Diet Rich in Methionine—Found Most Abundantly in Eggs, Fish and Meats—May Promote Memory Loss
Boston (March 31, 2015)—Memory loss has recently been associated with excessive silencing of genes through a process called methylation. Researchers at the University of Louisville investigated the effects of a diet rich in methionine—an amino acid most abundant in eggs, fish and meats—on memory loss. They found that the diet promoted memory loss through increased methylation of netrin, a protein important for maintaining the brain.
Anuradha Kalani will present “Epigenetic Silencing of Netrin Is Associated with Memory Loss by High Methionine, Low Folate and Vitamin B6/B12 Containing Diet” as part of a featured topic session “Diet, Nutrition and Adipose Tissue: You Are What You Eat” on Tuesday, March 31 (Room 206A of the Boston Convention and Exhibition 8 AM EDT) and at a poster session the same day at the Experimental Biology Meeting (Boston Convention and Exhibition from 12:45 to 3 PM EDT).
Kalani et al. fed mice a diet containing high amounts of methionine and low amounts of folate and vitamins B6 and B12. They measured the mice’s memory capability along with netrin and methylation levels in the mice’s brains. They found that the longer the mice were on the diet, the less netrin was expressed and the more the netrin gene was methylated. According to the researchers, the data confirm that a high-methionine diet induces learning and memory defects and that memory loss appears associated with reduced levels of netrin because of its over-methylation.
From the researchers: “Studies have shown that a healthy diet can boost memory. On the contrary, our study’s findings interestingly suggest that a diet rich in methionine—for example, red meat and some fish—can actually increase the risk for memory loss. Mice were fed an excess methionine diet and examined for memory function weekly. Our findings suggest that an excess methionine diet caused memory impairment and hyper-methylation that affected netrin expression, which is a protein important in maintaining synaptic plasticity and involved in axonal guidance and neurogenesis. We further introduced netrin intracerebrally into the mice to confirm the association of netrin with memory loss. Mice were examined thrice a week post-netrin injection. The data suggest that netrin introduction helped in ~50% memory regain in mice on the diet. We are looking further into epigenetic factors like microRNA and other downstream genes that could be associated with memory loss.”
High methylation is known to silence genes of many proteins, which can be associated with changes in cognitive function. Loss of memory due to epigenetic modifications, called memory-epigenetics, was studied. We hypothesized that high methionine (met) diet leads to memory impairment by increasing global DNA methylation and therefore, silencing the netrin gene, which encodes the glycoprotein involved in neurogenesis, axonal guidance and maintenance of the synaptic plasticity. Wild type (C57BL/6J) mice were fed a diet containing excess met (1.2%), low-folate (0.08 mg/kg), vitamin B6 (0.01 mg/kg), and B12 (10.4 mg/kg) for six weeks. Mice were examined weekly for memory function. Our results using a passive avoidance test confirmed a loss in fear-motivated long-term memory starting from the fourth week of diet. The loss of memory was associated with an increase in global DNA methylation in brain samples of mice fed with diet. We found a time-dependent decrease in netrin protein expression and an increase in methylation of netrin gene promoter, defined by restriction digestion and PCR analysis, in mice fed with diet. The increase in methylation of netrin gene promoter was validated by high-resolution melting analysis. In addition, it was found that the level of netrin receptor DCC (deleted in colon cancer) was decreased in mice on diet. Taken together, these results confirm that diet containing high met, low folate and vitamin B6/B12 can induce defects in learning and memory. Furthermore, the data indicate that decrease in netrin level due to hypermethylation of its gene promoter can be associated with memory loss.
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Physiology is the study of how molecules, cells, tissues and organs function in health and disease. Established in 1887, the American Physiological Society (APS) was the first U.S. society in the biomedical sciences field. The Society represents more than 11,000 members and publishes 14 peer-reviewed journals with a worldwide readership.
Physiology is the study of how molecules, cells, tissues and organs function in health and disease. Established in 1887, the American Physiological Society (APS) was the first U.S. society in the biomedical sciences field. The Society represents more than 10,500 members and publishes 15 peer-reviewed journals with a worldwide readership.