Sex-specific molecular hallmarks point to increased atherogenesis susceptibility in male senescence-accelerated mice

Aims

The senescence-accelerated mouse (SAM) model has been extensively used to study neurological alterations associated with aging. The SAM model has also proved to be useful in the study of vascular aging, but there is still work to be done to better define its utility as a model of atherosclerosis, since contradictory data have been published and sex seems to play a crucial role in potential divergences.

Materials and methods

With this in mind, we aimed to decipher the molecular mechanisms underlying early vascular aging on SAMP8 mice, analyzing the aorta of 10 months-old animals by means of in-depth proteomic analysis, considering sex-specific differences. Validation of the results obtained were performed by western blot in an independent cohort of mice, as well as in human aortic smooth muscle cells (HASMC). Besides, an exhaustive lipoprotein and glycoprotein analysis was performed in blood plasma.

Key findings

Distinct proteomic, lipoprotein and glycoprotein profiles have been found in SAMP8 mice, according to sex. Male SAMP8 mice showed signs of increased atherogenesis susceptibility due to several sex-specific alterations: 1) increased number of VLDLs, as well as in their cholesterol and TG content; 2) upregulation of inflammatory glycoproteins in plasma; and 3) increased features of SASP and vascular calcification: upregulation of exocytic vesicular transport and downregulation of the protein Gas6. On the contrary, female mice showed a much better proteomic and lipoprotein profile.

Significance

The results obtained suggest that male SAMP8 mice will be more susceptible to develop atherosclerosis under a HFD than female mice.