Intermediate Filaments as a Target of Signaling Mechanisms in Neurotoxicity

Abstract: In this chapter, we deal with the current knowledge and important results on the cytoskeletal proteins and their differential regulation by kinases/phosphatases and Ca 2+mediated mechanisms in developmental rat brain. We focus on the misregulation of the phosphorylating system associated with intermediate filament proteins of neural cells and its relevance to cell and tissue dysfunction. Taking into account our findings, we propose that intermediate-filament proteins are dynamic structures whose regulation is … Show more

“…At the site of insult, the amount of GFAP is related to the amount of reactive astroglial cells [179,180]. GFAP is an important intermediate filament that allows astrocytes to become hypertrophic through the synthesis of cytoskeletal structures and elongation of processes [181,182]. An increase in GFAP expression and hypertrophy is evident in the week following injury [183].…”

Astroglial Cells: Emerging Therapeutic Targets in the Management of Traumatic Brain Injury

“…At the site of insult, the amount of GFAP is related to the amount of reactive astroglial cells [179,180]. GFAP is an important intermediate filament that allows astrocytes to become hypertrophic through the synthesis of cytoskeletal structures and elongation of processes [181,182]. An increase in GFAP expression and hypertrophy is evident in the week following injury [183].…”

Astroglial Cells: Emerging Therapeutic Targets in the Management of Traumatic Brain Injury

Role of Cytoskeletal Elements in Regulation of Synaptic Functions: Implications Toward Alzheimer’s Disease and Phytochemicals-Based Interventions

Effect of Eight –Weeks of Resistance Training on Serum Levels of Neurofilament Light Chain and Tau Protein in Women with Multiple Sclerosis