EGFR amplification

P1/2, N=70, Terminated, VBI Vaccines Inc. | Recruiting --> Terminated; VBI Bankruptcy

However, current standard of care treatments such as surgical resection, radiotherapy, temozolomide, and tumor treating fields have reached a therapeutic plateau, highlighting the urgent need for new therapeutic strategies...We further synthesize recent advances in spatial and longitudinal profiling technologies to describe the dynamic tumor immune ecosystem. We discuss how spatial compartmentalization and evolutionary processes collectively drive immune escape and therapeutic resistance, and highlight emerging strategies including adaptive immunotherapy, precision targeted delivery, and multimodal monitoring to overcome these challenges.

However, PRMT5 inhibitors (e.g., GSK3326595 and JNJ-64619178) demonstrate antitumor effects in preclinical models and methylthioadenosine phosphorylase (MTAP) deletion may serve as a potential biomarker for patient selection. The clinical translation of PRMT5 inhibitors is limited by hematological toxicity, lack of robust predictive biomarkers beyond MTAP and potential resistance from compensatory PRMT family members. It is key to clarify GI cancer-specific PRMT5 mechanisms and potentially develop optimized combination therapies in the future.

In the high-CIN environment of EGFR-amplified GBM, in silico network perturbation suggested that POSTN may function as a candidate modulator of mitotic fidelity, potentially buffering against lethal genomic instability while sustaining rapid clonal evolution. Validated across multicenter cohorts, POSTN showed robust upregulation, strong diagnostic performance (AUC = 0.961), and significant prognostic relevance, emerging as a potential therapeutic vulnerability linking accelerated evolution with immune privilege in the GBM ecosystem.

By integrating tumor-restricted targeting and efficient intracellular drug delivery within a modular single-domain scaffold, vNAR R426 represents a next-generation theranostic platform capable of addressing intratumoral heterogeneity. This approach combines potent cytotoxic activity with immunofluorescence-based detection, thereby advancing the rational design of precision therapeutics for HER2-positive breast cancer.

Novel therapeutic approaches include KRAS-directed degradation techniques, pathway co-inhibition, rational combination methods, and therapy paradigms driven by the TME. To discover new molecules with long-lasting therapeutic effects, a system-level understanding of pathway interactions within the PDAC microenvironment is necessary.

The patient was switched to firmonertinib, with subsequent tumor regression. Five of the eleven cases harbored EGFR T790M, yielding a prevalence of 45%, which is similar to that seen in classical EGFR mutations. This case suggests that EGFR T790M mediates acquired resistance to first- and second-generation EGFR-TKIs in EGFR-KDD, mirroring the resistance pattern observed in classical EGFR mutations.

Together with mutations in PIK3CA, HRAS and FGFR3 they represent an alternative RTK/Ras/PI3K-mediated carcinogenesis pathway. More than half of advanced SCC irrespective of etiology harbored targetable CNA such as EGFR, MTAP, ATM.

A PDC with a PIK3CA activating mutation was sensitive to the PI3K inhibitor Alpelisib. We also demonstrated that PDCs harboring chromosome segregation errors were vulnerable to KIF18A deletion and pharmacological inhibition. These results support the value of HNSCC-derived PDCs as a platform for advances in precision medicine in oncology research.

The presence of CDK4, CCND2, PDGFRA, PIK3R1, MYCN, and EGFR alterations result in an intermediate patient survival in IDH-mutant astrocytoma. Adding these molecular alterations should be considered in future diagnostic classification systems to improve stratification of high-risk patients.

Targeting KAT7 or HELDR markedly enhances therapeutic effects of anti-EGFR treatments for GBM. These results not only reveal the role of HELDR in EGFR-amplified GBM but also provide a strong rationale to characterize the role of lncRNAs co-amplified with driver oncogenes in human cancers.

Standard-of-care surgery, radiation, and temozolomide yield a median survival of 14-16 months in patients with glioblastoma (GBM)...NGS yielded actionable alterations targeted after conventional surgery/chemoradiation therapy: imatinib (for KIT and PDGRA amplification) and bevacizumab (for KDR [VEGFR2] amplification); everolimus (mTOR inhibitor for TSC2 and PTEN loss-of-function alterations); and ivosidenib (IDH1 inhibitor for IDH1 mutations in two cases, including the oligosarcoma). Three patients remain in radiographic and clinical remission at 39+, 48, and 52+ months; the patient with oligosarcoma showed clinical and imaging response lasting 8 months. Our exceptional responders with high-grade gliomas suggest that biomarker-matched targeted therapy can benefit select patients with high-grade glioma and warrants prospective clinical trials.