Obesity linked to neurodegeneration through insulin resistance, find researchers - Times of India
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CALIFORNIA: Researchers at the Fred Hutchinson Cancer Research Centre in the United States, led by Mroj Alassaf, have established a relationship between obesity and neurodegenerative illnesses like as Alzheimer's disease.
The study, which used the common fruit fly, found that a high-sugar diet -- a hallmark of obesity -- induces insulin resistance in the brain, which lowers the ability to eliminate neuronal debris, raising the risk of neurodegeneration.
The study, which was published in the open access journal PLOS Biology, will have an impact on medications meant to minimise the chance of acquiring neurodegenerative illnesses.
Although obesity is known to be a risk factor for neurodegenerative disorders like Alzheimer's disease and Parkinson's disease, exactly how one leads to the other remains a mystery. The new study focused on answering this question by taking advantage of the similarity between humans and fruit flies. Having previously shown that a high-sugar diet leads to insulin resistance in the peripheral organs of flies, the researchers now turned to their brains. Specifically, they examined glial cells because microglial dysfunction is known to lead to neural degeneration.
Levels of the protein PI3k indicate how much a cell is able to respond to insulin. The researchers found that the high sugar diet led to reduced PI3k levels in glial cells, indicating insulin resistance. They also looked at the fly equivalent of microglia, called ensheathing glia, whose primary function is to remove neural debris, such as degenerating axons. They observed that these glia had low levels of the protein Draper, indicating impaired function. Further tests revealed that artificial reduction of PI3k levels led to both insulin resistance and low Draper levels in ensheathing glia. Finally, they showed that after actually damaging olfactory neurons, the ensheathing glia could not remove the degenerating axons in the flies on the high sugar diet because their Draper levels did not increase.
The authors add, "Using fruit flies, the authors establish that high-sugar diets trigger insulin resistance in glia, disrupting their ability to clear neuronal debris. This study provides insight into how obesity-inducing diets potentially contribute to the increased risk of neurodegenerative disorders."
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The study, which used the common fruit fly, found that a high-sugar diet -- a hallmark of obesity -- induces insulin resistance in the brain, which lowers the ability to eliminate neuronal debris, raising the risk of neurodegeneration.
The study, which was published in the open access journal PLOS Biology, will have an impact on medications meant to minimise the chance of acquiring neurodegenerative illnesses.
Although obesity is known to be a risk factor for neurodegenerative disorders like Alzheimer's disease and Parkinson's disease, exactly how one leads to the other remains a mystery. The new study focused on answering this question by taking advantage of the similarity between humans and fruit flies. Having previously shown that a high-sugar diet leads to insulin resistance in the peripheral organs of flies, the researchers now turned to their brains. Specifically, they examined glial cells because microglial dysfunction is known to lead to neural degeneration.
Levels of the protein PI3k indicate how much a cell is able to respond to insulin. The researchers found that the high sugar diet led to reduced PI3k levels in glial cells, indicating insulin resistance. They also looked at the fly equivalent of microglia, called ensheathing glia, whose primary function is to remove neural debris, such as degenerating axons. They observed that these glia had low levels of the protein Draper, indicating impaired function. Further tests revealed that artificial reduction of PI3k levels led to both insulin resistance and low Draper levels in ensheathing glia. Finally, they showed that after actually damaging olfactory neurons, the ensheathing glia could not remove the degenerating axons in the flies on the high sugar diet because their Draper levels did not increase.
The authors add, "Using fruit flies, the authors establish that high-sugar diets trigger insulin resistance in glia, disrupting their ability to clear neuronal debris. This study provides insight into how obesity-inducing diets potentially contribute to the increased risk of neurodegenerative disorders."
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