The scaffold protein Tks4 is required for the differentiation of mesenchymal stromal cells (MSCs) into adipogenic and osteogenic lineages

Dülk, Metta; Kudlik, Gyöngyi; Fekete, Anna; Ernszt, Dávid; Kvell, Krisztián; Pongrácz, Judit E.; Merő, Balázs; Szeder, Bálint; Radnai, László; Geiszt, Miklós; Csécsy, Dalma E.; Uher, Ferenc; Lányi, Árpád; Vas, Virag; Buday, László

doi:10.1038/srep34280

Cited by 21 publications

(47 citation statements)

References 29 publications

(38 reference statements)

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“…Mice that lack functional SH3PXD2B due to a truncating mutation ( Nee [nose, eyes, ear], Figure b[v]) or gene KO (Figure b[vi]) are indistinguishable from their littermates at birth. After weaning, mutants develop growth retardation, craniofacial malformations that include brachycephaly, a short snout, exophthalmos, and excessive thoracic kyphosis (Dülk et al, ; Iqbal et al, ; Mao et al, ). Although about 20% of Sh3pxd2b KO mice died of unknown causes within their first weeks, the life span of surviving KO mice, as well as that of Nee mutants, is unaffected (Iqbal et al, ).…”

Section: Discussion and Reviewmentioning

confidence: 99%

“…Although about 20% of Sh3pxd2b KO mice died of unknown causes within their first weeks, the life span of surviving KO mice, as well as that of Nee mutants, is unaffected (Iqbal et al, ). In both mouse models, BMD was reduced and osteogenic differentiation was impaired (Dülk et al, ). The mice also had various cardiac abnormalities, including septal thinning and mitral valve defects (Iqbal et al, ).…”

Section: Discussion and Reviewmentioning

confidence: 99%

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Multicentric osteolytic syndromes represent a phenotypic spectrum defined by defective collagen remodeling

Vos

Wong

Welting

et al. 2019

American J of Med Genetics Pt A

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Frank-Ter Haar syndrome (FTHS), Winchester syndrome (WS), and multicentric osteolysis, nodulosis, and arthropathy (MONA) are ultra-rare multisystem disorders characterized by craniofacial malformations, reduced bone density, skeletal and cardiac anomalies, and dermal fibrosis. These autosomal recessive syndromes are caused by homozygous mutation or deletion of respectively SH3PXD2B (SH3 and PX Domains 2B), MMP14 (matrix metalloproteinase 14), or MMP2. Here, we give an overview of the clinical features of 63 previously reported patients with an SH3PXD2B, MMP14, or MMP2 mutation, demonstrating considerable clinical overlap between FTHS, WS, and MONA. Interestingly, the protein products of SH3PXD2B, MMP14, and MMP2 directly cooperate in collagen remodeling. We review animal models for these three disorders that accurately reflect the major clinical features and likewise show significant phenotypical similarity with each other. Furthermore, they demonstrate that defective collagen remodeling is central in the underlying pathology. As such, we propose a nosological revision, placing these SH3PXD2B, MMP14, and MMP2 related syndromes in a novel "defective collagenremodelling spectrum (DECORS)". In our opinion, this revised nosology better reflects the central role for impaired collagen remodeling, a potential target for pharmaceutical intervention. K E Y W O R D SECM remodeling, MMP14, MMP2, podosomes, SH3PXD2B

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Section: Discussion and Reviewmentioning

confidence: 99%

Section: Discussion and Reviewmentioning

confidence: 99%

Multicentric osteolytic syndromes represent a phenotypic spectrum defined by defective collagen remodeling

Vos

Wong

Welting

et al. 2019

American J of Med Genetics Pt A

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“…Despite the similarities between Tks4 and Tks5, and the fact that Tks4 is also an important component of invadosome formation and function , care must be taken in ascribing all these developmental phenotypes to loss of podosomes. For example, recent research using a Tks4 knockout mouse revealed a differentiation defect in mesenchymal stromal cells (MSCs), caused by the reduced expression of RunX2 and Osterix, two osteogenic transcription factors that are normally up‐regulated during differentiation . In an adipogenic assay, Tks4 knockout MSCs were unable to form lipid droplets in the cytoplasm .…”

