Therapeutic Implications—The Next Era of Genetic Diagnosis

TON - May 2017, Vol 10, No 3 - Genetic Counseling
Cristi Radford, MS, CGC

Chances are, if you work in cancer risk assessment or with patients with ovarian cancer, you are familiar with poly-(ADP-ribose) polymerase (PARP) inhibitors. PARP inhibitors were the first class of drugs specifically developed to treat BRCA -related tumors by targeting the DNA repair pathway. Although they were developed more than a decade ago, the FDA only granted approval for their clinical use a few years ago (for BRCA carriers with advanced ovarian cancer who were previously treated with ≥3 lines of chemotherapy). Since the December 2014 FDA approval, the number of PARP inhibitors on the market, as well as the BRCA -associated cancers they are used for, have increased.1 PARP inhibitors represent 1 example of how the underlying molecular mechanism by which cancer develops can lead to more personalized and effective treatments. No longer is cancer risk stratification the sole focus of inherited cancer genetic diagnosis—the discipline has entered a new era in which diagnosis may result in therapeutic implications.

Another field in which genetic diagnosis may affect drug discovery is the study of constitutional mismatch repair deficiency (CMMRD), a condition in which individuals have a mutation in both copies of their Lynch syndrome gene. Whereas an individual with a mutation in 1 PMS2 gene would have Lynch syndrome, an individual with a mutation in both PMS2 genes would have CMMRD. Unlike patients with Lynch syndrome, individuals with CMMRD often develop cancer in childhood. The most frequent of these cancers are brain tumors, leukemias, and colon or small bowel cancers, and guidelines recommend screening in childhood.2 Recently, it was discovered that tumors from children with CMMRD yield unique findings, and these findings can be used to create personalized treatments.2

Analysis of tumors from patients with CMMRD appears to suggest a new mechanism of cancer progression. Although the tumors accumulate mutations at a very high rate (~600 mutations/cell cycle), they do not exceed ~20,000 mutations in <6 months.3 It is known that high mutation loads also lead to high neoantigen loads, and therefore may respond to immune checkpoint inhibition. In fact, the results of a recent study demonstrated that the neoantigen load in individuals with CMMRD was substantially higher than in those without the condition.4 All of this information can be used to develop more effective treatments, such as the incorporation of immunotherapy drugs into treatment. Based on preclinical data, investigators used an immune checkpoint inhibitor to treat 2 siblings with CMMRD who had recurrent glioblastoma multiforme, and saw a clinically significant response and shrinkage of the tumor in MRI scans.4 It is possible that all CMMRD-related cancers may benefit from a similar treatment approach. Therefore, a group of international researchers has developed a pilot study to examine the use of a specific immune checkpoint inhibitor in pediatric patients with hypermutated cancers.5

The use of PARP inhibitors in BRCA -related cancers, and the potential role of immune checkpoint inhibitors in CMMRD-related cancers, serve as examples of ways in which a genetic diagnosis may have therapeutic implications. As more is understood about the relationship between inherited cancer germline mutations and the biology of their associated cancers, it is likely that an increase will be seen in targeted therapies. However, for this to occur, individuals must first be genetically diagnosed, and then be offered research and/or registry opportunities so targeted therapies can be developed.

References
1. FORCE Facing Our Risk of Cancer Empowered. PARP inhibitor therapy. Updated October 17, 2016. www.facingourrisk.org/understanding-brca-and-hboc/information/cancertreatment/parpi/index.php. Accessed March 20, 2017.
2. Bakry D, Aronson M, Durno C, et al. Genetic and clinical determinants of constitutional mismatch repair deficiency syndrome: report from the constitutional mismatch repair deficiency consortium. Eur J Cancer. 2014;50:987-996.
3. Shlien A, Campbell BB, de Borja R, et al; for the Biallelic Mismatch Repair Deficiency Consortium. Combined hereditary and somatic mutations of replication error repair genes result in rapid onset of ultra-hypermutated cancers. Nat Genet. 2015;47:257-262.
4. Bouffet E, Larouche V, Campbell BB, et al. Immune checkpoint inhibition for hypermutant glioblastoma multiforme resulting from germline biallelic mismatch repair deficiency. J Clin Oncol. 2016;34:2206-2211.
5. ClinicalTrials.gov. Pilot study of nivolumab in pediatric patients with hypermutant cancers. https://clinicaltrials.gov/ct2/show/NCT02992964. Accessed March 20, 2017.

Related Items
Addressing the Needs of Previvors Struggling to Access Screening and Recommended Interventions
Cristi Radford, MS, CGC, Lisa Schlager
TON - September 2018, Vol 11, No 4 published on September 19, 2018 in Genetic Counseling
Variants of Uncertain Significance—Frequently Asked Questions
Cristi Radford, MS, CGC, Michele Gabree, MS, CGC
TON - July 2018, Vol 11, No 3 published on July 25, 2018 in Genetic Counseling
New Criteria for Inherited Prostate Cancer Genetic Testing
Cristi Radford, MS, CGC
TON - March 2018, Vol 11, No 1 published on March 9, 2018 in Genetic Counseling, NCCN
Is It Time to Reevaluate Universal Screening Strategies for Lynch Syndrome in Patients Newly Diagnosed with Colorectal Cancer?
Cristi Radford, MS, CGC, Nicole Centers, BSN, RN, OCN, CBCN, CN-BN
TON - September 2017, Vol 10, No 5 published on September 10, 2017 in Genetic Counseling
Survivorship Clinics—A Second Opportunity for Genetic Risk Stratification
Cristi Radford, MS, CGC, Nicole Centers, BSN, RN, OCN, CBCN, CN-BN
TON - July 2017, Vol 10, No 4 published on July 6, 2017 in Genetic Counseling
New Data Suggest the Benefit of Multigene Panel Testing for Patients with Early-Onset Colorectal Cancer
Cristi Radford, MS, CGC
TON - March 2017, Vol 10, No 2 published on March 7, 2017 in Genetic Counseling
Is It Time to Reconsider Testing Adolescents for Familial BRCA Mutations?
Courtney Lewis, MS, CGC , Cristi Radford, MS, CGC
TON - January 2017, Vol 10, No 1 published on January 12, 2017 in Genetic Counseling
Risk and Management Updates for Inherited Colorectal Cancer
Courtney Lewis, MS, CGC , Cristi Radford, MS, CGC
TON - November 2016, Vol 9, No 6 published on November 15, 2016 in Genetic Counseling
Increased Risk for Serous/Serous-like Endometrial Cancer Found in BRCA1 Carriers
Cristi Radford, MS, CGC
TON - September 2016, Vol 9, No 5 published on September 4, 2016 in Genetic Counseling
“Newer” Ovarian Cancer Genes, Option of Risk-Reducing Salpingo-Oophorectomy
Cristi Radford, MS, CGC
TON July 2016 Vol 9 No 4 published on July 18, 2016 in Genetic Counseling
Last modified: January 17, 2018