Jack W. Szostak, Ph.D. -- 2009 Nobel Recipient In Physiology Or Medicine

Main Category: Genetics
Also Included In: Cancer / Oncology;  Seniors / Aging
Article Date: 07 Oct 2009 - 3:00 PDT

email to a friend   printer friendly   opinions  

Jack W. Szostak, PhD, of the Massachusetts General Hospital (MGH) Department of Molecular Biology and Harvard Medical School has been named a recipient of the 2009 Nobel Prize in Physiology or Medicine for work predicting and then discovering telomerase, an enzyme that builds and maintains the protective caps at the tips of chromosomes. He shares this year's prestigious scientific award with Elizabeth H. Blackburn, PhD, of the University of California at San Francisco and Carol W. Greider, PhD, of the Johns Hopkins School of Medicine. In 2006 the three researchers shared the Lasker Award for Basic Science for the same work.

The existence of telomeres - molecular caps at the ends of chromosomes - was hypothesized in the 1930s from the observation that broken chromosome fragments fuse with each other, which normal chromosome ends never do. In 1980 Szostak, a yeast geneticist, began a collaboration with Blackburn; they showed that repeated nucleotide sequences she had identified in telomeres of the single-celled protozoan Tetrahymena also protected yeast DNA segments from degradation. Their studies led to the discovery that normal yeast chromosomes had a related but distinct structure and that Tetrahymena telomeres, when placed in yeast, lengthened by adding new sequences to the end of the DNA. That finding led to the prediction that a new enzyme was adding the protective sequences to the chromosome tips.

Blackburn and Greider went on to isolate telomerase, while Szostak identified a protein essential for maintaining telomeres in yeast, which turned out to be a key component of the enzyme. His work showed for the first time that the inability to add nucleotide repeats to chromosomes led to telomere shortening and eventually cell death. This was the first link between the molecular biology of telomeres and cellular senescence, the aging and death of cells. Although this work was not known to be relevant to human disease when carried out in the 1980s, subsequent studies of telomeres and telomerase in human cells have shown that the enzyme plays crucial roles in both cancer and aging.

Szostak's research group has followed a different path in recent years, investigating the molecular origins of life. The researchers are seeking to understand how complex chemicals were able to self-assemble and combine to form simple organisms that can reproduce and evolve. Currently they are working to develop simple cell-like structures incorporating both a nucleic acid - such as RNA or DNA - and an enclosing membrane; investigating ways to use the cell's protein-making machinery to create molecules of interest; and using the power of natural selection to create and study new RNA and protein sequences.

Source:
Sue McGreevey
Massachusetts General Hospital

• Additional
• References
• Citations