Category Archives: Neuroscience

UVA Scientists Find the Cause of Alzheimer’s and Parkinson’s

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During an investigation into schizophrenia, Michael McConnell, a neuroscientist at UVA, found variance in the genes of neurons and how it affects their life. CNV neurons, neurons with a significant difference in gene make up, are the most vulnerable to dying. People who have CNV neurons may develop neurodegenerative diseases such as Alzheimer’s.

McConnell has only looked at neurons in the frontal cortex, and neurons can only be examined after death. More work needs to be done, but this is a good lead to find the cause of these deadly diseases.

This Protein Contributes to Aging

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Researchers in Switzerland found a protein that alters the function of the mitochondria, the powerhouse of the cell. When the mitochondria no longer works or is depleted, the cell can no longer respirate and burn the nutrients coming into the cell. This slows the metabolism of the body. This protein is called pumilio RNA (PUM2). Aging causes the production of PUM2 to increase. High levels of PUM2 induce lower levels of another protein called mitochondrial fission factor (MFF). In turn, aging contributes to more unhealthy mitochondria in the body.

PUM2 can production can be reduced using gene-altering techniques. Besides reducing the signs of aging and increasing lifespan, lowering PUM2 will prevent the development of neuromuscular degenerative diseases.

 

Source: https://www.medicalnewstoday.com/articles/324163.php

Risky Decision-Making is Linked to Social Media Use

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Research has shown teenagers are susceptible to addiction and poor decision-making because their frontal lobe has not fully matured yet. However, research into behaviors of people who use social media excessively could add a new factor to this poor decision-making. Researchers at Michigan State University had 71 participants measure their dependence to Facebook using a survey.

They then went on to do the Iowa Gambling Task. The Iowa Gambling Task is a commonly used test that psychologists use to analyze behaviors of subjects. In this task, the participant picks from different piles of cards with different values to earn the most money possible (fake money). Each card was either negative bringing their current amount of money down or positive bringing their amount of money up.

The researchers found that the users that were less dependent on Facebook did better on the task than those who used it more. The Facebook users usually chose the bad piles in the time given.

 

Source: https://www.news-medical.net/news/20190110/Research-shows-connection-between-social-media-use-and-impaired-risky-decision-making.aspx

A Treatment to MS May Have Been Found

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Diagram comparing healthy myelin sheaths to MS affected myelin sheaths.

Multiple sclerosis (MS) is a degenerating disease where the immune system strips away the fat tissue that coats the neurons of the brain. The neurons are the brain cells and nervous cells in our bodies that are in charge of passing messages across our bodies (i.e. sensory, coordination, moving, etc.). This fat is made of myelin. As the myelin insulation is stripped, the axons, the parts of the neuron that passes electrical signals to other neurons, is not able to conduct as well. This causes the messages to pass slower, and the patient begins to develop symptoms. These symptoms include visions loss, impaired coordination, paralysis, and a lot more. This demyelination (degeneration) can occur in all parts of the body. The loss of sensation and muscle spasms depends on the area the disease occurs.

Diagram of an oligodendrocyte remyelinating the axons of a neuron.

Oligodendrocytes are the cells that replenish myelin on the axons (remyelination). This is our bodies’ natural defense against demyelination. Many experiments and labs were done on cats and monkeys to observe the activity of these oligo cells. Studies found that the oligo cells move up and down the spinal cord in a cat to resupply neurons with myelin. In a cat with MS, the oligo cells moved too slow to keep up with the loss of myelin surrounding the axons.

Scientists now believe that MS can be stopped and even reversed using therapeutics and drugs that help the body produce more oligo progenitors, the cells that produce oligodendrocytes.

 

 

Source: https://news.wisc.edu/discovery-opens-new-opportunities-to-slow-or-reverse-ms/