Long Term Response to Circulating Angiogenic Cells, Unstimulated or Atherosclerotic Pre-Conditioned, in Critical Limb Ischemic Mice.
Lucía Beltrán-CamachoMargarita Jimenez-PalomaresIsmael Sánchez-GomarAntonio Rosal-VelaMarta Rojas-TorresSara Eslava-AlconJose Angel Alonso-PiñeroAlmudena González-RoviraMª Jesús Extremera-GarcíaRosario ConejeroEsther DoizManuel Rodriguez-PiñeroMartin R LarsenMª Carmen Duran-RuizPublished in: Biomedicines (2021)
Critical limb ischemia (CLI), the most severe form of peripheral artery disease, results from the blockade of peripheral vessels, usually correlated to atherosclerosis. Currently, endovascular and surgical revascularization strategies cannot be applied to all patients due to related comorbidities, and even so, most patients require re-intervention or amputation within a year. Circulating angiogenic cells (CACs) constitute a good alternative as CLI cell therapy due to their vascular regenerative potential, although the mechanisms of action of these cells, as well as their response to pathological conditions, remain unclear. Previously, we have shown that CACs enhance angiogenesis/arteriogenesis from the first days of administration in CLI mice. Also, the incubation ex vivo of these cells with factors secreted by atherosclerotic plaques promotes their activation and mobilization. Herein, we have evaluated the long-term effect of CACs administration in CLI mice, whether pre-stimulated or not with atherosclerotic factors. Remarkably, mice receiving CACs and moreover, pre-stimulated CACs, presented the highest blood flow recovery, lower progression of ischemic symptoms, and decrease of immune cells recruitment. In addition, many proteins potentially involved, like CD44 or matrix metalloproteinase 9 (MMP9), up-regulated in response to ischemia and decreased after CACs administration, were identified by a quantitative proteomics approach. Overall, our data suggest that pre-stimulation of CACs with atherosclerotic factors might potentiate the regenerative properties of these cells in vivo.
Keyphrases
- induced apoptosis
- cell therapy
- cell cycle arrest
- stem cells
- end stage renal disease
- blood flow
- chronic kidney disease
- newly diagnosed
- ejection fraction
- randomized controlled trial
- cardiovascular disease
- mesenchymal stem cells
- endoplasmic reticulum stress
- metabolic syndrome
- cell death
- signaling pathway
- prognostic factors
- brain injury
- physical activity
- deep learning
- peritoneal dialysis
- depressive symptoms
- type diabetes
- adipose tissue
- skeletal muscle
- coronary artery disease
- big data
- subarachnoid hemorrhage
- sleep quality
- electronic health record
- drug induced
- coronary artery bypass grafting
- insulin resistance
- pi k akt
- cerebral ischemia
- human health