Your search keyword '"Mathukkada, Sooraj"' showing total 2 results

1. Dual inhibition of HERs and PD-1 counteract resistance in KRASG12C-mutant head and neck cancer.

Author

Novoplansky, Ofra, Jagadeeshan, Sankar, Prasad, Manu, Yegodayev, Ksenia M., Marripati, Divyasree, Shareb, Raghda Abu, Greenshpan, Yariv, Mathukkada, Sooraj, Ben-Lulu, Talal, Bhattacharya, Baisali, Porgador, Angel, Kong, Dexin, Brägelmann, Johannes, Gutkind, J. Silvio, and Elkabets, Moshe

Subjects

HEAD & neck cancer, TUMOR growth, T cells, TUMOR microenvironment, CANCER invasiveness

Abstract

Background: Basket clinical trials targeting the KRASG12C-mutation in solid tumors have shown initial promise, including in orphan KRASG12C head and neck cancer (HNC). However, development of resistance to KRASG12C-mutant-specific inhibitors (KRASG12Ci) remains a major obstacle. Here, we investigated the intrinsic (tumor-cell autonomus) and tumor-microenvironment (TME) mechanisms of resistance to the KRASG12Ci—MRTX849 and AMG510 in a unique syngenic murine KRASG12C-mutated HNC cell line. Methods: Western-blotting was used for protein abundance and activation, overexpression, and ligand activation studies to verify the intrinsic mechanism of resistance to KRASG12Ci in KRASG12C-mutated HNC cell line, 4NQO-L. In vitro KRASG12C-acquired-resistant cells were developed from 4NQO-L (4NQO-L-AcR). MRTX849/lapatinib combination efficacy, and CD8+ T-cells depletion, were assessed in C57BL/6 J mice and supplementation of anti-PD-1 (αPD-1) to MRTX849/lapatinib was also performed in 4NQO-L– KRASG12Ci-senisitve and 4NQO-L-AcR tumors. Immunohistochemistry (IHC) and Immunoflourescence (IF) analyses were performed to profile the TME and programmed death-ligand 1 (PD-L1) expression in tumors. Results: Activation and upregulation of EGFR and HER2/3 (pan-HERs) are the intrinsic mechanism of resistance to KRASG12Ci in 4NQO-L cells, and blocking pan-HERs signaling with lapatinib enhanced MRTX849 efficacy in vitro by inhibiting the MAPK and AKT/mTOR pathways. 4NQO-L-AcR upregulated the expression of pan-HERs, and lapatinib treatment re-sensitized 4NQO-L-AcR to MRTX849. In mice, MRTX849 showed a slight anti-tumor effect, but in combination with lapatinib a significant tumor growth delay was observed, but all tumors progressed over time. Histopathology analysis of the TME revealed infiltration of CD8+ T-cells after treatment combination, and these CD8+ T-cells play a key role in MRTX849/lapatinib efficacy. MRTX849/lapatinib treatment upregulated PD-L1 overexpression in both stromal and tumor cells, which presumably suppressed CD8+ T-cells and enabled immune escape and tumor progression. Supplementation of αPD-1 prolonged the progression-free survival of 4NQO-L-bearing mice treated with MRTX849/lapatinib. MRTX849/lapatinib treatment delayed tumor growth of 4NQO-L-AcR in mice; however, the percentages of CD8+ T-cells in 4NQO-L-AcR were low, and supplementation of MRTX849/lapatinib with αPD-1 did not improve the outcome. Conclusions: Our study highlights the critical need for blocking both intrinsic and extrinsic mechanisms of resistance for the prolonged response and shows that such treatment is ineffective in KRASG12Ci-AcR tumors. [ABSTRACT FROM AUTHOR]

Published

2024

2. Evolutionary dynamics of tipifarnib in HRAS mutated head and neck squamous cell carcinoma.

Author

Jagadeeshan, Sankar, Suryamohan, Kushal, Shin, Nara, Mathukkada, Sooraj, Boyko, Alexandra, Melikhova, Daria, Tsareva, Anastasia, Yunusova, Leysan, Pravdivtseva, Ekaterina, Stupichev, Danil, Shaposhnikov, Kirill, Peterson, Angela, Bednyagin, Lev, Shugaev-Mendosa, Eduardo, Kessler, Linda, Burrows, Francis, Ho, Alan L., Agrawal, Nishant, Pearson, Alexander T., and Izumchenko, Evgeny

Subjects

*SQUAMOUS cell carcinoma, *HEAD & neck cancer, *NECK, *TUMOR microenvironment, *GENOMICS, *YAP signaling proteins

Abstract

• Tipifarnib is the first biomarker-selected targeted therapy for HNSCC; however, the mechanisms of resistance are poorly understood. • Tumor microenvironment in HRAS-mutated HNSCC shifts from immune-enriched to fibrotic with increased angiogenesis during tipifarnib therapy. • Tipifarnib efficacy is constrained by AKT pathway activation; dual therapy with PI3K inhibition enhances anti-tumor efficacy. Head and neck squamous cell carcinoma (HNSCC) is a highly prevalent malignancy worldwide, with a significant proportion of patients developing recurrent and/or metastatic (R/M) disease. Despite recent advances in therapy, the prognosis for patients with advanced HNSCC remains poor. Here, we present the case of a patient with recurrent metastatic HNSCC harboring an HRAS G12S mutation who achieved a durable response to treatment with tipifarnib, a selective inhibitor of farnesyltransferase. The patient was a 48-year-old woman who had previously received multiple lines of therapy with no significant clinical response. However, treatment with tipifarnib resulted in a durable partial response that lasted 8 months. Serial genomic and transcriptomic analyses demonstrated upregulation of YAP1 and AXL in metastatic lesions compared with the primary tumor, the evolution of the tumor microenvironment from an immune-enriched to a fibrotic subtype with increased angiogenesis, and activation of the PI3K/AKT/mTOR pathway in tipifarnib treatment. Lastly, in HRAS-mutated PDXs and in the syngeneic HRAS model, we demonstrated that tipifarnib efficacy is limited by activation of the AKT pathway, and dual treatment with tipifarnib and the PI3K inhibitor, BYL719, resulted in enhanced anti-tumor efficacy. Our case study highlights the potential of targeting HRAS mutations with tipifarnib in R/M HNSCC and identifies potential mechanisms of acquired resistance to tipifarnib, along with immuno-, chemo-, and radiation therapy. Preclinical results provide a firm foundation for further investigation of drug combinations of HRAS-and PI3K -targeting therapeutics in R/M HRAS-driven HNSCC. [ABSTRACT FROM AUTHOR]

Published

2024