Cartilage-Specific Ablation of Site-1 Protease in Mice Results in the Endoplasmic Reticulum Entrapment of Type IIB Procollagen and Down-Regulation of Cholesterol and Lipid Homeostasis

Patra, Debabrata; DeLassus, Elizabeth; Liang, Guosheng; Sandell, Linda J.

doi:10.1371/journal.pone.0105674

Cited by 15 publications

(15 citation statements)

References 52 publications

(70 reference statements)

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“…It includes SREBP1 and 2, proteins essential for cholesterol metabolism. These factors may be critical in GPCs, as suggested by the observation that chondrocyte-specific inactivation of the gene for S1P, a proprotein convertase required to cleave SREBP precursor proteins into mature forms, results in severe chondrodysplasia in the mouse, with significant downregulation of SREBP-dependent pathways [143, 144]. …”

Section: Basic-domain Transcription Factorsmentioning

confidence: 99%

Transcriptional control of chondrocyte specification and differentiation

Liu

Samsa

Zhou

et al. 2017

Seminars in Cell & Developmental Biology

141

112

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A milestone in the evolutionary emergence of vertebrates was the invention of cartilage, a tissue that has key roles in modeling, protecting and complementing the bony skeleton. Cartilage is elaborated and maintained by chondrocytes. These cells derive from multipotent skeletal progenitors and they perform highly specialized functions as they proceed through sequential lineage commitment and differentiation steps. They form cartilage primordia, the primary skeleton of the embryo. They then transform these primordia either into cartilage growth plates, temporary drivers of skeletal elongation and endochondral ossification, or into permanent tissues, namely articular cartilage. Chondrocyte fate decisions and differentiated activities are controlled by numerous extrinsic and intrinsic cues, and they are implemented at the gene expression level by transcription factors. The latter are the focus of this review. Meritorious efforts from many research groups have led over the last two decades to the identification of dozens of key chondrogenic transcription factors. These regulators belong to all types of transcription factor families. Some have master roles at one or several differentiation steps. They include SOX9 and RUNX2/3. Others decisively assist or antagonize the activities of these masters. They include TWIST1, SOX5/6, and MEF2C/D. Many more have tissue-patterning roles and regulate cell survival, proliferation and the pace of cell differentiation. They include, but are not limited to, homeodomain-containing proteins and growth factor signaling mediators. We here review current knowledge of all these factors, one superclass, class, and family at a time. We then compile all knowledge into transcriptional networks. We also identify remaining gaps in knowledge and directions for future research to fill these gaps and thereby provide novel insights into cartilage disease mechanisms and treatment options.

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Section: Basic-domain Transcription Factorsmentioning

confidence: 99%

Transcriptional control of chondrocyte specification and differentiation

Liu

Samsa

Zhou

et al. 2017

Seminars in Cell & Developmental Biology

141

112

View full text Add to dashboard Cite

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“…The UPR is important for the normal differentiation program in chondrocytes proceeding to hypertrophy and apoptosis during growth plate development. [88–90]. Inflammatory, mechanical, and oxidative stress can induce ER stress and the UPR in cartilage via C/EBP homologous protein (CHOP) and X-box protein 1 (XBP1) [••47], both of which potentiate IL-1β-induced oxidative stress and pro-catabolic responses [91]; however, XBP1 can promote chondrocyte survival under certain conditions [92].…”

Section: Autophagy Cell Survival and Bioenergeticsmentioning

confidence: 99%

Emerging targets in osteoarthritis therapy

Goldring

Bérenbaum

2015

Current Opinion in Pharmacology

147

124

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Osteoarthritis (OA) is a destructive joint disease in which the initiation may be attributed to direct injury and mechanical disruption of joint tissues, but the progressive changes are dependent on active cell-mediated processes that can be observed or inferred during the generally long time-course of the disease. Based on clinical observations and experimental studies, it is now recognized a that it is possible for individual patients to exhibit common sets of symptoms and structural abnormalities due to distinct pathophysiological pathways that act independently or in combination. Recent research that has focused on the underlying mechanisms involving biochemical cross talk among the cartilage, synovium, bone, and other joint tissues within a background of poorly characterized genetic factors will be addressed in this review.

