Tagged: Genetic cancer risk

Oncotarget

Genetic Insights into Early Breast Cancer in Kazakhstan

October 5, 2023

In this new study, researchers aimed to determine the genetic predisposition to early breast cancer in women from Kazakhstan.

Genetic Insights into Early Breast Cancer in Kazakhstan

Breast cancer (BC) is one of the most common and deadly cancers worldwide, affecting millions of women every year. However, not all women share the same risk of developing breast cancer. There are many factors that influence this disease, including age, lifestyle, family history, and genetic makeup.

One of the most important aspects of breast cancer research is to identify the genetic factors that predispose some women to develop breast cancer at an early age, especially in different ethnic groups that may have unique genetic variants. This can help to improve the prevention, diagnosis and treatment of breast cancer, as well as to reduce the health disparities among different populations.

In a new study, researchers Gulnur Zhunussova, Nazgul Omarbayeva, Dilyara Kaidarova, Saltanat Abdikerim, Natalya Mit, Ilya Kisselev, Kanagat Yergali, Aigul Zhunussova, Tatyana Goncharova, Aliya Abdrakhmanova, and Leyla Djansugurova from the Institute of Genetics and Physiology, Kazakh Institute of Oncology and Radiology, Al-Farabi Kazakh National University, and Asfendiyarov Kazakh National Medical University aimed to determine the genetic predisposition to early breast cancer in women from Kazakhstan — a population that has not been well studied before. On October 4, 2023, their research paper was published in Oncotarget, entitled, “Determination of genetic predisposition to early breast cancer in women of Kazakh ethnicity.”

“Our study may reveal previously uncharacterized population-specific variants that may increase the risk of BC in the Kazakh population.”

The Study

The researchers enrolled 224 unrelated Kazakh women diagnosed with early onset breast cancer. All patients were treated at the Kazakh Institute of Oncology and Radiology from August 2017 to October 2019. Cohort characteristics reported that the median age of the women was 34.6 years old (ranging between 19 and 40 years), 15.6% were diagnosed under the age of 30 and 13.8% had breast cancer within their family history. The researchers utilized next-generation sequencing (NGS) to perform a comprehensive analysis of germline mutations and gene expression profiles using the MiSeq platform. They used a targeted panel of 94 cancer-associated genes, including a vast number of genes implicated in hereditary cancer syndromes and overall breast cancer predisposition.

“To our knowledge, this is the first study using NGS technology to study the genetic predisposition to early-onset BC women from Kazakhstan and assess their impact on the patients’ clinical outcomes.”

The NGS-based multigene panel testing allowed the researchers to identify recurrent, possible founder and novel PVs in Kazakh women with early-onset BC that were undetected in earlier studies. Among 57 patients (25.4%), 38 unique pathogenic variants (PVs) were identified in 13 different cancer-predisposing genes. Notably, 12 of the 38 PVs were recurrent, including specific variants in BRCA1 and BRCA2 genes, which may represent founder mutations in this population. BRCA1 carriers had a significantly higher likelihood of developing triple-negative breast cancer and having a family history of breast cancer compared to non-carriers. Six of the 38 variants were novel.

“We demonstrated the remarkable efficacy of an NGS-based panel to identify rare germline variants in early onset BC patients. These findings could contribute to the development of population-specific multigene panels for more rapid and cost-effective testing.”

Conclusions

The study provides valuable insights into the genetic predisposition of early breast cancer in women of Kazakh ethnicity. It also highlights the value of next generation sequencing technology and the importance of studying different ethnic groups to understand the diversity and complexity of breast cancer genetics. The authors suggest that broadening the scope of genetic testing for hereditary breast cancer from only BRCA genes to testing multiple genes at once could lead to better results. However, further studies are needed to validate the clinical utility of the panels used in this study. Nonetheless, these findings may aid in developing personalized risk assessment and management strategies for Kazakh women with early-onset breast cancer, as well as to inform future clinical trials and treatments.

“With this in mind, we will focus in the future on segregation analyses of family members and functional analyses to evaluate the inheritance pattern and pathogenicity of the identified recurrent and novel BC variants. Retrospective analyses of their possible association with progression-free, metastasis-free, and overall survival are also an exciting direction for future research. No less interesting would be the study of these variants regarding the chemosensitivity and efficacy of specific targeted therapies for their carriers.”

Click here to read the full research paper in Oncotarget.

Oncotarget is an open-access, peer-reviewed journal that has published primarily oncology-focused research papers since 2010. These papers are available to readers (at no cost and free of subscription barriers) in a continuous publishing format at Oncotarget.com. Oncotarget is indexed/archived on MEDLINE / PMC / PubMed.

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Oncotarget

New Study Reveals Genetic Risk Factors for Cancer in Saudi Arabia

June 16, 2023

In a new study, researchers found that 38.4% of a cohort in Saudi Arabia carried pathogenic variants linked to hereditary cancer risk.

