Browsing by Author "Chen, Ina"

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    Associations of CDH1 germline variant location and cancer phenotype in families with hereditary diffuse gastric cancer (HDGC)
    (BMJ, 2019-06) Lo, Winifred; Zhu, Bin; Sabesan, Arvind; Wu, Ho-Hsiang; Powers, Astin; Sorber, Rebecca A.; Ravichandran, Sarangan; Chen, Ina; McDuffie, Lucas A.; Quadri, Humair S.; Beane, Joal D.; Calzone, Kathleen; Miettinen, Markku M.; Hewitt, Stephen M.; Koh, Christopher; Heller, Theo; Wacholder, Sholom; Rudloff, Udo; Surgery, School of Medicine
    INTRODUCTION: Hereditary diffuse gastric cancer (HDGC) is a cancer syndrome associated with variants in E-cadherin (CDH1), diffuse gastric cancer and lobular breast cancer. There is considerable heterogeneity in its clinical manifestations. This study aimed to determine associations between CDH1 germline variant status and clinical phenotypes of HDGC. METHODS: One hundred and fifty-two HDGC families, including six previously unreported families, were identified. CDH1 gene-specific guidelines released by the Clinical Genome Resource (ClinGen) CDH1 Variant Curation Expert Panel were applied for pathogenicity classification of truncating, missense and splice site CDH1 germline variants. We evaluated ORs between location of truncating variants of CDH1 and incidence of colorectal cancer, breast cancer and cancer at young age (gastric cancer at <40 or breast cancer <50 years of age). RESULTS: Frequency of truncating germline CDH1 variants varied across functional domains of the E-cadherin receptor gene and was highest in linker (0.05785 counts/base pair; p=0.0111) and PRE regions (0.10000; p=0.0059). Families with truncating CDH1 germline variants located in the PRE-PRO region were six times more likely to have family members affected by colorectal cancer (OR 6.20, 95% CI 1.79 to 21.48; p=0.004) compared with germline variants in other regions. Variants in the intracellular E-cadherin region were protective for cancer at young age (OR 0.2, 95% CI 0.06 to 0.64; p=0.0071) and in the linker regions for breast cancer (OR 0.35, 95% CI 0.12 to 0.99; p=0.0493). Different CDH1 genotypes were associated with different intracellular signalling activation levels including different p-ERK, p-mTOR and β-catenin levels in early submucosal T1a lesions of HDGC families with different CDH1 variants. CONCLUSION: Type and location of CDH1 germline variants may help to identify families at increased risk for concomitant cancers that might benefit from individualised surveillance and intervention strategies.
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    Immunogenomic profiling and pathological response results from a clinical trial of docetaxel and carboplatin in triple negative breast cancer
    (Springer, 2021) Ademuyiwa, Foluso O.; Chen, Ina; Luo, Jingqin; Rimawi, Mothaffar F.; Hagemann, Ian S.; Fisk, Bryan; Jeffers, Gejae; Skidmore, Zachary L.; Basu, Anamika; Richters, Megan; Ma, Cynthia X.; Weilbaecher, Katherine; Davis, Jennifer; Suresh, Rama; Peterson, Lindsay L.; Bose, Ron; Bagegni, Nusayba; Rigden, Caron E.; Frith, Ashley; Rearden, Timothy P.; Hernandez-Aya, Leonel F.; Roshal, Anna; Clifton, Katherine; Opyrchal, Mateusz; Akintola-Ogunremi, Olaronke; Lee, Byung Ha; Ferrando-Martinez, Sara; Church, Sarah E.; Anurag, Meenakshi; Ellis, Matthew J.; Gao, Feng; Gillanders, William; Griffith, Obi L.; Griffith, Malachi; Medicine, School of Medicine
    Purpose: Patients with triple-negative breast cancer (TNBC) who do not achieve pathological complete response (pCR) following neoadjuvant chemotherapy have a high risk of recurrence and death. Molecular characterization may identify patients unlikely to achieve pCR. This neoadjuvant trial was conducted to determine the pCR rate with docetaxel and carboplatin and to identify molecular alterations and/or immune gene signatures predicting pCR. Experimental design: Patients with clinical stages II/III TNBC received 6 cycles of docetaxel and carboplatin. The primary objective was to determine if neoadjuvant docetaxel and carboplatin would increase the pCR rate in TNBC compared to historical expectations. We performed whole-exome sequencing (WES) and immune profiling on pre-treatment tumor samples to identify alterations that may predict pCR. Thirteen matching on-treatment samples were also analyzed to assess changes in molecular profiles. Results: Fifty-eight of 127 (45.7%) patients achieved pCR. There was a non-significant trend toward higher mutation burden for patients with residual cancer burden (RCB) 0/I versus RCB II/III (median 80 versus 68 variants, p 0.88). TP53 was the most frequently mutated gene, observed in 85.7% of tumors. EGFR, RB1, RAD51AP2, SDK2, L1CAM, KPRP, PCDHA1, CACNA1S, CFAP58, COL22A1, and COL4A5 mutations were observed almost exclusively in pre-treatment samples from patients who achieved pCR. Seven mutations in PCDHA1 were observed in pre-treatment samples from patients who did not achieve pCR. Several immune gene signatures including IDO1, PD-L1, interferon gamma signaling, CTLA4, cytotoxicity, tumor inflammation signature, inflammatory chemokines, cytotoxic cells, lymphoid, PD-L2, exhausted CD8, Tregs, and immunoproteasome were upregulated in pre-treatment samples from patients who achieved pCR. Conclusion: Neoadjuvant docetaxel and carboplatin resulted in a pCR of 45.7%. WES and immune profiling differentiated patients with and without pCR.