Section: Podosomes and Invadopodia Are Present In Diverse Cell Typesmentioning

confidence: 99%

Invadosomes are coming: new insights into function and disease relevance

2017

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Invadopodia and podosomes are discrete, actin-based molecular protrusions that form in cancer cells and normal cells, respectively, in response to diverse signaling pathways and extracellular matrix cues. Although they participate in a host of different cellular processes, they share a common functional theme of controlling pericellular proteolytic activity, which sets them apart from other structures that function in migration and adhesion, including focal adhesions, lamellipodia, and filopodia. In this review, we highlight research that explores the function of these complex structures, including roles for podosomes in embryonic and postnatal development, in angiogenesis and remodeling of the vasculature, in maturation of the postsynaptic membrane, in antigen sampling and recognition, and in cell-cell fusion mechanisms, as well as the involvement of invadopodia at multiple steps of the metastatic cascade, and how all of this may apply in the treatment of human disease states. Finally, we explore recent research that implicates a novel role for exosomes and microvesicles in invadopodiadependent and invadopodia-independent mechanisms of invasion, respectively.

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“…Knockout of exon 4 of pNO40/PS1D in MSCs results in elevated ROS levels and p16 and Rb expression, consequently accelerating ageing and osteogenic differentiation defects . Similarly, MSCs isolated from Tks4 knock‐out mouse have reduced osteogenic and adipogenic differentiation capacities compared with those isolated from wild‐type mice . Although knockdown of NOX4 suppressed ROS production and adipogenic differentiation in MSCs, Kim et al demonstrated that NOX4 silencing did not inhibit MSC adipocyte differentiation.…”

Section: Strategies To Control Ros Levels For Msc Fates In Vitro and mentioning

confidence: 99%

“…124 Similarly, MSCs isolated from Tks4 knock-out mouse have reduced osteogenic and adipogenic differentiation capacities compared with those isolated from wild-type mice. 125 Although knockdown of NOX4 suppressed ROS production and adipogenic differentiation in MSCs, 126 Kim et al 43 will we effectively regulate ROS levels to take advantage of the mass multiplication and strong differentiation capacities of MSCs, which will allow for harnessing the immortality of MSCs for transplantation and therapy in regenerative medicine.…”

Section: Pharmaceuticals For Ros Regulation In Mscsmentioning

confidence: 99%

Regulation of the mitochondrial reactive oxygen species: Strategies to control mesenchymal stem cell fates ex vivo and in vivo

Zhao

Peng

et al. 2018

J Cellular Molecular Medi

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Mesenchymal stem cells (MSCs) are broadly used in cell‐based regenerative medicine because of their self‐renewal and multilineage potencies in vitro and in vivo. To ensure sufficient amounts of MSCs for therapeutic purposes, cells are generally cultured in vitro for long‐term expansion or specific terminal differentiation until cell transplantation. Although physiologically up‐regulated reactive oxygen species (ROS) production is essential for maintenance of stem cell activities, abnormally high levels of ROS can harm MSCs both in vitro and in vivo. Overall, additional elucidation of the mechanisms by which physiological and pathological ROS are generated is necessary to better direct MSC fates and improve their therapeutic effects by controlling external ROS levels. In this review, we focus on the currently revealed ROS generation mechanisms and the regulatory routes for controlling their rates of proliferation, survival, senescence, apoptosis, and differentiation. A promising strategy in future regenerative medicine involves regulating ROS generation via various means to augment the therapeutic efficacy of MSCs, thus improving the prognosis of patients with terminal diseases.

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The scaffold protein Tks4 is required for the differentiation of mesenchymal stromal cells (MSCs) into adipogenic and osteogenic lineages

Cited by 21 publications

References 29 publications

Multicentric osteolytic syndromes represent a phenotypic spectrum defined by defective collagen remodeling

Multicentric osteolytic syndromes represent a phenotypic spectrum defined by defective collagen remodeling

Invadosomes are coming: new insights into function and disease relevance

Regulation of the mitochondrial reactive oxygen species: Strategies to control mesenchymal stem cell fates ex vivo and in vivo

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