Crosstalk between Wnt and bone morphogenetic protein signaling during osteogenic differentiati

Mesenchymal stem cells(MSCs)originate from many sources,including the bone marrow and adipose tissue,and differentiate into various cell types,such as osteoblasts and adipocytes.Recent studies on MSCs have revealed that many transcription factors and signaling pathways control osteogenic development.Osteogenesis is the process by which new bones are formed;it also aids in bone remodeling.Wnt/β-catenin and bone morphogenetic protein(BMP)signaling pathways are involved in many cellular processes and considered to be essential for life.Wnt/β-catenin and BMPs are important for bone formation in mammalian development and various regulatory activities in the body.Recent studies have indicated that these two signaling pathways contribute to osteogenic differen-tiation.Active Wnt signaling pathway promotes osteogenesis by activating the downstream targets of the BMP signaling pathway.Here,we briefly review the molecular processes underlying the crosstalk between these two pathways and explain their participation in osteogenic differentiation,emphasizing the canonical pathways.This review also discusses the crosstalk mechanisms of Wnt/BMP signaling with Notch-and extracellular-regulated kinases in osteogenic differentiation and bone development.

Magnesium-incorporated biocomposite scaffolds:A novel frontier in bone tissue engineering

Nonunion represents a crucial challenge in orthopedic medicine,demanding innovative solutions beyond the scope of traditional bone grafting methods.Among the various strategies available,magnesium(Mg)implants have been recognized for their biocompatibility and biodegradability.However,their susceptibility to rapid corrosion and degradation has garnered notable research interest in bone tissue engineering(BTE),particularly in the development of Mg-incorporated biocomposite scaffolds.These scaffolds gradually release Mg2+,which enhances immunomodulation,osteogenesis,and angiogenesis,thus facilitating effective bone regeneration.This review presents myriad fabrication techniques used to create Mg-incorporated biocomposite scaffolds,including electrospinning,three-dimensional printing,and sol-gel synthesis.Despite these advancements,the application of Mg-incorporated biocomposite scaffolds faces challenges such as controlling the degradation rate of Mg and ensuring mechanical stability.These limitations highlight the necessity for ongoing research aimed at refining fabrication techniques to better regulate the physicochemical and osteogenic properties of scaffolds.This review provides insights into the potential of Mg-incorporated biocomposite scaffolds for BTE and the challenges that need to be addressed for their successful translation into clinical applications.

Grade Dependent Expression of Growth Factor Receptors and Signaling Molecules in Breast Cancer

Growth factor signaling plays a key role in the growth and development of breast. Aberrant expression and activation of growth factors like insulin like growth factor-I (IGF-I) and epidermal growth factor (EGF) and their downstream signaling has been implicated in breast cancer. The deregulation of growth factor signaling is associated with increased proliferation and cell survival, decreased apoptosis, invasion, angiogenesis and metastasis. The aim of the present study is to survey the different signaling molecules involved in the IGF and EGF signaling pathways, and to find if there are any relationship between breast cancer and their levels and activation. Thirty-nine samples of breast cancer tissues (24 Grade II and 15 Grade III tumours) and sixteen normal breast tissue samples were collected. The expression of the receptors and signaling molecules were investigated using Western blot. IGF-IRβ, AR, pAkt, IKK-α and p38 are upregulated in cancer tissues in a grade depended manner. Further, Akt and β-catenin were also upregulated in cancer samples. Correlation analysis of signaling molecules revealed a disruption in their expression in cancer tissues. The present study shows that various signaling molecules are upregulated or activated in cancer tissues involving IGF-IR and Akt pathway. The expression of signaling molecules in the cancer tissues were deregulated when compared to the control samples. Thus, flawed expression and over activation of Akt pathway is seen in the breast cancer tissues.