Looking at the role of the protein TDP-43 in ALS – Brandeis University

By Dr. Matthew Watson

A postdoctoral fellow will examine the protein's effects in human cells.

By Lawrence GoodmanJune 1, 2017

In ALS, also known as Lou Gehrigs disease, the bodys motor neurons degenerate and eventually die. As a result, muscles waste away, leading to an inability tospeak, move and, eventually, breathe. Patients typically die within five years of symptom onset.

One possible target for a drug treatment for ALS is the protein TDP-43. Mutations in the gene encoding TDP-43 cause some cases of inherited ALS and almost all sufferers of sporadic ALS to develop clumps of TDP-43 protein intheir neurons.

In recent years, postdoctoral fellow Mugdha Deshpande has been working withassociate professors of biology Avital Rodal and Suzanne Paradis to uncover how the TDP-43 protein damages neurons in model organisms such as the fruit fly Drosophila melanogaster. Now, they want to take the next step and see whether the same effects occur in human cells.

Deshpande is the Blazeman Postdoctoral Fellow for ALS Research, a position funded by the Rhode Island-based Blazeman Foundation for ALS. Based on her discoveries of how TDP-43 affects neurons in model organisms, she recently received a Brandeis Provost Research award to further her research on TDP-43 in human cells.

Deshpandes research focuses on motor neurons, whose nuclei are located in thespinal cord and whose nerve fibers, or axons, stretch throughout the body. In flies, defective TDP-43 has been shown to cause damage in the area where axonsconnect to muscles.

To test whether the same defects occur in humans, Deshpande will utilize a line of induced pluripotent stem cells isolated from an ALS patients skin cells and developed at the University of Massachusetts Medical School. In collaboration with the Human Neuron Core at Boston Children's Hospital, she will transform the stem cells into neurons.

Deshpande plans to study the defects that arise when human neurons develop whileharboring a genetic mutation in the TDP-43 gene. We need to gain an understanding of whats going on, she says. Without that, we are not going to get a therapy for ALS.

See more here:
Looking at the role of the protein TDP-43 in ALS - Brandeis University

Related Post


categoriaSpinal Cord Stem Cells commentoComments Off on Looking at the role of the protein TDP-43 in ALS – Brandeis University | dataJune 2nd, 2017

About...

This author published 5912 posts in this site.

Share

FacebookTwitterEmailWindows LiveTechnoratiDeliciousDiggStumbleponMyspaceLikedin

Comments are closed.





Personalized Gene Medicine | Mesenchymal Stem Cells | Stem Cell Treatment for Multiple Sclerosis | Stem Cell Treatments | Board Certified Stem Cell Doctors | Stem Cell Medicine | Personalized Stem Cells Therapy | Stem Cell Therapy TV | Individual Stem Cell Therapy | Stem Cell Therapy Updates | MD Supervised Stem Cell Therapy | IPS Stem Cell Org | IPS Stem Cell Net | Genetic Medicine | Gene Medicine | Longevity Medicine | Immortality Medicine | Nano Medicine | Gene Therapy MD | Individual Gene Therapy | Affordable Stem Cell Therapy | Affordable Stem Cells | Stem Cells Research | Stem Cell Breaking Research

Copyright :: 2024