Bone Abstracts

Introduction: Osteoblast lineage cells express glutamate receptors and secrete glutamate, which acts as an autocrine factor to promote cellular differentiation and activation. However, the mechanisms by which glutamate regulates these functions, remain unclear.Methods: Primary osteoblasts were isolated from calvaria of 2–3 days old mice. The cells were treated with inhibitors of glutamate transporters, namely the Scl1a1 and Scl1a3 inhibitor L...

Purpose: Multipotent stromal cells (MSC)-based regenerative strategy is promising for the repair of cartilage, which is an avascular tissue in which cells experience hypoxia. Hypoxia is known to promote the early chondrogenic differentiation of MSC. Therefore, the aim of our study was to determine whether low oxygen tension could be used to enhance the regenerative potential of MSC for cartilage repair.Methods: MSC from rabbits or human adipose tissues (...

In type 2 diabetes mellitus (T2DM) patients, an increased fracture risk is observed, although the bone mineral density is even higher than in non-diabetic patients, which raises the question of the quality of the organic and inorganic matrix in bone1,2. T2DM is also known to favor inflammation of the gingiva and paradontosis in general. However, little is known about the mineral nano-architecture in the mandible and about the possible influence of diabetes. Using sy...

Protein kinases are an important class of regulatory elements and pharmacological targets for treatment of a number of diseases including cancer, heart and lung diseases. However, their role in regulation of the skeletal (mesenchymal) stem cell (MSC) functions and bone formation is not fully understood. Thus, we performed functional screening of human kinome, using three siRNAs for each of the ~700 known kinases represented in the human genome. Activity of alkaline phosphatase...

Introduction: Insulin sensitising agents are reported to have a diverse range of effects on bone with metformin exerting positive effects and thiazolidinenediones (TZDs) exerting negative effects. 5’AMP-activated protein kinase (AMPK) plays a critical role in cellular energy homeostasis. It is widely expressed in the body and can be activated by metformin.Objective:: We investigated the role of AMPK pathway in mediating the effects of metformin on t...

Introduction: Using the autograft bones in treatment orthopaedic diseases and trauma is common. However, cases of the large bone fragments autoplasty in acute trauma is rare. We have studied the case of succesfull autoplasty of the large tibial fragment in severe road accident.Materials and methods: Child O., born in 2000, was delivered to the emergency room of Mogilev City Hospital after road accident (he was hit by a car while crossing the street). His...

Purpose: High osteoclastogenesis accompanies early stages of osteoarthritis (OA). Cartilage loss is reduced when osteoclasts are inhibited in mice models with bone hyperresorption. Although several evidences show that osteoclast-produced molecules affects chondrocyte metabolism, the mechanism by which inhibition of osteoclasts protects from cartilage damage is unclear. Our purpose was to investigate the role of Sphingosine 1 Phosphate, a lipid mediator secreted by osteoclasts ...

Context: An increase in bone marrow adiposity (BMA) is usually described in anorexia nervosa (AN) patients and in calorie restriction models. This induced BMA could be involved in the development of the osteoporosis often described in AN. However, BMA increase is not always observed and could be depending on the severity of the deficit.We previously developed the separation-based anorexia mouse model (SBA)1 (Ethical approval CEEA #022012). SBA...

: Hyperphosphatemic tumoral calcinosis (HTC) is a rare autosomal recessive metabolic disorder characterized by ectopic calcifications due to progressive deposition of basic calcium phosphate crystals in soft tissues. The biochemical hallmark of HTC is hyperphosphatemia caused by increased renal absorption of phosphate due to loss-of-function mutations in three genes: in the fibroblast growth factor-23 gene (FGF23) coding for a potent phosphaturic protein, in GALNT3, g...

Objectives: Endochondral ossification in the growth plate cartilage (GPC) plays a crucial role in the determination of the length and shape of long bones. Many skeletal dysplasias are caused by GPC dysfunction, associated with short stature. We have already reported that human iPS cell-derived cartilage (hiPSC-Cart), when implanted into the subcutaneous spaces of the SCID mice for 4 weeks, formed skeletal tissue like GPC. This model could also recapitulate the pathology of FGF...