Heparan-Sulfate Proteoglycans Influence Alzheimer's Disease Cell Pathology
Researchers utilized mouse astrocytes and human cell cultures to investigate how HSPGs influence autophagy, mitochondrial function, and lipid synthesis.
They also explored whether altering HSPG signaling could mitigate the effects of mutated presenilin (PSEN1) in Drosophila models.
Know in Detail: https://thelifesciencesmag...
#Alzheimers #neuroscience #HSPG #Autophagy #Mitochondria #LipidSynthesis #PSEN1 #Drosophila #CellPathology #Astrocytes
Researchers utilized mouse astrocytes and human cell cultures to investigate how HSPGs influence autophagy, mitochondrial function, and lipid synthesis.
They also explored whether altering HSPG signaling could mitigate the effects of mutated presenilin (PSEN1) in Drosophila models.
Know in Detail: https://thelifesciencesmag...
#Alzheimers #neuroscience #HSPG #Autophagy #Mitochondria #LipidSynthesis #PSEN1 #Drosophila #CellPathology #Astrocytes
Alzheimer's Disease Pathology: Insights Into HSPGs And Cellular Health | The Lifesciences Magazine
Research on Alzheimer's disease pathology highlighting the role of heparan-sulfate-modified proteoglycans (HSPGs) in improving autophagy, mitochondrial function, and lipid synthesis, suggesting potential therapeutic strategies.
https://thelifesciencesmagazine.com/alzheimers-disease-pathology-study/
4 months ago
