A-T Research

Skip Navigation Links
A-T Research »


ATM Protein Pathway Poster

A-T has always been an enigma. The physiological and molecular bases of the disorder have remained a mystery despite years of research examining various aspects of the disease. Until scientists understand the basic pathology of A-T, they cannot develop more effective ways to treat the patients. Therefore, the key to understanding A-T lies in figuring out how one defective gene causes so many different symptoms.

In June of 1995, Dr. Yosef Shiloh’s laboratory in Israel, working with many other research labs, isolated the gene that causes A-T. Since then, more and more scientists around the world have become interested in A-T and are conducting many new studies to help figure out this brutal disease.

Researchers now know that the A-T protein (ATM) sends an important signal to several different systems working in our cells by modifying other proteins, and consequently activating or inactivating them. In other words, the A-T protein tells other proteins in the cell that they should work harder, or perhaps stop working for a while, and so it modulates the life cycle of the cell. Researchers have also determined that the "trigger" that causes the A-T protein to start doing its job is when DNA has been damaged in a certain way by radiation, chemicals or cellular metabolites. Therefore, the A-T gene is part of a signaling system that alerts the systems controlling the life cycle of the cell by saying, "Attention! Damage has been caused, slow down your growth and wait until it’s repaired."

Scientists are beginning to understand how the ATM protein is activated or turned on following damage to a cell’s DNA. This knowledge has long been sought after. In addition, new proteins that interact with ATM continue to be identified. Researchers are using various techniques, collectively known as proteomics, to find the other proteins that interact with ATM. Identification of these proteins could have some big implications; for example, if the genes that make the other proteins were damaged, they could cause diseases that look very much like A-T. Importantly, research such as this may also lead to the identification of therapeutic targets for A-T.

This poster shows just a few of the many ATM protein interactions. Researchers all over the world have it hanging in their labs, inspiring those who see it to continue to think about this critical protein and where a therapeutic intervention for A-T may be hiding.

To order this free poster, please email your name and full mailing address to


What's New 




5300 W. Hillsboro Blvd., Suite 105
Coconut Creek, FL 33073 USA

800.5.HELP.A-T (800.543.5728)



Privacy Policy      Disclaimer
Copyright © 2015 A-T Children's Project