Treating a mouse model of multiple sclerosis with the pregnancy hormone estriol reversed the breakdown of myelin in the brain's cortex, a key region affected in multiple sclerosis, according to a new UCLA Health study.
In multiple sclerosis, inflammation spurs the immune system to strip away the protective myelin coating around nerve fibers in the brain's cortex, hampering electrical signals sent and received by the brain. Atrophy of the cortex in MS patients is associated with permanent worsening of disability, such as cognitive decline, visual impairment, weakness and sensory loss.
No currently available treatments for MS can repair damage to myelin. Instead, these treatments target inflammation to reduce symptom flare-ups and new nerve tissue scarring. Previous UCLA-led research found that estriol, a type of estrogen hormone produced in pregnancy, reduced brain atrophy and improved cognitive function in MS patients.
In the new study, researchers treated a mouse model of MS with estriol and found that it prevented brain atrophy and induced remyelination in the cortex, indicating that the treatment can repair damage caused by MS, rather than just slow the destruction of myelin.
This is the first study to identify a treatment that could repair myelin in the cortex, undoing some of the damage caused by MS.
Allan MacKenzie-Graham, an associate professor of neurology, is the study's corresponding author. Other authors include Cassandra Meyer, Andrew Smith, Aitana A. Padilla-Requerey, Vista Farkhondeh, Noriko Itoh, Yuichiro Itoh, Josephine Gao, Patrick Herbig, Quynhanh Nguyen, Katelyn Ngo, Mandavi Oberoi, Prabha Siddarth and Rhonda R. Voskuhl, all of UCLA.
University of California – Los Angeles Health Sciences
Meyer, C. E., et al. (2023). Neuroprotection in cerebral cortex induced by the pregnancy hormone estriol. Laboratory Investigation. doi.org/10.1016/j.labinv.2023.100189.
Posted in: Medical Science News | Medical Research News | Healthcare News
Tags: Brain, Cognitive Function, Cortex, Disability, Estrogen, Hormone, Immune System, Inflammation, Laboratory, Ligand, Mouse Model, Multiple Sclerosis, Myelin, Nerve, Neurology, Pregnancy, Remyelination, Research, Sclerosis, Visual Impairment
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