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Discovery of a protein capable of regulating DNA repair during sperm formation

Date:
April 24, 2015
Source:
Universitat Autònoma de Barcelona
Summary:
Researchers have discovered that the signalling route - a cascade activation of several molecules - triggered by the ATM protein regulates DNA repair during the production of spermatocytes by meiosis, the cell division process which yields spermatozoa.
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This is spermatocyte through a microscope.
Credit: UAB

Researchers from the Universitat Autònoma de Barcelona (UAB) Department of Cellular Biology, Physiology and Immunology, and the UAB Institute of Biotechnology and Biomedicine, led by Dr Ignasi Roig, discovered that the signalling route -- a cascade activation of several molecules -- triggered by the ATM protein regulates DNA repair during the production of spermatocytes by meiosis, the cell division process which yields spermatozoa.

In experiments conducted with genetically modified mice, researchers observed that when the ATM protein is eliminated, or its activation is reduced, spermatocytes (precursors of spermatozoa) which present breakage in the genome do not block their cellular cycle and therefore do not have the capacity to progress more than normal, given that they do not correctly repair DNA breakage.

Therefore, the research shows that these mutations affecting the signalling route which depends on the ATM protein, as well as the drugs inhibiting the function of this signalling route such as some anti-tumour drugs, could produce infertility problems in humans.

The discovery will allow to delve deeper into the mechanisms regulating the formation of gametes (eggs and sperm). It is known that the ATM protein is one of the main proteins involved in DNA repair in somatic cells (any of the cells forming part of our organism, except for germline cells). This study, published recently in PLOS Genetics, shows that in the particular case of meiotic cells such as spermatocytes, the signalling route of the ATM protein also participates in the control system of the cell cycle progression in response to DNA damage, something which until now was unknown.

Gene Repair

Sexual reproduction requires the fusion of two gametes (egg and sperm) which combine their genetic material to produce an embryo. Therefore, the number of chromosomes of these cells must be reduced by half through a specialised cell division called meiosis. At the beginning of meiosis, germline cells intentionally generate multiple double chain breakages along the whole DNA genome. The reparation of these DNA breakages, through a process called homologous recombination, allows homologous chromosomes to pair up and guarantee a balanced segregation during the meiotic division and thereby avoid the formation of gametes with an incorrect number of chromosomes which could result in chromosome disorders due to the presence of aneuploids (such as Down's Syndrome and other similar disorders), or in spontaneous abortions.

Since these repair errors in DNA breakage can generate instability in the genome, the process of repairing the breakages is a highly regulated one. It is therefore essential that there be control mechanisms capable of detecting errors in this process and halting the cell cycle with the aim of allowing the cell to repair the breakages or, if not possible, to eliminate the damaged cell.

The project's leading researcher is Dr Ignasi Roig, lecturer of the Unit of Cytology and Histology at the Department of Cellular Biology, Physiology and Immunology (UAB), and researcher of the Genome Instability and Integrity group at the Institute of Biotechnology and Biomedicine (IBB) of the Universitat Autònoma de Barcelona. In addition to Dr Roig, Sarai Pacheco and Marina Marcet Ortega, also belonging to the same research group, participated in the study. Researchers from the Howard Hughes Medical Institute (New York) and the Memorial Sloan-Kettering Cancer Center (New York) also formed part of the team.


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Materials provided by Universitat Autònoma de Barcelona. Note: Content may be edited for style and length.


Journal Reference:

  1. Sarai Pacheco, Marina Marcet-Ortega, Julian Lange, Maria Jasin, Scott Keeney, Ignasi Roig. The ATM Signaling Cascade Promotes Recombination-Dependent Pachytene Arrest in Mouse Spermatocytes. PLOS Genetics, 2015; 11 (3): e1005017 DOI: 10.1371/journal.pgen.1005017

Cite This Page:

Universitat Autònoma de Barcelona. "Discovery of a protein capable of regulating DNA repair during sperm formation." ScienceDaily. ScienceDaily, 24 April 2015. <www.sciencedaily.com/releases/2015/04/150424085013.htm>.
Universitat Autònoma de Barcelona. (2015, April 24). Discovery of a protein capable of regulating DNA repair during sperm formation. ScienceDaily. Retrieved May 23, 2017 from www.sciencedaily.com/releases/2015/04/150424085013.htm
Universitat Autònoma de Barcelona. "Discovery of a protein capable of regulating DNA repair during sperm formation." ScienceDaily. www.sciencedaily.com/releases/2015/04/150424085013.htm (accessed May 23, 2017).

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