint stability including biomechanics. The balance between anabolic morphogens and growth factors and catabolic cytokines is at the crux of the problem of osteoarthritis. One such signal is transforming growth factor-β (TGF-β). The impaired TGF-β signaling has been identified as a culprit in old mice in a recent article in this journal. This commentary places this discovery in the context of anabolic and catabolic signals and articular cartilage homeostasis in the joint
Human stem cells and articular cartilage regeneration.
The regeneration of articular cartilage damaged due to trauma and posttraumatic osteoarthritis is an unmet medical need. Current approaches to regeneration and tissue engineering of articular cartilage include the use of chondrocytes, stem cells, scaffolds and signals, including morphogens and growth factors. Stem cells, as a source of cells for articular cartilage regeneration, are a critical factor for articular cartilage regeneration. This is because articular cartilage tissue has a low cell turnover and does not heal spontaneously. Adult stem cells have been isolated from various tissues, such as bone marrow, adipose, synovial tissue, muscle and periosteum. Signals of the transforming growth factor beta superfamily play critical roles in chondrogenesis. However, adult stem cells derived from various tissues tend to differ in their chondrogenic potential. Pluripotent stem cells have unlimited proliferative capacity compared to adult stem cells. Chondrogenesis from embryonic stem (ES) cells has been studied for more than a decade. However, establishment of ES cells requires embryos and leads to ethical issues for clinical applications. Induced pluripotent stem (iPS) cells are generated by cellular reprogramming of adult cells by transcription factors. Although iPS cells have chondrogenic potential, optimization, generation and differentiation toward articular chondrocytes are currently under intense investigation
Cartilage Oligomeric Matrix Protein (COMP): A Biomarker of Arthritis
Arthritis is a chronic disease with a significant impact on the population. It damages the cartilage, synovium, and bone of the joints causing pain, impairment, and disability in patients. Current methods for diagnosis of and monitoring the disease are only able to detect clinical manifestations of arthritis late in the process. However, with the recent onset of successful treatments for rheumatoid arthritis and osteoarthritis, it becomes important to identify prognostic factors that can predict the evolution of arthritis. This is especially critical in the early phases of disease so that these treatments can be started as soon as possible to slow down progression of the disease. A valuable approach to monitor arthritis would be by measuring biological markers of cartilage degradation and repair to reflect variations in joint remodeling. One such potential biological marker of arthritis is cartilage oligomeric matrix protein (COMP). In various studies, COMP has shown promise as a diagnostic and prognostic indicator and as a marker of the disease severity and the effect of treatment. This review highlights the progress in the utilization of COMP as a biomarker of arthritis
Combined effect of bromelain and turmeric against acetic acid induced ulcerative colitis in wistar rats
Objective: The present study planned to study the combined effect of Bromelain and Turmeric in acetic acid induced ulcerative colitis in Wistar rats.
Methodology: Wistar rats of either sex (n = 30) were divided into 5 groups. Group – I, Sham control, administered single dose of vehicle rectally; Group –II, colitis control, colitis was induced by rectal administration of single dose of 2 ml of 3%, v/v of acetic acid in 0.9% saline; Group–III, treated with Turmeric (50 mg/kg/p.o); Group–IV, treated with Bromelain (100 mg/kg/p.o) and Group –V, treated with both Turmeric (50 mg/kg/p.o) and Bromelain (100 mg /kg/p.o). Colitis was induced in all the treatment groups on first day and drug treatment was continued for 7 days. During the treatment period, Disease Activity Index (DAI) was assessed daily and on 8th day White Blood Cell (WBC) Count and Differential Leucocyte Count (DLC) was performed and on 9th day all the rats were sacrificed for the assessment of intestinal inflammation, colon myeloperoxidase (MPO) levels and Histopathology. Results obtained were analysed by one-way analysis of variance followed by Tukey’s multiple comparison test.
Results: Overall changes in DAI, Inflammatory scores, WBC, DLC and MPO has shown significant improvement with Turmeric and Bromelain compared to Colitis control. However, the combined therapy has shown to be more effective in alleviating ulcerative colitis compared to individual therapies.
Conclusion: The present study recommends that the combination of Turmeric and Bromelain has synergistic effect in treating ulcerative colitis
Osteogenic competence and potency of the bone induction principle : inductive substrates that initiate "bone : formation by autoinduction"
The de novo induction of bone has always been a fascinating phenomenon, keeping skeletal reconstructionists and cellular developmental biologists continuously engaged to finally provide a molecular and cellular approach to the induction of bone formation. A significant advancement was made by the purification and cloning of the human recombinant bone morphogenetic proteins, members of the transforming growth factor-β supergene family. Human bone morphogenetic proteins are powerful inducers of bone in animal models including nonhuman primates. Translation in clinical contexts has however, proven to be surprisingly difficult. This review also describes the significant induction of bone formation by the human transforming growth factor-β3 when implanted in heterotopic intramuscular sites of the Chacma baboon Papio ursinus. Large mandibular defects implanted with 250 mg human transforming growth factor-β3 in human patients showed significant osteoinduction; however, the induction of bone was comparatively less than the induction of bone in P ursinus once again highlighting the conundrum of human osteoinduction: is the bone induction principle failing clinical translation?http://www.jcraniofacialsurgery.comhj2023Maxillo-Facial and Oral Surger
Induction of superficial zone protein (SZP)/ lubricin/PRG 4 in muscle-derived mesenchymal stem/progenitor cells by transforming growth factor-b1 and bone morphogenetic protein-7
Introduction
Articular cartilage (AC) is an avascular tissue with precise polarity and organization. The three distinct zones are: surface, middle and deep. The production and accumulation of the superficial zone protein (SZP), also known as lubricin, by the surface zone is a characteristic feature of AC. To date, there is a wealth of evidence showing differentiation of AC from mesenchymal stem cells. Most studies that described chondrogenic differentiation did not focus on AC with characteristic surface marker SZP/lubricin. The present investigation was initiated to determine the induction of SZP/lubricin in skeletal muscle-derived mesenchymal stem/progenitor cells (MDMSCs) by transforming growth factor-β1 (TGF-β1) and bone morphogenetic protein-7 (BMP-7).
Methods
MDMSCs were cultured as a monolayer at a density of 1 × 105 cells/well in 12-well tissue culture plates. Cell cultures were treated for 3, 7 and 10 days with TGF-β1 and BMP-7. The medium was analyzed for SZP. The cells were used to isolate RNA for RT-PCR assays for SZP expression.
Results
The SZP/lubricin increased in a time-dependent manner on Days 3, 7 and 10 in the medium. As early as Day 3, there was a three-fold increase in response to 3 ng/ml of TGF-β1 and 300 ng/ml of BMP-7. This was confirmed by immunochemical localization of SZP as early as Day 3 after treatment with TGF-β1. The expression of SZP mRNA was enhanced by TGF-β1.
Conclusions
The present investigation demonstrated the efficient and reproducible induction of SZP/lubricin accumulation by TGF-β1 and BMP-7 in skeletal MDMSCs. Optimization of the experimental conditions may permit the utility of MDMSCs in generating surface zone-like cells with phenotypic markers of AC and, therefore, constitute a promising cell source for tissue engineering approaches of superficial zone cartilage
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