New Study Reveals Genetic Risk Factors for Cancer in Saudi Arabia

Familial cancer is a fearsome reality for millions of people worldwide. While some cases of familial cancer syndrome (FCS) may be influenced by shared environmental or lifestyle factors within a family, others are solely due to genetic mutations passed down through generations. This problem is especially prevalent in Saudi Arabia—where rates of familial cancer are among the highest in the world.

“Cancer increased in the Kingdom of Saudi Arabia by 136% between 1999 and 2015 [4].”

Approximately 20% of all Saudi Arabian cancer patients have a family history of cancer. This population is likely to carry mutant alleles, presenting an opportunity for further exploration and research. By studying these individuals and their genetic profiles, scientists and healthcare professionals can gain valuable insights into the genetic factors contributing to familial cancer in the Saudi Arabian population. This knowledge can help improve risk assessment, develop targeted prevention strategies, and potentially lead to more effective treatments for familial cancer cases. 

In a new study, researchers Musa AlHarbi, Nahla Ali Mobark, Wael Abdel Rahman AlJabarat, Hadeel ElBardis, Ebtehal AlSolme, Abdullah Bany Hamdan, Ali H. AlFakeeh, Fatimah AlMushawah, Fawz AlHarthi, Abdullah A. AlSharm, Ali Abdullah O. Balbaid, Naji AlJohani, Alicia Y. Zhou, Heather A. Robinson, Saleh A. Alqahtani, and Malak Abedalthagafi from King Fahad Medical City, Color Health Inc., University of Manchester, Johns Hopkins University, King Faisal Specialist Hospital and Research Center, and Emory University Hospital conducted a next-generation sequencing (NGS) assessment for hereditary cancer risk in a Saudi Arabian population. Their research paper was published in Oncotarget on June 12, 2023, entitled, “Investigating the prevalence of pathogenic variants in Saudi Arabian patients with familial cancer using a multigene next generation sequencing panel.”

The Study

The researchers used a 30-gene, targeted NGS panel to screen 310 subjects, including 57 non-cancer patients, 110 index patients with cancer and 143 of their relatives, 16 of whom also had cancer. (“Index patients” refers to individuals who are the first in a family to be diagnosed with a particular disease or condition of interest.) The NGS panel covered genes related to breast, ovarian, colorectal, endometrial, gastric, pancreatic, prostate, thyroid, renal, and skin cancers, as well as familiar adenomatous polyposis (FAP) and Lynch syndrome.

“This kit has been previously trialed as a means of capturing potential PVs [pathogenic variants] at a population level in Nigeria and the Caribbean, and in identifying rare variants in cancer patients who have tested negative for common cancer variants [3538].”

The results showed that 119 subjects (38.4% of the cohort) carried pathogenic or likely pathogenic variants (PVs) affecting genes associated with hereditary cancer risk. (TP53, ATM, CHEK2, CDH1, CDKN2A, BRCA1, BRCA2, PALB2, BRIP1, RAD51D, APC, MLH1, MSH2, MSH6, PMS2, PTEN, NBN/NBS1, and MUTYH were identified as genes with pathogenic or likely pathogenic variants.) Among 126 patients and relatives with a history of cancer, 49 subjects (38.9%) carried pathogenic or likely pathogenic variants. Two specific variants (APC c.3920T>A and TP53 c.868C>T) were significantly associated with the occurrence of colorectal cancer/Lynch syndrome and multiple colon polyposis. Diverse variants in BRCA2, many of which were previously unreported as pathogenic, were found at a higher frequency in individuals with a history of cancer compared to the general patient population. Overall, these subjects had more genetic variants associated with familial cancers compared to other populations.

Conclusion

“In conclusion, this study is one of the first to report the prevalence of inherited cancer genetic variants in a cohort from the Arab world. Our study gives critical first insights into the genetic variants associated with overall cancer risk in this specific population, and specific forms including CRC/Lynch syndrome and breast cancer.”

The researchers concluded that their study was the first to use a comprehensive NGS panel for FCS risk assessment in Saudi Arabia and that it provided valuable insights into the genetic landscape of cancer in this population. They also acknowledged some limitations of their study, such as the small sample size, the lack of clinical data for some subjects and the possibility of false negatives due to technical or analytical issues. Overall, this study highlighted the importance of genetic testing and counseling for FCS in Saudi Arabia, where consanguineous marriages are common and may increase the risk of inheriting cancer-associated alleles from both parents. These findings also suggested that knowing the genetic profile of patients and their families could help tailor preventive strategies and treatments according to their specific risks.

“Whilst a larger population level study is still needed, we demonstrate that multigene NGS panel testing may serve as non-invasive diagnostic and cost-effective tool to predict familial cancer risk at the pre-clinical stage, allowing targeted screening and enabling early intervention.”

Click here to read the full research paper in Oncotarget.

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Oncotarget is an open-access, peer-reviewed journal that has published primarily oncology-focused research papers since 2010. These papers are available to readers (at no cost and free of subscription barriers) in a continuous publishing format at Oncotarget.com. Oncotarget is indexed/archived on MEDLINE / PMC / PubMed.

Click here to subscribe to Oncotarget publication updates.

For media inquiries, please contact media@impactjournals.com.