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“…S6) at E16.5. Our previous studies had demonstrated that S1P ablation in the chondrocyte lineage resulted in intracellular Col II entrapment with abnormal cartilage that impeded endochondral bone development (Patra et al, 2014a(Patra et al, , 2007. However, S1P-ablation in the Osx lineage results in cartilage matrix very similar to WT.…”

Section: S1p Ablation In the Osx Lineage Delays Endochondral Bone Devmentioning

confidence: 99%

“…S1P cko mice (Col2-Cre driven) suffered from a complete lack of vascular invasion where pro-Col IIB entrapment was absolute (Patra et al, 2014a(Patra et al, , 2007. This suggests that clearing of the entrapped pro-Col IIB in this zone by UPR may be necessary before vascular invasion can begin.…”

Section: S1p Ablation In the Osx Lineage Reduces The Postnatal Growthmentioning

confidence: 99%

“…Antibodies to the type II collagen (Col II) triple helical domain (THD), type IIA procollagen (Col IIA) and the type IIB procollagen ( pro-Col IIB) and their use in double-labeled IF to analyze the cartilage matrix are as reported (Patra et al, 2014a(Patra et al, , 2007. IF for PECAM-1, Runx2, type I collagen (Col I), osteocalcin, Cxcl-12 and Gremlin1 proteins was performed on frozen hind limb sections after fixing tissues overnight with 4% formaldehyde (Duan et al, 2015).…”

Section: Antibodies Immunofluorescence and Imagingmentioning

confidence: 99%

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Site-1 protease regulates skeletal stem cell population and osteogenic differentiation in mice

Patra

Mueller

Sandell

2017

Osteoarthritis and Cartilage

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Site-1 protease (S1P) is a proprotein convertase with essential functions in the conversion of precursor proteins to their active form.In earlier studies, we demonstrated that S1P ablation in the chondrocyte lineage results in a drastic reduction in endochondral bone formation. To investigate the mechanistic contribution of S1P to bone development we ablated S1P in the osterix lineage in mice. S1P ablation in this lineage results in osteochondrodysplasia and variable degrees of early postnatal scoliosis. Embryonically, even though Runx2 and osterix expression are normal, S1P ablation results in a delay in vascular invasion and endochondral bone development. Mice appear normal when born, but by day 7 display pronounced dwarfism with fragile bones that exhibit significantly reduced mineral density, mineral apposition rate, bone formation rate and reduced osteoblasts indicating severe osteopenia. Mice suffer from a drastic reduction in bone marrow mesenchymal progenitors as analyzed by colony-forming unit-fibroblast assay. Fluorescence-activated cell sorting analysis of the skeletal mesenchyme harvested from bone marrow and collagenase-digested bone show a drastic reduction in hematopoietic lineage-negative, endothelial-negative, CD105+ skeletal stem cells. Bone marrow mesenchymal progenitors are unable to differentiate into osteoblasts in vitro, with no effect on adipogenic differentiation. Postnatal mice have smaller growth plates with reduced hypertrophic zone. Thus, S1P controls bone development directly by regulating the skeletal progenitor population and their differentiation into osteoblasts.This article has an associated First Person interview with the first author of the paper.

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Cartilage-Specific Ablation of Site-1 Protease in Mice Results in the Endoplasmic Reticulum Entrapment of Type IIB Procollagen and Down-Regulation of Cholesterol and Lipid Homeostasis

Cited by 15 publications

References 52 publications

Transcriptional control of chondrocyte specification and differentiation

Transcriptional control of chondrocyte specification and differentiation

Emerging targets in osteoarthritis therapy

Site-1 protease regulates skeletal stem cell population and osteogenic differentiation in mice

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