PURPOSE With the recent approval of the KRAS G12C inhibitor sotorasib for patients with advanced KRAS G12C-mutant non–small cell lung cancer (NSCLC), there is a new need to identify factors associated with activity and toxicity among patients treated in routine practice. MATERIALS AND METHODS We conducted a multicenter retrospective study of patients treated with sotorasib outside of clinical trials to identify factors associated with real-world progression free survival (rwPFS), overall survival (OS), and toxicity. RESULTS Among 105 patients with advanced KRAS G12C-mutant NSCLC treated with sotorasib, treatment led to a 5.3-month median rwPFS, 12.6-month median OS, and 28% real-world response rate. KEAP1 comutations were associated with shorter rwPFS and OS (rwPFS hazard ratio [HR], 3.19; P = .004; OS HR, 4.10; P = .003); no significant differences in rwPFS or OS were observed across TP53 (rwPFS HR, 1.10; P = .731; OS HR, 1.19; P = .631) or STK11 (rwPFS HR, 1.66; P = .098; OS HR, 1.73; P = .168) comutation status. Notably, almost all patients who developed grade 3 or higher treatment-related adverse events (G3+ TRAEs) had previously been treated with anti–PD-(L)1 therapy. Among these patients, anti–PD-(L)1 therapy exposure within 12 weeks of sotorasib was strongly associated with G3+ TRAEs ( P < .001) and TRAE-related sotorasib discontinuation ( P = .014). Twenty-eight percent of patients with recent anti–PD-(L)1 therapy exposure experienced G3+ TRAEs, most commonly hepatotoxicity. CONCLUSION Among patients treated with sotorasib in routine practice, KEAP1 comutations were associated with resistance and recent anti–PD-(L)1 therapy exposure was associated with toxicity. These observations may help guide use of sotorasib in the clinic and may help inform the next generation of KRAS G12C-targeted clinical trials.
TPS764 Background: Kirsten rat sarcoma (KRAS) G12D is a point mutation observed in various cancer types including pancreatic ductal cancer, colon adenocarcinoma, and lung cancers. ASP3082 is a novel small-molecule proteolysis-targeting chimeric degrader that binds to, and selectively targets, the KRAS G12D-mutated protein for degradation via recruitment of E3 ubiquitin ligase proteins. In preclinical studies, ASP3082 selectively degraded the KRAS G12D-mutated protein and showed growth inhibitory activity in KRAS G12D-mutated cancer cells but not in KRAS -wildtype cancer cells. Notable antitumor effects of ASP3082 have been demonstrated when intravenously administered weekly in mice xenografted with KRAS G12D-mutated cancer cells. Methods: This first-in-human, open-label, multicenter, phase 1 study evaluates the safety and tolerability of ASP3082 in patients with pancreatic cancer, colorectal cancer, non-small cell lung cancer or other solid tumors. Participants with unresectable, locally advanced, or metastatic solid tumor malignancy with documented KRAS G12D mutation are eligible for enrollment. Part 1 consists of dose-escalation cohorts of 3−12 patients receiving intravenous administration of ASP3082 in a 21-day cycle. Part 2 consists of random assignment of ≤20 patients into 2 cohorts with different ASP3082 dose levels to determine the recommended phase 2 dose. Additional tumor-specific expansion cohorts may enroll ≤20 participants per tumor type. Primary endpoints will evaluate safety and tolerability as noted by dose-limiting toxicities, adverse events, serious adverse events, laboratory test results, electrocardiograms, vital signs, physical exams, and Eastern Cooperative Oncology Group performance status. Secondary endpoints will evaluate objective response rate, duration of response, disease control rate per Response Evaluation Criteria in Solid Tumors version 1.1, pharmacokinetics of single and repeated doses of ASP3082, and changes in KRAS G12D in tumor samples. Exploratory objectives will evaluate potential biomarkers that may correlate with treatment outcomes. Tumor assessment follow-up will continue for ≤45 weeks or until progressive disease. Enrollment in Cohort 1 is complete, and enrollment to Cohort 2 began in September 2022. Clinical trial information: NCT05382559 .
e20593 Background: Epidermal growth factor receptor-mutated [ EGFR(+)] NSCLC has historically been associated with young, non-smoking patients, especially those of Asian descent. Our medical center serves a diverse population within New York City and includes patients from neighborhoods that are predominantly Hispanic/Latino. We therefore sought to describe the population of patients with EGFR(+) NSCLC treated at our cancer center. Methods: We used our single institution lung cancer database to identify 2092 patients diagnosed with NSCLC between 2013-2019; of these, 375 had EGFR(+) disease. We collected retrospective data on patient demographics and disease outcomes. The chi-square test and t-tests were performed to compare between subgroups of patients. Results: Between 2013-2019, 17.9% of patients diagnosed with NSCLC at our center had an identified EGFR mutation. Incidence of EGFR mutations was higher in Asian NSCLC patients (46.7%) compared to Black (13.1%), white (16.8%), and Hispanic (16.0%) NSCLC patients. Within the 375 patients diagnosed with EGFR(+) NSCLC, however, the distribution was 62.1% white (233 patients), 13.6% Asian (51 patients), 11.2% Hispanic (42 patients), 8.3% Black (31 patients), and 4.8% unknown/other race (18 patients). Over half (57.7%) of patients with EGFR(+) NSCLC had a history of smoking, and most (68.9%) were female. Median age at diagnosis was 71 years. Frequency of tyrosine kinase inhibitor (TKI)-sensitive mutations (L858R and exon 19 deletion) was 85.7% in Hispanic patients, 91.7% in Asian patients, 76.4% in white patients, and 71.0% in Black patients. Significantly more Hispanic EGFR(+) patients were diagnosed at Stage IV (65.4%) compared to 40.4% of Asian patients, 36.7% of Black patients, and 25.7% of white patients (p < 0.02 for all comparisons). Among patients diagnosed with Stage IV disease, Hispanic patients had worse average survival compared to non-Hispanic patients (19.4 months vs. 27.9 months, p = 0.01). Conclusions: EGFR-mutant NSCLC is thought to be especially common among patients who are younger, Asian, and/or never smokers. Our population of EGFR(+) NSCLC, however, encompasses a racially diverse group of patients, most of whom were older at the time of diagnosis and many of whom had a history of smoking. This population of patients, most of whom harbor a TKI-sensitive mutation, supports the use of routine mutational testing that is agnostic to patient demographics. Our data also suggest that Hispanic patients in particular are diagnosed with more advanced disease and have shorter survival; the reasons for such disparities within the EGFR(+) NSCLC population warrant further study.
