Targeting the immune microenvironment for ovarian cancer therapy

Ovarian cancer (OC) is an aggressive malignancy characterized by a complex immunosuppressive tumor microenvironment (TME). Immune checkpoint inhibitors have emerged as a breakthrough in cancer therapy by reactivating the antitumor immune response suppressed by tumor cells. However, in the case of OC, these inhibitors have failed to demonstrate significant improvements in patient outcomes, and existing biomarkers have not yet identified promising subgroups. Consequently, there remains a pressing need to understand the interplay between OC tumor cells and their surrounding microenvironment to develop effective immunotherapeutic approaches. This review aims to provide an overview of the OC TME and explore its potential as a therapeutic strategy. Tumor-infiltrating lymphocytes (TILs) are major actors in OC TME. Evidence has been accumulating regarding the spontaneous TILS response against OC antigens. Activated T-helpers secrete a wide range of inflammatory cytokines with a supportive action on cytotoxic T-cells. Simultaneously, mature B-cells are recruited and play a significant antitumor role through opsonization of target antigens and T-cell recruitment. Macrophages also form an important subset of innate immunity (M1-macrophages) while participating in the immune-stimulation context. Finally, OC has shown to engage a significant natural-killer-cells immune response, exerting direct cytotoxicity without prior sensitization. Despite this initial cytotoxicity, OC cells develop various strategies to induce an immune-tolerant state. To this end, multiple immunosuppressive molecules are secreted to impair cytotoxic cells, recruit regulatory cells, alter antigen presentation, and effectively evade immune response. Consequently, OC TME is predominantly infiltrated by immunosuppressive cells such as FOXP3+ regulatory T-cells, M2-polarized macrophages and myeloid-derived suppressor cells. Despite this strong immunosuppressive state, PD-1/PD-L1 inhibitors have failed to improve outcomes. Beyond PD-1/PD-L1, OC expresses multiple other immune checkpoints that contribute to immune evasion, and each representing potential immune targets. Novel immunotherapies are attempting to overcome the immunosuppressive state and induce specific immune responses using antibodies adoptive cell therapy or vaccines. Overall, the OC TME presents both opportunities and obstacles. Immunotherapeutic approaches continue to show promise, and next-generation inhibitors offer exciting opportunities. However, tailoring therapies to individual immune characteristics will be critical for the success of these treatments

Spatial Profiling of Ovarian Carcinoma and Tumor Microenvironment Evolution under Neoadjuvant Chemotherapy

Ovarian carcinoma; Tumor microenvironment; Neoadjuvant chemotherapyCarcinoma de ovario; Microambiente tumoral; Quimioterapia neoadyuvanteCarcinoma d'ovari; Microambient tumoral; Quimioteràpia neoadjuvantPurpose: This study investigates changes in CD8+ cells, CD8+/Foxp3 ratio, HLA I expression, and immune coregulator density at diagnosis and upon neoadjuvant chemotherapy (NACT), correlating changes with clinical outcomes. Experimental Design: Multiplexed immune profiling and cell clustering analysis were performed on paired matched ovarian cancer samples to characterize the immune tumor microenvironment (iTME) at diagnosis and under NACT in patients enrolled in the CHIVA trial (NCT01583322). Results: Several immune cell (IC) subsets and immune coregulators were quantified pre/post-NACT. At diagnosis, patients with higher CD8+ T cells and HLA I+-enriched tumors were associated with a better outcome. The CD8+/Foxp3+ ratio increased significantly post-NACT in favor of increased immune surveillance, and the influx of CD8+ T cells predicted better outcomes. Clustering analysis stratified pre-NACT tumors into four subsets: high Binf, enriched in B clusters; high Tinf and low Tinf, according to their CD8+ density; and desert clusters. At baseline, these clusters were not correlated with patient outcomes. Under NACT, tumors were segregated into three clusters: high BinfTinf, low Tinf, and desert. The high BinfTinf, more diverse in IC composition encompassing T, B, and NK cells, correlated with improved survival. PDL1 was rarely expressed, whereas TIM3, LAG3, and IDO1 were more prevalent. Conclusions: Several iTMEs exist during tumor evolution, and the NACT impact on iTME is heterogeneous. Clustering analysis of patients unravels several IC subsets within ovarian cancer and can guide future personalized approaches. Targeting different checkpoints such as TIM3, LAG3, and IDO1, more prevalent than PDL1, could more effectively harness antitumor immunity in this anti-PDL1–resistant malignancy.This work was supported by donations from patients and families through the “Parrainage Cancers Gynécologiques” Program and by the Association de Recherche Cancers Gynécologiques Research

