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First Genome-Wide Analysis Of Peripheral T-cell Lymphomas Identifies 13 Novel Alterations In This Aggressive Blood Cancer

Researchers at Mayo Clinic have completed the world’s first genome-wide sequencing analysis of T-cell , unlocking the genetic secrets of this poorly understood and highly aggressive cancer of the immune system.

, M.D., a Mayo Clinic pathologist and Clinical Investigator, and a team of researchers affiliated with Mayo’s Center for Individualized Medicine and Mayo Clinic Cancer Center, found 13 genomic that were seen in multiple peripheral T-cell lymphomas. Of particular interest, five of these relate to production and behavior of the p53 protein — often called the “guardian of the genome” because of the central role it plays in regulating cell life cycles and, therefore, suppressing cancers.

The study, entitled “Genome-wide Analysis Reveals Recurrent Structural Abnormalities of TP63 and other p53-related Genes in Peripheral T-cell Lymphomas,” appears early online in the journal Blood.

“Every time I diagnose a , I know that two out of three patients will succumb to that lymphoma,” says Dr. Feldman. “That’s a very unsatisfying feeling, and I hope that our research can help change those statistics.”

Peripheral T-cell lymphomas account for about 12 percent of non-Hodgkin’s lymphomas and carry remarkably high mortality rates. Fewer than 35 percent of patients live five years beyond diagnosis.

New diagnostic biomarkers (chemical or genetic clues in the body’s system) and treatments aimed at specific subgroups of peripheral T-cell lymphomas could lead to improved outcomes, says Dr. Feldman. Developing these, however, has been a challenge for several reasons. Lymphomas that look remarkably similar under a microscope may differ substantially in their overall prognoses and responses to treatment. Additionally, scientists and doctors have a relatively poor understanding of how peripheral T-cell lymphomas develop and proliferate.

“The most common type of T-cell lymphoma is called ‘not otherwise specified.’ It’s basically a wastebasket diagnosis because we don’t understand enough about the specific genetic abnormalities to be able to pinpoint subtypes of T-cell lymphomas that might trigger different treatments by the treating oncologist,” says Dr. Feldman.

Dr. Feldman’s study will be used to improve diagnostic tests and develop targeted treatments for peripheral T-cell lymphoma.

Among the key findings in the genomic abnormalities of peripheral T-cell lymphoma are:

  • Thirteen recurrent chromosomal rearrangements
  • Five of the 13 rearrangements involve p53-related genes, important for tumor-suppressor function
  • Novel rearrangements involving the TP53 homologue and TP63, which were associated with shortened survival times
  • Four interchromosomal abnormalities, including the previously known ALK and DUSP22-IRF4 translocations

Source

This study was supported by the Mayo Clinic Center for Individualized Medicine, a generous gift from Edith and Bernie Waterman, the Damon Runyon Foundation, an Experimental Pathology Development Award from the Mayo Clinic Department of Laboratory Medicine and Pathology, and gifts from other benefactors.
Authors of the study are George Vasmatzis, Ph.D., Sarah Johnson, Ryan Knudson, Rhett Ketterling, M.D., Esteban Braggio, Ph.D., Rafael Fonseca, M.D., David Viswanatha, M.D., Mark Law, N. Sertac Kip, M.D., Ph.D., Stefan Grebe, M.D., Lori Frederick, Bruce Eckloff, E. Aubrey Thompson, Ph.D., Dragana Milosevic, Julie Porcher, Yan Asmann, Ph.D., David Smith, Ph.D., Irina V Kovtun, Ph.D., Stephen Ansell, M.D., Ph.D., Ahmet Dogan, M.D., Ph.D., and Andrew Feldman, M.D., all of Mayo Clinic; Marshall Kadin, M.D., of Roger Williams Medical Center in Providence, R.I.; and Nazan Özsan, M.D., of Ege University in Izmir, Turkey.
Mayo Clinic