Tenascin-C fibronectin D domain is involved in the fine-tuning of glial response to CNS injury in vitro

Abstract: Understanding processes that occur after injuries to the central nervous system is essential in order to gain insight into how the restoration of function can be improved. Extracellular glycoprotein tenascin-C (TnC) has numerous functions in wound healing process depending on the expression time, location, isoform and binding partners which makes it interesting to study in this context. We used an in vitro injury model, the mixed culture of cortical astrocytes and microglia, and observed that without TnC micro… Show more

“…It is involved in neuronal and glial cell development, migration, and neurogenesis [37][38][39][40], proliferation and regeneration [41], and neurite growth [42]. In pathological conditions, TnC is instrumental in spinal cord regeneration and glial scar formation [43][44][45], as well as in inflammatory processes in experimental autoimmune encephalomyelitis and ischemia [46][47][48]. Expression of TnC is highly dynamic during development, when physiological levels of mRNA and protein expression of TnC significantly decrease as the organism matures [37].…”

The Role of Tenascin-C on the Structural Plasticity of Perineuronal Nets and Synaptic Expression in the Hippocampus of Male Mice

“…It is involved in neuronal and glial cell development, migration, and neurogenesis [37][38][39][40], proliferation and regeneration [41], and neurite growth [42]. In pathological conditions, TnC is instrumental in spinal cord regeneration and glial scar formation [43][44][45], as well as in inflammatory processes in experimental autoimmune encephalomyelitis and ischemia [46][47][48]. Expression of TnC is highly dynamic during development, when physiological levels of mRNA and protein expression of TnC significantly decrease as the organism matures [37].…”

The Role of Tenascin-C on the Structural Plasticity of Perineuronal Nets and Synaptic Expression in the Hippocampus of Male Mice