Deletion of p16Ink4a cells does not negatively impact β-cell mass and proliferation in mice

A new research paper was published on the cover of Aging (listed as "Aging (Albany NY)" by Medline/PubMed and "Aging-US" by Web of Science) Volume 15, Issue 2, entitled, "Clearance of p16^Ink4a-positive cells in a mouse transgenic model does not change β-cell mass and has limited effects on their proliferative capacity."

Type 2 diabetes is partly characterized by decreased β-cell mass and function which have been linked to cellular senescence. Despite a low basal proliferative rate of adult β-cells, they can respond to growth stimuli, but this proliferative capacity decreases with age and correlates with increased expression of senescence effector, p16^Ink4a.

In a new study, researchers Nadine Bahour, Lucia Bleichmar, Cristian Abarca, Emeline Wilmann, Stephanie Sanjines, and Cristina Aguayo-Mazzucato from the Joslin Diabetes Center at Harvard Medical School hypothesized that selective deletion of p16^{Ink4a-positive} cells would enhance the proliferative capacity of the remaining β-cells due to the elimination of the local senescence-associated secretory phenotype (SASP).

"We aimed to investigate the effects of p16^{Ink4a-positive} cell removal on the mass and proliferative capacity of remaining β-cells using INK-ATTAC mice as a transgenic model of senolysis."

Clearance of p16^{Ink4a-positive} subpopulation was tested in mice of different ages, males and females, and with two different insulin resistance models: high-fat diet (HFD) and insulin receptor antagonist (S961). Clearance of p16Ink4a-positive cells did not affect the overall β-cell mass. β-cell proliferative capacity negatively correlated with cellular senescence load and clearance of p16Ink4a positive cells in 1-year-old HFD mice improved β-cell function and increased proliferative capacity in a subset of animals. Single-cell sequencing revealed that the targeted p16^Ink4a subpopulation of β-cells is non-proliferative and non-SASP producing whereas additional senescent subpopulations remained contributing to continued local SASP secretion.

"In conclusion, deletion of p16^Ink4a cells did not negatively impact beta-cell mass and blood glucose under basal and HFD conditions and proliferation was restored in a subset of HFD mice opening further therapeutic targets in the treatment of diabetes."