UAB involved in critical NIH study that identifies genomic features of cervical cancer
UAB Medicine Jan 30, 2017
Investigators with The Cancer Genome Atlas Research Network, including a researcher from the University of Alabama at Birmingham, have identified novel genomic and molecular characteristics of cervical cancer that will aid in the subclassification of the disease and may help target therapies that are most appropriate for each individual patient.
The new study, published online in the journal Nature, conducted a comprehensive analysis of the genomes of 178 primary cervical cancers, and found that more than 70 percent of the tumors had genomic alterations in either one or both of two important cell signaling pathways. The researchers also found that a subset of tumors did not show evidence of human papillomavirus infection.
The TCGA study was jointly managed by the National Cancer Institute and the National Human Genomic Research Institute, and was performed by a consortium of more than 150 researchers at dozens of institutions across the nation and the world.
Akinyemi Ojesina, MD, PhD, assistant professor in the UAB Department of Epidemiology in the School of Public Health, has been involved with the study for the past three years and is a corresponding author on this paper. ÂEssentially, we performed comprehensive genomic analyses of cervical cancers, and identified genetic mutations that are novel drivers of the disease. This is extremely exciting because we can now develop targeted therapies.Â
Cervical cancer accounts for more than 500,000 new cases of cancer and more than 250,000 deaths each year worldwide.
ÂThe vast majority of cases of cervical cancer are caused by persistent infection with oncogenic types of HPV, and effective preventive vaccines against the most oncogenic forms of HPV have been available for a number of years, with vaccination having the long–term potential to reduce the number of cases of cervical cancer, said NCI Acting Director Douglas Lowy, MD. ÂHowever, most women who will develop cervical cancer in the next couple of decades are already beyond the recommended age for vaccination and will not be protected by the vaccine. Therefore, cervical cancer is still a disease in need of effective therapies, and this latest TCGA analysis could help advance efforts to find drugs that target important elements of cervical cancer genomes in addition to the HPV genes.Â
According to Ojesina, an associate scientist at the UAB Comprehensive Cancer Center and adjunct faculty investigator at the HudsonAlpha Institute for Biotechnology, many aspects of this study are intriguing. Researchers found that a unique set of eight cervical cancers showed molecular similarities to endometrial cancers. Most of these endometrial–like cancers were HPV–negative, and they had strikingly high frequencies of mutations in the PTEN, ARID1A and KRAS genes.
It has been thought that virtually all cases of cervical cancer are caused by HPV, and just two HPV types are responsible for about 70 percent of all cases. ÂBasically, this study confirms some of our previous work, also published in Nature in 2014, that HPV infection may not be involved in all cases of cervical cancer, said Ojesina, who is a major contributor to the TCGA Cervical Cancer Analysis Working Group.
Go to Original
The new study, published online in the journal Nature, conducted a comprehensive analysis of the genomes of 178 primary cervical cancers, and found that more than 70 percent of the tumors had genomic alterations in either one or both of two important cell signaling pathways. The researchers also found that a subset of tumors did not show evidence of human papillomavirus infection.
The TCGA study was jointly managed by the National Cancer Institute and the National Human Genomic Research Institute, and was performed by a consortium of more than 150 researchers at dozens of institutions across the nation and the world.
Akinyemi Ojesina, MD, PhD, assistant professor in the UAB Department of Epidemiology in the School of Public Health, has been involved with the study for the past three years and is a corresponding author on this paper. ÂEssentially, we performed comprehensive genomic analyses of cervical cancers, and identified genetic mutations that are novel drivers of the disease. This is extremely exciting because we can now develop targeted therapies.Â
Cervical cancer accounts for more than 500,000 new cases of cancer and more than 250,000 deaths each year worldwide.
ÂThe vast majority of cases of cervical cancer are caused by persistent infection with oncogenic types of HPV, and effective preventive vaccines against the most oncogenic forms of HPV have been available for a number of years, with vaccination having the long–term potential to reduce the number of cases of cervical cancer, said NCI Acting Director Douglas Lowy, MD. ÂHowever, most women who will develop cervical cancer in the next couple of decades are already beyond the recommended age for vaccination and will not be protected by the vaccine. Therefore, cervical cancer is still a disease in need of effective therapies, and this latest TCGA analysis could help advance efforts to find drugs that target important elements of cervical cancer genomes in addition to the HPV genes.Â
According to Ojesina, an associate scientist at the UAB Comprehensive Cancer Center and adjunct faculty investigator at the HudsonAlpha Institute for Biotechnology, many aspects of this study are intriguing. Researchers found that a unique set of eight cervical cancers showed molecular similarities to endometrial cancers. Most of these endometrial–like cancers were HPV–negative, and they had strikingly high frequencies of mutations in the PTEN, ARID1A and KRAS genes.
It has been thought that virtually all cases of cervical cancer are caused by HPV, and just two HPV types are responsible for about 70 percent of all cases. ÂBasically, this study confirms some of our previous work, also published in Nature in 2014, that HPV infection may not be involved in all cases of cervical cancer, said Ojesina, who is a major contributor to the TCGA Cervical Cancer Analysis Working Group.
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