Introduction: ATRi and PARPi combinations kill tumor cells via synergistic modulation of complementary DDR pathways but clinical utility is limited by overlapping toxicities. A genome-wide CRISPR-Cas9 screen identified DDR alterations that sensitize tumors to the ATRi camonsertib (cam) plus PARPi. Based on preclinical models, tolerability and efficacy of cam plus PARPi given intermittently at low doses in pts with solid tumors with DDR alterations, including BRCA-mutated PARPi-resistant cancers, was evaluated. Methods: Pts (≥ 18 yrs) with relapsed/refractory (r/r) solid tumors with DDR alterations were treated with cam plus talazoparib (tala), niraparib (nira), or olaparib (ola) in 2 phase I trials (NCT04497116, NCT04972110). An adaptive BOIN design was used to optimize dose/schedule. Endpoints were safety, recommended phase II dose (RP2D), pharmacokinetics (PK), response (RECIST v1.1 [confirmed/unconfirmed], CA 125, or PSA), clinical benefit rate (CBR; RECIST/tumor marker response or treatment duration ≥ 16 wk), and ctDNA molecular response rate (MRR; best reduction in mean variant allele frequency [mVAF] ≥ 50%). Results: As of Nov 2022, 99 pts were enrolled (61 with ≥ 3 prior lines of therapy, 36 PARPi-pretreated); 43, 27, 29 pts in tala, nira, and ola combinations, respectively. Tumors included ovarian (n=20), prostate (n=13), breast (n=17), bile duct (n=3); most common genotypes were ATM (n=26), BRCA1 (n=19), and BRCA2 (n=33). Grade 3+ toxicities included reversible myelosuppression (neutropenia, anemia, and thrombocytopenia in 35%, 28%, and 14% of pts overall; 33%, 16%, and 11% at preliminary RP2Ds), fatigue (3%), and alkaline phosphatase increase (2%). Two pts discontinued treatment due to drug-related toxicity. Forty pts remain on therapy, up to 63 wks. Preliminary RP2Ds: cam 80 mg QD (d 5-7) + tala 0.25 mg QD, 1 wk on/1 wk off; cam 80 mg QD + nira 100 mg QD, 2 d on/5 d off; cam 50 mg QD + ola 100 mg BID, 3 d on/4 d off. As of abstract submission, response rate was 13% in 85 evaluable pts; CBR was 49%. Responders included pts with ovarian (n=6), bile duct (n=2), and breast, pancreatic, and carcinoma of unknown primary (n=1 each) cancers harboring alterations in BRCA1/2 (n=9), IDH1 (n=1), and ATM (n=1). Of 30 evaluable PARPi-pretreated pts, response rate was 23% and CBR was 52%. MRR was 64% (14/22 evaluable); change in mVAF correlated with a change in target lesion size (r=0.63, P=0.001). PK of each drug in the combination was consistent with respective monotherapy PK. Conclusion: Combination of cam plus PARPi at low doses on intermittent schedules was generally well-tolerated with clinical activity in DDR-aberrant tumors, including those pretreated with PARPi. RP2D optimization and translational correlative studies are ongoing. Citation Format: Timothy A. Yap, Siddhartha Yadav, Benjamin Herzberg, Benedito A. Carneiro, Elisa Fontana, Martin Højgaard, Michael J. Pishvaian, Ruth Plummer, Theresa L. Werner, Vaibhav Sahai, Stephanie Lheureux, Elizabeth K. Lee, Niharika B. Mettu, Gregory M. Cote, Joseph D. Schonhoft, Victoria Rimkunas, Ian M. Silverman, Marisa Wainszelbaum, Gerson Peltz, Adrian J. Fretland, Kezhen Fei, Danielle Ulanet, Insil Kim, Maria Koehler, Ezra Rosen, Michael Cecchini. Safety and efficacy of three PARP inhibitors (PARPi) combined with the ataxia telangiectasia- and Rad3-related kinase inhibitor (ATRi) camonsertib in patients (pts) with solid tumors harboring DNA damage response (DDR) alterations [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 2 (Clinical Trials and Late-Breaking Research); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(8_Suppl):Abstract nr CT018.
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