Circulating Tumor DNA from Ascites as an alternative to tumor sampling for genomic profiling in ovarian cancer patients

Abstract Genomic testing is crucial for the management of ovarian cancer. DNA from biopsies at diagnostic laparoscopies or interval debulking surgery after neoadjuvant chemotherapy, has a high failure rate. At relapse, biopsies may not be feasible. The aim of our study was to evaluate the feasibility and usefulness of measuring genomic instability score (GIS) on cell-free DNA (cfDNA) from ascites. Patients enrolled in a prospective study (NCT03010124) consented to analysis of biological samples. CfDNA was extracted from 1 to 4 ml of double-centrifuged fresh ascites. Targeted Next-generation sequencing (NGS) including TP53 mutation (TP53m) was performed on cfDNA to confirm the presence of tumor cfDNA. Single Nucleotide Polymorphism Array estimating somatic copy number alterations (SCNA) was performed to calculate GIS for Homologous-Recombination deficiency (HRD). Twenty nine ascites were collected from 20 patients with suspected or confirmed OC. 93% (27/29) samples had detectable cfDNA (median 1120 ng [24-5732]) even when obtained during chemotherapy. A deleterious mutation was identified in 100%, with high allelic frequencies (median 60% [3.3–87%]), confirming that cfDNA was tumoral. SCNA analyses on 17 patients showed 11 high GIS, and 6 low GIS. 4 patients with confirmed BRCA mutation had a high GIS on ascites. When available from the same patient, SCNA profiles on ascites and tumor were superimposable. Ascites is frequent at diagnosis and relapse and yields large amounts of tumoral cfDNA. SCNA analysis on ascitic cfDNA is feasible and can detect the same HRD scar as tumor testing. Ascites could provide an alternative to tumor sampling for HRD and BRCA testing

Impact of Intercurrent Introduction of Steroids on Clinical Outcomes in Advanced Non-Small-Cell Lung Cancer (NSCLC) Patients under Immune-Checkpoint Inhibitors (ICI)

Simple Summary Recently, the introduction of immunotherapy radically changed the therapeutic algorithm of non-small-cell lung cancer as an upfront or secondary strategy. Unfortunately, the small amount of patient benefits from immune-checkpoint inhibitors (ICI) and the prognostic role of concomitant treatments are a burning open issue. The use of steroids was associated with poor outcomes during ICI. We investigated the impact of intercurrent steroids, according to clinical indication, which is actually unclear. Interestingly, the use of intercurrent steroids given for cancer-unrelated symptoms has no survival impact on our study cohort. Background: Baseline steroids before ICI have been associated with poor outcomes, particularly when introduced due to cancer symptoms. Methods: Retrospective analysis of advanced NSCLC patients treated with ICI. We collected the use of intercurrent steroids (>= 10 mg of prednisone-equivalent) within the first eight weeks of ICI. We correlated steroid use with patient outcomes according to the indications. Results: 413 patients received ICI, 299 were steroids-naive at baseline. A total of 49 patients received intercurrent steroids (16%), of whom 38 for cancer-related symptoms and 11 for other indications, such as immune-related events. Overall, median (m) progression-free survival (PFS) was 1.9 months (mo.) [95% CI, 1.8-2.4] and overall survival (OS) 10 mo. [95% CI, 8.1-12.9]. Intercurrent steroids under ICI correlated with a shorter PFS/OS (1.3 and 2.3 mo. respectively, both p <0.0001). Intercurrent steroids for cancer-related symptoms correlated with poorest mPFS [1.1 mo.; 95% CI, 0.9-1.5] and mOS [1.9 mo.; 95%CI, 1.5-2.4; p <0.0001)]. No mOS and mPFS differences were found between cancer-unrelated-steroid group and no-steroid group. Steroid use for cancer-related symptoms was an independent prognostic factor for poor PFS [HR 2.64; 95% CI, 1.2-5.6] and OS [HR 4.53; 95% CI, 1.8-11.1], both p <0.0001. Conclusion: Intercurrent steroids during ICI had no detrimental prognostic impact if the indication was unrelated to cancer symptoms

Therapy related myeloid neoplasms (t-MNs) following PARP inhibitors (PARPi): Real-life experience.

