Vascular smooth muscle cell-specific Igf1r deficiency exacerbates the development of hypertension-induced cerebral microhemorrhages and gait defects.
Lauren R MillerMarisa A BickelMichaela L VanceHannah VadenDomonkos NagykaldiAdam Nyul-TothElizabeth C BullenTripti GautamStefano TarantiniAndriy YabluchanskiyTamas KissZoltan UngvariShannon M ConleyPublished in: GeroScience (2024)
Cerebrovascular fragility and cerebral microhemorrhages (CMH) contribute to age-related cognitive impairment, mobility defects, and vascular cognitive impairment and dementia, impairing healthspan and reducing quality of life in the elderly. Insulin-like growth factor 1 (IGF-1) is a key vasoprotective growth factor that is reduced during aging. Circulating IGF-1 deficiency leads to the development of CMH and other signs of cerebrovascular dysfunction. Here our goal was to understand the contribution of IGF-1 signaling on vascular smooth muscle cells (VSMCs) to the development of CMH and associated gait defects. We used an inducible VSMC-specific promoter and an IGF-1 receptor (Igf1r) floxed mouse line (Myh11-Cre ERT2 Igf1r f/f ) to knockdown Igf1r. Angiotensin II in combination with L-NAME-induced hypertension was used to elicit CMH. We observed that VSMC-specific Igf1r knockdown mice had accelerated development of CMH, and subsequent associated gait irregularities. These phenotypes were accompanied by upregulation of a cluster of pro-inflammatory genes associated with VSMC maladaptation. Collectively our findings support an essential role for VSMCs as a target for the vasoprotective effects of IGF-1, and suggest that VSMC dysfunction in aging may contribute to the development of CMH.
Keyphrases
- vascular smooth muscle cells
- growth hormone
- binding protein
- angiotensin ii
- pi k akt
- cognitive impairment
- growth factor
- blood pressure
- smooth muscle
- oxidative stress
- dna methylation
- mesenchymal stem cells
- gene expression
- subarachnoid hemorrhage
- metabolic syndrome
- type diabetes
- stem cells
- cerebral palsy
- cell therapy
- insulin resistance
- blood brain barrier
- endothelial cells
- brain injury
- cerebral ischemia
- stress induced