Functional Homologous Recombination Assay on FFPE Specimens of Advanced High-Grade Serous Ovarian Cancer Predicts Clinical Outcomes

Pikkusaari Sanna; Tumiati Manuela; Virtanen Anni; Oikkonen Jaana; Li Yilin; Perez-Villatoro Fernando; Muranen Taru; Salko Matilda; Huhtinen Kaisa; Kanerva Anna; Koskela Heidi; Tapper Johanna; Koivisto-Korander Riitta; Joutsiniemi Titta; Haltia Ulla-Maija; Lassus Heini; Hautaniemi Sampsa; Färkkilä Anniina; Hynninen Johanna; Hietanen Sakari; Carpen Olli; Kauppi Liisa
Functional Homologous Recombination Assay on FFPE Specimens of Advanced High-Grade Serous Ovarian Cancer Predicts Clinical Outcomes

Pikkusaari Sanna
Tumiati Manuela
Virtanen Anni
Oikkonen Jaana
Li Yilin
Perez-Villatoro Fernando
Muranen Taru
Salko Matilda
Huhtinen Kaisa
Kanerva Anna
Koskela Heidi
Tapper Johanna
Koivisto-Korander Riitta
Joutsiniemi Titta
Haltia Ulla-Maija
Lassus Heini
Hautaniemi Sampsa
Färkkilä Anniina
Hynninen Johanna
Hietanen Sakari
Carpen Olli
Kauppi Liisa
Katso/Avaa
Lataukset: 

AMER ASSOC CANCER RESEARCH
doi:10.1158/1078-0432.CCR-22-3156
URI
https://aacrjournals.org/clincancerres/article/29/16/3110/728241/Functional-Homologous-Recombination-Assay-on-FFPE
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Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2025082792426
Tiivistelmä

Purpose:
Deficiency in homologous recombination (HR) repair of DNA damage is characteristic of many high-grade serous ovarian cancers (HGSC). It is imperative to identify patients with homologous recombination–deficient (HRD) tumors as they are most likely to benefit from platinum-based chemotherapy and PARP inhibitors (PARPi). Existing methods measure historical, not necessarily current HRD and/or require high tumor cell content, which is not achievable for many patients. We set out to develop a clinically feasible assay for identifying functionally HRD tumors that can predict clinical outcomes.

Experimental Design:
We quantified RAD51, a key HR protein, in immunostained formalin-fixed, paraffin-embedded (FFPE) tumor samples obtained from chemotherapy-naïve and neoadjuvant chemotherapy (NACT)-treated HGSC patients. We defined cutoffs for functional HRD separately for these sample types, classified the patients accordingly as HRD or HR-proficient, and analyzed correlations with clinical outcomes. From the same specimens, genomics-based HRD estimates (HR gene mutations, genomic signatures, and genomic scars) were also determined, and compared with functional HR (fHR) status.

Results:
fHR status significantly predicted several clinical outcomes, including progression-free survival (PFS) and overall survival (OS), when determined from chemo-naïve (PFS, P < 0.0001; OS, P < 0.0001) as well as NACT-treated (PFS, P < 0.0001; OS, P = 0.0033) tumor specimens. The fHR test also identified as HRD those PARPi-at-recurrence–treated patients with longer OS (P = 0.0188).

Conclusions:
We developed an fHR assay performed on routine FFPE specimens, obtained from either chemo-naïve or NACT-treated HGSC patients, that can significantly predict real-world platinum-based chemotherapy and PARPi response.

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