Hypoxia Inducible Factor-1α in Osteochondral Tissue Engineering

Taheem, Dheraj K.; Jell, Gavin; Gentleman, Eileen

doi:10.1089/ten.teb.2019.0283

Cited by 28 publications

(23 citation statements)

References 112 publications

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“… 157 Growth factors and cytokines also participate in OA pain via both cartilage degradation and nociceptive stimulation. Pain relief has been observed for therapies targeting inflammatory mediators such as TNF, 158 IL-1 β, 159 IL-6 160 and PG-E2, 161 signaling mediators such as p38, 162 HIF 163 and RUNX2, 164 and proteinases such as MMP 165 and ADAMTS-5. 166 …”

Section: Subchondral Bone Microenvironment and Oa Painmentioning

confidence: 99%

Subchondral bone microenvironment in osteoarthritis and pain

et al. 2021

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Osteoarthritis comprises several joint disorders characterized by articular cartilage degeneration and persistent pain, causing disability and economic burden. The incidence of osteoarthritis is rapidly increasing worldwide due to aging and obesity trends. Basic and clinical research on osteoarthritis has been carried out for decades, but many questions remain unanswered. The exact role of subchondral bone during the initiation and progression osteoarthritis remains unclear. Accumulating evidence shows that subchondral bone lesions, including bone marrow edema and angiogenesis, develop earlier than cartilage degeneration. Clinical interventions targeting subchondral bone have shown therapeutic potential, while others targeting cartilage have yielded disappointing results. Abnormal subchondral bone remodeling, angiogenesis and sensory nerve innervation contribute directly or indirectly to cartilage destruction and pain. This review is about bone-cartilage crosstalk, the subchondral microenvironment and the critical role of both in osteoarthritis progression. It also provides an update on the pathogenesis of and interventions for osteoarthritis and future research targeting subchondral bone.

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Section: Subchondral Bone Microenvironment and Oa Painmentioning

confidence: 99%

Subchondral bone microenvironment in osteoarthritis and pain

et al. 2021

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“…HIF-1α serves as a key factor for maintenance of hyaline chondrocyte phenotype by promoting the synthesis of type II collagen and aggrecan [ [47] , [48] , [49] , [50] , [51] ]. Depletion of HIF-1α can induce chondrocyte apoptosis and aggravate cartilage degeneration in OA [ [52] , [53] , [54] ].…”

Section: Discussionmentioning

confidence: 99%

Combination of magnesium ions and vitamin C alleviates synovitis and osteophyte formation in osteoarthritis of mice

Yao

Wang

et al. 2021

Bioactive Materials

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Introduction We previously demonstrated that magnesium ions (Mg 2+ ) was a novel therapeutic alternative for osteoarthritis (OA) through promoting the hypoxia inducible factor-1α (HIF-1α)-mediated cartilage matrix synthesis. However, oxidative stress can inhibit the expression of HIF-1α, amplify the inflammation that potentially impairs the therapeutic efficacy of Mg 2+ in OA. Vitamin (VC), a potent antioxidant, may enhance the efficacy of Mg 2+ in OA treatment. This study aims to investigate the efficacy of combination of Mg 2+ and VC on alleviating joint destruction and pain in OA. Material and methods Anterior cruciate ligament transection with partial medial meniscectomy induced mice OA model were randomly received intra-articular injection of either saline, MgCl 2 (0.5 mol/L), VC (3 mg/ml) or MgCl 2 (0.5 mol/L) plus VC (3 mg/ml) at week 2 post-operation, twice weekly, for 2 weeks. Joint pain and pathological changes were assessed by gait analysis, histology, western blotting and micro-CT. Results Mg 2+ and VC showed additive effects to significantly alleviate the joint destruction and pain. The efficacy of this combined therapy could sustain for 3 months after the last injection. We demonstrated that VC enhanced the promotive effect of Mg 2+ on HIF-1α expression in cartilage. Additionally, combination of Mg 2+ and VC markedly promoted the M2 polarization of macrophages in synovium. Furthermore, combination of Mg 2+ and VC inhibited osteophyte formation and expressions of pain-related neuropeptides. Conclusions Intra-articular administration of Mg 2+ and VC additively alleviates joint destruction and pain in OA. Our current formulation may be a cost-effective alternative treatment for OA.

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“…For example, the positive impact of bioreactors in musculoskeletal tissue engineering has been well-established (Peroglio et al, 2018) and electrospun scaffolds coupled with bioreactors have shown promise todate, even for complex structures, such as the cartilage-bone interface (Baumgartner et al, 2019). Further, considering that extracellular matrix is key modulator of cell fate through provision of biophysical, biochemical, and biological signals Watt and Huck, 2013;Kumar et al, 2017;Muncie and Weaver, 2018;Smith et al, 2018;Novoseletskaya et al, 2019), strategies that enhance and accelerate native extracellular matrix synthesis [e.g., hypoxia (Taheem et al, 2019)] and deposition [e.g., macromolecular crowding ] coupled with electrospinning are likely to lead to more biomimetic three-dimensional cartilage equivalents. It is also worth noting, that although the cell-sheet/scaffold-free technology has shown promise in human cartilage engineering (Sato et al, 2019), only thin layers of tissue can be developed, which imposes the need of either multi-layered approaches that are often associated with delamination and cell death in the middle layers due to poor nutrient/waste transport (Sekine et al, 2011) or multiple surgeries (Shimizu et al, 2006;Komae et al, 2017).…”

Section: Critical Analysis and Outlookmentioning

confidence: 99%