Chantell Evans Tracks Mitochondrial Cleanup in Neurons
The Duke University cell biologist uses live-cell microscopy to reveal how brain cells rid themselves of damaged mitochondria and what goes wrong in neurodegenerative disease.
Chantell Evans Tracks Mitochondrial Cleanup in Neurons
Chantell Evans Tracks Mitochondrial Cleanup in Neurons
The Duke University cell biologist uses live-cell microscopy to reveal how brain cells rid themselves of damaged mitochondria and what goes wrong in neurodegenerative disease.
The Duke University cell biologist uses live-cell microscopy to reveal how brain cells rid themselves of damaged mitochondria and what goes wrong in neurodegenerative disease.
Aditi Subramaniam, PhD | Aug 15, 2023 | 4 min read
Researchers find that UBQLN2 gene dysfunction causes a virus-like protein to accumulate in cells, which changes gene expression and may contribute to disease progression in amyotrophic lateral sclerosis (ALS).
The Scientist’s Creative Services Team | 2 min read
Scientists discuss their latest findings on immune cell dynamics, neurodegenerative disease risk factors, and rare cell types obtained from bulk and single cell RNA sequencing experiments.
The group’s 7-2 ruling in favor of the therapeutic represents a shift from previous deliberations, in which data on its effectiveness was deemed insufficient.
The long noncoding RNA MINCR, implicated in ALS and Alzheimer’s disease as well as several types of cancer, appears to function differently when present at high versus low levels.
After six months, patients with fast-progressing amyotrophic lateral sclerosis who had received the experimental treatment had less loss of function than those who received a placebo.
Researchers slowed disease progression in the mice by injecting two different viral vectors, each containing one part of the DNA encoding the Cas9 protein, to edit the causative gene.
Flexible proteins appear to protect molecules from becoming denatured in extreme conditions such as heat and from clumping up, as happens in some neurodegenerative diseases.
Boosting the levels of Akkermansia muciniphila in mouse guts slowed the progression of an ALS-like disease, while two other microbiome members were associated with more severe symptoms.