7057 Background: PARPi have shown promising results in several cancers, especially breast (BC) and ovarian cancer (OC), but may be associated with an increased risk of t-MNs. A careful monitoring of hematologic toxicity to exclude this risk is necessary. Here we described, in a real-life setting, the management of these adverse effect. Methods: First,we described, in a large cancer center, the profile of t-MN patients among OC patients treated with PARPi addressed in hematological consultation for cytopenias. Secondly, we compared t-MN post OC characteristics according to previous exposition to PARPi. Lastly, we described a large national observatory of 69 t-MNs post PARPi to decipher specific characteristics of these t-MNs. Results: From 2016 to 2021, among 373 PARPi treated patients for OC, 37 (10%) were explored for cytopenia’s leading to 13 (3,5%) t-MNs diagnosis. No differences were seen in terms of age, BRCA1/2 status, type of PARPi, hemoglobin level but patients with t-MNs developed delayed cytopenias post-PARPi initiation (11 months vs to 4 months, p = 0.01), had a longer PARPi exposition (9 months vs 3 months, p = 0.01), lower platelets level (74 G/L vs 173 G/L, p = 0.0005), more cytopenias (2 vs 1, p = 0.0005). 77% of t-MNs patients had a TP53 mutated t-MNs, 33% of patients w/o t-MNs had TP53 mutated clonal hematopoiesis. In the last 20 years, 37 patients were addressed for t-MN post OC at our institute, with an increased incidence of 50% during the last 6 years. Compared to t-MN not exposed to PARPi, t-MN-PARPi patients had more BRCA1/2 predisposition (61.5% vs 0% p = 0.03), their OC tended to be non-progressive (CR/PR/SD = 62.5% vs 38.5%, p = 0.3) and tend to have more TP53 mutated t-MNs (77% vs 47%, p = 0.1). Median OS for t-MNs post PARPi was poor at 8.2 months (CI95% [2.03-18.7]) but not significantly different form other t-MNs (p = 0.8). We then studied 69 t-MNs-PARPi including 28 AML and 41 MDS in patient with history of OC (75%), BC (9%) or both (16%). Median age was 64 years, 80% received Olaparib, 72.5% had a BRCA1/2 predisposition. Median time between cancer diagnosis and initiation of PARPi was 44 months and median duration of PARPi treatment was 14 months. History of haematological toxicity secondary to PARPi was reported in 51% of patients. Karyotype was often complex (61%) associated with a high rate of TP53 mutation (70.5%). Median OS was 9.7 months (CI95%, 5.3-13.9). In multivariate analysis, a longer delay between the end of PARPi treatment and t-NM diagnosis (HR 1.046, p = 0.02), as well Olaparib treatment compared to others PARPi (HR 5.82, p = 0.003 and AML diagnosis (HR 2.485, p = 0.01) were associated with shorter OS. Conclusions: We describe in a large series a higher incidence of t-MNs post PARPi than previously reported. Unfavorable cytogenetic and molecular abnormalities associated with these t-MNS explained the poor OS. Early detection is crucial particularly in case of delayed appearance of cytopenias. </jats:p

Intestinal Akkermansia muciniphila predicts clinical response to PD-1 blockade in patients with advanced non-small-cell lung cancer

