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An Effort to Equip Macrophages with Bacterial Enzymes to Prevent Atherosclerosis


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Posted 27 December 2016 - 02:08 PM


This research is an example of the LysoSENS methodologies pioneered by the SENS Research Foundation today, and in past years by the Methuselah Foundation. The approach involves mining the bacterial world for enzymes capable of breaking down resistant metabolic waste in human cells, so as to remove the contribution of that waste to degenerative aging. In this case the target is the lipids that build up in blood vessel walls and overwhelm macrophages that arrive to deal with the problem. The macrophages become foam cells and die, which only produces more damage and attracts more macrophages to try to clean it up. Over time this turns a small area of damage and inflammation into a growing plaque of fatty waste and dead cells, narrowing and weakening the blood vessel. If macrophages could be made resistant to this fate, it would remove a major contributing cause of atherosclerosis, a condition that is ultimately fatal when plaques rupture and block or break major blood vessels as a result.

Atherosclerotic cardiovascular disease (CVD) is the leading cause of death in the United States. CVD originates from aberrations in normal lipid metabolism (some genetic, some lifestyle choices) that result in elevated plasma lipoproteins (principally LDLs) and/or low levels of high-density lipoproteins (HDLs). For many people, CVD is an age dependent, progressive disease that is largely undetected or ignored until an event (i.e. myocardial infarction or stroke) occurs in the later stages of disease. Therefore, current therapies focus on preventing a second event (or a primary event in high risk individuals) by reducing the circulating levels of LDLs and/or increasing HDLs.

However, at a biochemical level the inability of macrophages to degrade the cholestane ring of cholesterol is a fundamental component of CVD. If macrophages had the ability to degrade cholesterol, they would not become engorged with cholesterol/cholesterol esters and elicit the maladaptive immune response that leads to the onset and progression of atherosclerosis. Recently, studies of Mycobacteria survival in human macrophages revealed a surprising observation. Mycobacteria feed on cholesterol while contained in the phagosomes of macrophages. Importantly, two enzymes that catalyze cholestane ring opening have been identified. We plan to test the hypothesis that genes encoding enzymes identified in bacteria can be humanized and used to transformation human monocyte derived macrophages, enabling the degradation of phagosome-cholesterol. The main objectives are to: 1) humanize bacterial genes encoding key ring opening enzymes, 2) develop an innovative expressions systems to regulate the expression of these genes in response to changes in cellular levels of cholesterol, and 3) characterize the production and fate of compounds generated following cholestane ring opening. If this paradigm-challenging hypothesis is true, the proposed studies should lead to the development of an entirely new approach for the medical management of CVD.

Link: https://projectrepor...cfm?aid=8181189


View the full article at FightAging




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