Age-Related Cognitive Decline Tied to Immune-System Molecule
A blood-borne molecule that increases in abundance as we age blocks regeneration of brain cells and promotes cognitive decline, suggests a new study.
University of California San Francisco
Give to UCSFA blood-borne molecule that increases in abundance as we age blocks regeneration of brain cells and promotes cognitive decline, suggests a new study.
Edward F. Chang, a UCSF physician-scientist whose seminal research has provided deep insights into how speech and language are processed in the human brain, has been named the 2015 Blavatnik Laureate in the Life Sciences.
Think the nest of cables under your desk is bad? Try keeping the trillions of connections crisscrossing your brain organized and free of tangles. A new UCSF study reveals this seemingly intractable job may be simpler than it appears.
Adult neural stem cells, which are commonly thought of as having the ability to develop into many type of brain cells, are in reality pre-programmed before birth to make very specific types of neurons.
Preschoolers with oppositional defiant behavior are more likely to have shorter telomeres, a hallmark of cellular aging, which in adults is associated with increased risk for chronic diseases and conditions like diabetes, obesity and cancer.
Women under chronic stress have significantly lower levels of klotho, a hormone that regulates aging and enhances cognition, researchers at UC San Francisco have found.
A team of scientists has shown that using just three molecular markers will help clinicians classify gliomas – the most common type of malignant brain tumors – more accurately than current methods.
Patients with epilepsy have significantly weaker connections throughout their brain, particularly in regions important for attention and cognition, compared to individuals without epilepsy.
UCSF scientists have discovered a possible mechanism for how deep-brain stimulation, a widely used treatment for movement disorders, exerts its therapeutic effects.
A research team at UC San Francisco has discovered an RNA molecule called Pnky that can be manipulated to increase the production of neurons from neural stem cells.
A new study finds that the majority of those who seek treatment for Tourette syndrome will also be diagnosed with a second psychiatric disorder during their lifetimes, and often these disorders emerge earlier than in the general population
UCSF researchers have provided new evidence that abnormal rhythmic activity in particular brain cells contributes to problems with learning, attention, and decision-making in individuals with schizophrenia.
Using techniques developed only over the past few years, UCSF researchers have completed experiments that overturn the scientific consensus on how the brain’s “hunger circuit” governs eating.
A miniscule cluster of estrogen-producing nerve cells in the mouse brain exerts highly specific effects on aggressive behavior in both males and females.
Researchers at UCSF have identified the chemical that signals to roundworms when they are hungry, the same chemical implicated in several neurodegenerative disorders. The finding may provide useful clues for understanding and treating these disorders.