Neoadjuvant immunotherapy provides a unique opportunity for understanding therapeutic responses. We analyzed pathologic responses in surgical specimens obtained from 31 squamous non-small cell lung cancer (NSCLC) patients receiving neoadjuvant anti-PD-1 treatment. Fifteen (48.4%) patients achieved pathologic complete response (pCR) or major pathologic response (MPR). Among them, seven (46.7%) were assessed as radiological partial response and eight (53.3%) as stable disease. Among 20 patients with pathologically identified tumor beds in lymph nodes (LNs), 10 and six patients achieved pCR/MPR in primary tumors and paired LNs, respectively. pCR was achieved in 6/19 N1 nodes and 1/7 N2 nodes. Residual viable tumor (RVT) cells in 8/9 MPR specimens had 100% immune-activated phenotype, while a median of 80% of RVT cells in pathologic nonresponse specimens presented immune-excluded/desert phenotype. These findings demonstrated that assessment of pathologic responses in both primary tumor and LNs may be important as a surrogate for assessing neoadjuvant immunotherapeutic efficacy.
Background: Histologically, SCLC are classified as pure (P-SCLC) and combined subtypes (C-SCLC). Currently, few studies compare the clinicopathological characteristics and explore the treatment strategies applied to them. Methods: Between July 2005 and April 2016, the clinical records of 297 postoperative patients with pathologically confirmed SCLC were retrospectively analyzed. Kaplan-Meier method and Cox regression model were separately used for stratified univariate and multivariate survival analysis. Results: A total of 46 cases (15.5%) of C-SCLCs and 251 cases (85.5%) of pure SCLCs (P-SCLCs) were included in this study. The average age of C-SCLCs was a little higher than that of P-SCLCs (59.65 AE 8.72 vs. 56.56 AE 10.12; P = 0.053). More patients had a history of smoking in C-SCLC (78.3% vs. 63.3%; P = 0.074). The five-year overall survival (OS) rate for P-SCLCs and C-SCLCs was 65.1% and 56.7%, respectively (P = 0.683). For P-SCLC, stage and an intervention of prophylactic cranial irradiation (PCI) were independent factors that affected OS. In C-SCLCs cases, performing sublobectomy was an independent risk factor for poor prognosis. Conclusions: We identified no significant difference in clinical characteristics and outcome between C-SCLCs and P-SCLCs. However, the factors affecting the prognosis of the two subtypes were slightly inconsistent. For C-SCLCs, the extent of resection had a greater impact on survival, and lobectomy combined with systemic lymph node dissection should therefore be performed as extensively as possible. In addition, PCI was beneficial in improving the SCLC OS rate. Key points • This study demonstrated the prognosis of C-SCLCs did not significantly differ from that of P-SCLCs, but was more susceptible to the extent of resection. Patients with C-SCLC who underwent limited resection had a significantly increased risk of shorter OS. • This study highlighted the importance of performing lobectomy for resectable C-SCLC patients. This study also proved the benefit of PCI in improving the OS rate for both P-SCLC and C-SCLC patients.
Abstract:Crizotinib is an effective drug for patients with anaplastic lymphoma kinase (ALK)-positive non-small-cell lung cancer (NSCLC), but upon treatment, the tumors inevitably become crizotinib resistant in time. The resistance mechanisms are only partly understood. In this study, we aim to identify gene mutations associated with resistance in ALKpositive advanced non-squamous NSCLC treated with crizotinib. Four ALK positive patients with progressive disease following crizotinib treatment were identified with paired pre-and post-crizotinib tumor tissue from our previously published cohort. Somatic variants in these samples were detected by whole exome sequencing. In one of the four patients, an ALK-resistance associated mutation was identified. In the other three patients, no ALK-resistance associated mutations were present. In these patients we identified 89 relevant somatic mutations in 74 genes that were specific to the resistant tumors. These genes were enriched in 15 pathways. Four pathways, were related to epithelial-mesenchymal transition (EMT): proteoglycans in cancer, HIF-1 signaling, FoxO signaling pathway, and ECM-receptor interaction. Analysis of other EMT-related pathways revealed three additional genes with mutations specific to the crizotinib-resistant tumor samples. The enrichment of mutations in genes associated with EMT-related pathways indicates that loss of epithelial differentiation may represent a relevant resistance mechanism for crizotinib.
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