Wrestling with SUMO to combat atherosclerosis

One hallmark of atherosclerosis is the accumulation of excessive cholesterol in the blood vessels. EPFL scientists have characterized the atherosclerotic potential of a non-SUMOylatable LRH-1 mouse model in collaboration with researchers from Groningen, Heidelberg and New York. According to their study, the nuclear receptor LRH-1 could be a novel pharmacological target to promote excretion of cholesterol from the body via the reverse cholesterol transport.
Earlier work led by the group of Kristina Schoonjans showed that LRH-1 regulates various metabolic processes in the liver, pancreas, ovary and intestine. This is the first study to show that the posttranscriptional modification of LRH-1 by SUMOylation also exerts important physiological effects.

In the present study, the EPFL team demonstrates that LRH-1 is a nuclear receptor whose activity is repressed by SUMO modification of 1 single lysine residue. Moreover, they show that atherosclerosis-prone mice carrying a mutation that abolishes the SUMOylation of the receptor are significantly protected from atherosclerotic lesion formation. The mechanism underlying this atheroprotection involves a local increase of reverse cholesterol transport in the liver and is secondary to a compromised interaction of the non-SUMOylatable form of LRH-1 with the co-repressor Prox-1.

The work, published in the current issue of the scientific journal Cell Metabolism (August 28, 2014), exposes a mechanistic basis of how SUMOylation of a nuclear receptor affects its selective interaction with cofactors and determines its transcriptional activity in a highly context-specific manner. In addition, the physiological consequences of LRH-1 SUMOylation on the development of atherosclerosis highlight the translational value of the study.

Contacts : Kristina Schoonjans, corresponding author, EPFL, +41 21 693 18 91, [email protected] - Sokrates Stein, first author, EPFL, +41 21 693 18 65, [email protected]