43siAside from PD-L1 expression, biomarkers of response to immune checkpoint inhibitors (ICIs) in non-small-cell lung cancer (NSCLC) are needed. In a previous retrospective analysis, we documented that fecal Akkermansia muciniphila (Akk) was associated with clinical benefit of ICI in patients with NSCLC or kidney cancer. In the current study, we performed shotgun-metagenomics-based microbiome profiling in a large cohort of patients with advanced NSCLC (n = 338) treated with first- or second-line ICIs to prospectively validate the predictive value of fecal Akk. Baseline stool Akk was associated with increased objective response rates and overall survival in multivariate analyses, independent of PD-L1 expression, antibiotics, and performance status. Intestinal Akk was accompanied by a richer commensalism, including Eubacterium hallii and Bifidobacterium adolescentis, and a more inflamed tumor microenvironment in a subset of patients. However, antibiotic use (20% of cases) coincided with a relative dominance of Akk above 4.8% accompanied with the genus Clostridium, both associated with resistance to ICI. Our study shows significant differences in relative abundance of Akk that may represent potential biomarkers to refine patient stratification in future studies.reservedopenDerosa, Lisa; Routy, Bertrand; Thomas, Andrew Maltez; Iebba, Valerio; Zalcman, Gerard; Friard, Sylvie; Mazieres, Julien; Audigier-Valette, Clarisse; Moro-Sibilot, Denis; Goldwasser, François; Silva, Carolina Alves Costa; Terrisse, Safae; Bonvalet, Melodie; Scherpereel, Arnaud; Pegliasco, Hervé; Richard, Corentin; Ghiringhelli, François; Elkrief, Arielle; Desilets, Antoine; Blanc-Durand, Felix; Cumbo, Fabio; Blanco, Aitor; Boidot, Romain; Chevrier, Sandy; Daillère, Romain; Kroemer, Guido; Alla, Laurie; Pons, Nicolas; Le Chatelier, Emmanuelle; Galleron, Nathalie; Roume, Hugo; Dubuisson, Agathe; Bouchard, Nicole; Messaoudene, Meriem; Drubay, Damien; Deutsch, Eric; Barlesi, Fabrice; Planchard, David; Segata, Nicola; Martinez, Stéphanie; Zitvogel, Laurence; Soria, Jean-Charles; Besse, BenjaminDerosa, Lisa; Routy, Bertrand; Thomas, Andrew Maltez; Iebba, Valerio; Zalcman, Gerard; Friard, Sylvie; Mazieres, Julien; Audigier-Valette, Clarisse; Moro-Sibilot, Denis; Goldwasser, François; Silva, Carolina Alves Costa; Terrisse, Safae; Bonvalet, Melodie; Scherpereel, Arnaud; Pegliasco, Hervé; Richard, Corentin; Ghiringhelli, François; Elkrief, Arielle; Desilets, Antoine; Blanc-Durand, Felix; Cumbo, Fabio; Blanco, Aitor; Boidot, Romain; Chevrier, Sandy; Daillère, Romain; Kroemer, Guido; Alla, Laurie; Pons, Nicolas; Le Chatelier, Emmanuelle; Galleron, Nathalie; Roume, Hugo; Dubuisson, Agathe; Bouchard, Nicole; Messaoudene, Meriem; Drubay, Damien; Deutsch, Eric; Barlesi, Fabrice; Planchard, David; Segata, Nicola; Martinez, Stéphanie; Zitvogel, Laurence; Soria, Jean-Charles; Besse, Benjami

Immune tumor microenvironnement (iTME) post-neoadjuvant chemotherapy, beyond PD-L1: Novel immune targets in ovarian cancer, data from the CHIVA trial, a GINECO/GINEGEPS study.

5554 Background: Antibodies targeting PDL1 or PD1 have been disappointing so far in the treatment of ovarian cancer (OC). A greater understanding of the complex iTME and of the impact of chemotherapy on immune features could uncover promising immune targets. We previously reported that neoadjuvant chemotherapy (NACT) increased CD4+ and CD8+ immune cells (IC) and depleted FOXP3+ suppressive T-regs in OC iTME. Here we aimed to describe the expression of PDL1 as well as other co-regulatory molecules in OC and their changes under NACT. Methods: Tumor samples and clinical data were prospectively collected from patients (pts) in the randomized CHIVA trial of NACT +/- nintedanib. Samples were evaluable for immune profiling for 116-124 pts at diagnosis and 89-107 at surgery after 3 cycles of NACT. IC stained for CD4, CD8 were scored as number of IC+/mm². Expression of immune co-regulatory molecules PDL1, TIM3, LAG3 and IDO was scored as percentage of positive cells, and tumors were classified as PDL1/TIM3/IDO/LAG3 positive if &gt; 1% of IC and/or tumor cells (TC) were positive. Highly sensitive pts, defined as objective response to NACT and prolonged median progression-free survival (mPFS &gt; 24months), were compared to refractory pts (progressing during or within 3mo of platinum). Results: As expected, about one third (36%) of tumors were PDL1+ at diagnosis. In contrast, the prevalence of other co-regulatory molecules was higher with 52%, 54% and 93% of tumors being positive for IDO, LAG3 and TIM3, respectively. There was no significant change in PDL1 expression with NACT. However, in paired samples NACT significantly increased IDO and LAG3 expression (p &lt; 0.05), such that 60% and 66% of tumors post-NACT were positive for IDO and LAG3, respectively. TIM3 expression remained high post-NACT with 92% of positive tumors. Highly sensitive tumors (vs refractory tumors) had significantly higher IC expression of TIM3 after NACT (24% vs 6%, p = 0.005), and were significantly more infiltrated by CD4+ (441 vs 228 cells/mm2, p = 0.04) and CD8+ (460 vs 225 cells/mm2, p = 0.045) T cells. Conclusions: Other immune targets beyond PDL1 are highly expressed in OC. In addition NACT appears to prime the iTME by increasing effector T cell infiltration and the expression of other relevant co-regulatory molecules (LAG3, TIM3 and IDO). Future studies could be performed by priming the iTME with NACT and testing novel immune therapies based on target expression in samples obtained at interval debulking surgery. </jats:p

