Summary: Researchers are investigating the remarkable longevity of cells, which can endure for over 90 times, in a new study project. The genetic and molecular underlies that enable cells to survive for so long, according to this investigation.
The results could help us understand how old we are and provide treatments for neurological conditions like Parkinson’s and ALS. The study might go beyond just cells, providing insight into how long other types of cells can live.
Important Facts:
- Neurons can survive for more than 90 times, but the causes remain vague.
- This study aims to find the biological explanations for the lifetime of neurons.
- The research may provide new therapies for degenerative disorders that are age-related.
Origin: Picower Institute at MIT
Neurons in the brain have an extraordinary 90-year duration, which is remarkable for tissue because of how well they can maintain that quality of life.
With a new Glenn Foundation Discovery Award, Myriam Heiman, John and Dorothy Wilson Associate Professor of Neuroscience at MIT’s Picower Institute, and her lab’s research project to develop on previous studies that sought to understand the molecular and genetic basis of neurological survival.
Heiman has much studied the methods that make different cells in the brain specifically vulnerable amid neurological diseases such as Parkinson’s disease, Huntington’s Disorder, Und, and frontotemporal memory.
She claimed that her research into aging and longevity in neurons was inspired by her understanding the molecular signs of aging in like diseases more deeply.
The Glenn Foundation for Medical Research ( GFMR ) president, Mark R. Collins, stated that the award seeks to support investigators whose research has been conducted on topics that have not previously been relevant to aging research but whose research has the potential to lead to novel advances that have significant potential to advance human health and well-being.
With funding from the award, Heiman’s lab will be able to conduct thorough and objective analysis of the mammalian nervous system, discovering genes that may contribute to nerve cell aging and restore aging-associated decline. The award, which is worth$ 55,000 over three years, will be funded by , GFMR, and the American Federation for Aging Research ( AFAR ).
The systems that account for the extraordinary longevity of brain cells in our brains are still undetermined, according to Heiman, a professor in MIT’s Brain and Cognitive Sciences department.
However, if they were understood, they could be used to restore muscle cell function in the framework of aging and neurodegeneration, and they could also be used to stimulate different body cell types to increase the lifespan of the entire organism.
Heiman expressed her gratitude for the award, which will help her and her crew continue to work on this research initiative.
According to Heiman,” AFAR and GFMR are the leading sponsors of new and cutting-edge medical study in the aged industry.”
Their work in this field is of great importance because establishing age-related mechanisms at the fundamental academic degree will enable uncountable improvements in the treatment of aging-related illnesses. Working at a crucial first stage has now been made possible thanks to receiving this offer.
About this information from science and studies on longevity
Author: Myriam Heiman
Source: Picower Institute at MIT
Contact: Myriam Heiman – Picower Institute at MIT
Image: The image is credited to Neuroscience News