Evaluation of a RAD51 functional assay in advanced ovarian cancer, a GINECO/GINEGEPS study.

5513 Background: Homologous recombination deficiency (HRD), defined as BRCA1/2 mutation ( BRCAmut)or high genomic instability, is currently used to identify patients (pts) with epithelial ovarian cancer (EOC) most likely to benefit from PARP inhibitors. While these genomic tests are useful, they are imperfect: some BRCAm EOC demonstrate primary PARPi resistance and some HR-proficient benefit. Another approach to evaluate HRD is to measure the capacity of tumor cells to recruit nuclear RAD51 foci during S/G2 phase in the presence of double strand DNA damage using multiplexed immunofluorescence (IF) for RAD51, geminin (GMN) and yH2AX. We aimed to describe for the 1st time HRD using this RAD51 functional assay in EOC and correlate RAD51 status to platinum response and BRCAmut. Methods: Tumor samples and clinical data were collected prospectively from pts in the randomized CHIVA trial of neoadjuvant platinum chemotherapy +/- nintedanib. IF for RAD51, GMN, and DAPI was performed on a 3uM slide from FFPE blocks, where feasible, yH2AX was positively scored on a consecutive slide. Tumors were considered RAD51-deficient if &lt; 10% of gem+ tumor cells (TC) had &gt; 5 RAD51+ foci. BRCAmut were identified by NGS. Results: 155 baseline chemotherapy naïve EOC samples were available. All were advanced stage (IIIC/IV), 75% were G3, 7% G2, 2% G1, and 16% grade UK. A contributive RAD51 result was obtained for 90% (139/155) of samples. Contributive NGS results were available for 130 samples. Overall, yH2AX scores were high (median % TC+: 86%, IQR: 56%-100%) confirming the presence of significant basal DNA damage in high grade EOC. Only 8 samples were yH2AX-low, including two of the three G1 tumors. In contrast, 55% (76/155) of samples were considered RAD51-deficient (score &lt; 10%). With regard to outcome, pts with RAD51-deficient tumors had significantly higher overall response rates to neoadjuvant platinum (68% vs 37%, p = 0.04) and significantly longer median progression-free survival (HR 0.50, IC95% 0.25-0.98, p = 0.02). Considering BRCA status, 15% of tumors harbored a deleterious BRCAmut and 67% of these were RAD51-deficient. Importantly among BRCAmut EOC, the RAD51-proficient tumors had significantly poorer response to neoadjuvant chemotherapy (RR = 17% vs 75%, p = 0.02). Conclusions: We evaluated a novel functional assay of HR functionality in advanced EOC. The assay requires minimal tissue and yields contributive results in 90% of cases. Overall, EOC demonstrate high levels of basal DNA damage, yet 55% fail to recruit RAD51 foci during S/G2 cell cycle phase. These RAD51-deficient EOC have improved outcome after neoadjuvant platinum. Conversely, the RAD51 assay also identified a small subset of RAD51-high BRCAmut tumors with poor platinum response. Whether this RAD51 functional assay may also predict PARP inhibitor benefit is currently being investigated. </jats:p