Targetable Mutations Research Articles

Abstract B071: Identifying the clinical utility of CSF as a source of liquid biopsy in pediatric brain tumors

Abstract Pediatric tumors of the central nervous system (CNS) are a leading cause of cancer-related childhood mortality. Along with imaging, it is essential to molecularly characterize tumor tissue for the diagnosis, treatment, and prognosis of these cancers. Biopsies of deeply-seeded lesions may not be possible or may carry significant risks. On the other hand, liquid biopsy, using cerebral spinal fluid (CSF), provides a minimally invasive alternative to identify and monitor tumor DNA at crucial time points, from diagnosis to follow-up. This allows for molecular diagnosis, identification of therapeutic targets, monitoring response to therapy, and early detection of recurrence or progression. The aim of our study was to assess the practicality and usefulness of liquid biopsies in a diverse group of CNS tumor patients. We used a combination of methods, including a targeted hybridization capture panel and low-pass whole genome sequencing (LP-WGS) based on the sample characteristics. We analyzed a total of 243 CSF samples from patients with CNS tumors including: low-grade glioma (LGG; N=57), high-grade glioma (HGG; N=53), medulloblastoma (MB; N=40), germinoma (CNS-GCT; N=29), and no prior biopsy (N=42). We found somatic mutations in 88% of CSF samples from HGG and 67% from LGG with known tumor DNA variants and sufficient sequencing quality. It's important to note that in LGG patients, samples collected from lumbar puncture were positive only in disseminated cases, while a higher positivity rate was found in cases where CSF was collected from ventricular spaces. Moreover, we observed positive copy number alterations (CNA) in CSF samples collected from HGG, embryonal tumors, and CNS-GCT patients at the time of diagnosis and follow-up with a sensitivity of 64%. Within our sample cohort that had an unknown or query tumor due to no prior biopsy, we were able to detect diagnostic, targetable mutations and/or a positive CNA profile in 30% of cases. This supports the utility of liquid biopsy as a diagnostic tool in in CNS lesions. This tool may also assist in monitoring for relapse in high-grade tumors. For example, in a case study, we were able to detect recurrent MB by indication of a positive CNA profile in keeping with the primary tumor CNV, six years post-surgical resection. In CNS- GCT patients, we found that LP-WGS was highly sensitive at diagnosis as we have observed similar CNV in both CSF and tumor DNA. In summary, the utility of our liquid biopsy platform in the context of CNS cancers is an impactful tool that can aid clinicians in diagnosis, treatment and monitoring disease in a minimally invasive manner. Citation Format: Liana Nobre, Mansuba Rana, Yoshiko Nakano, Ian Burns, Robert Siddaway, Richard Yuditskiy, Cyril Li, Andrew Bondoc, Anthony Liu, Uri Taboori, Cynthia Hawkins. Identifying the clinical utility of CSF as a source of liquid biopsy in pediatric brain tumors [abstract]. In: Proceedings of the AACR Special Conference: Liquid Biopsy: From Discovery to Clinical Implementation; 2024 Nov 13-16; San Diego, CA. Philadelphia (PA): AACR; Clin Cancer Res 2024;30(21_Suppl):Abstract nr B071.

Abstract B040: Cell-free DNA captures inter- and intra-patient heterogeneity in advanced bladder cancer

Abstract Metastatic bladder cancer (BLCA) is an aggressive disease complicated by the emergence of variant histological subtypes. The UW/Fred Hutch metastatic BLCA rapid autopsy program is a first-of-its-kind program collecting cell-free DNA (cfDNA) and matched normal tissue, primary tumor, and metastatic tumor samples from advanced BLCA patients, with a focus on these variant subtype tumors. This dataset, consisting of 20 patients with up to five metastases per patient, is a unique opportunity to assess how cfDNA is able to capture heterogeneity across BLCA. We assessed both inter-patient heterogeneity between BLCA subtypes and inter-tumoral heterogeneity within each patient using epigenetic and genomic profiling. Using nucleosome profiling, we identified the activity of lineage markers and transcription factors that distinguish healthy individuals from BLCA patients, and between BLCA subtypes. Furthermore, we conducted a detailed analysis of whole genome (30X) and targeted (4,000X) cfDNA sequencing in their ability to capture the evolutionary history of tumor mutations. Detection of tumor mutations by cfDNA is highly dependent on clonality, with >90% of founder tumor mutations captured by either sequencing method, while capture is decreased for either subclonal mutations or those private to a single metastasis. Importantly, deleterious mutations in BLCA driver genes had close to 100% detection using targeted panel sequencing, even for subclonal mutations. These findings lay the groundwork for the use of cfDNA in clinical BLCA decision-making, including tracking the emergence of pathogenic, targetable mutations and variant subtypes. Citation Format: Samantha L Schuster, Pushpa Itagi, Sonali Arora, Patricia C Galipeau, Thomas W Persse, Michael Yang, Allie Kreitman, Alan Min, Funda Vakar-Lopez, John K Lee, Petros Grivas, Robert B Montgomery, Jonathan L Wright, Andrew C Hsieh, Hung- Ming Lam, Gavin Ha. Cell-free DNA captures inter- and intra-patient heterogeneity in advanced bladder cancer [abstract]. In: Proceedings of the AACR Special Conference: Liquid Biopsy: From Discovery to Clinical Implementation; 2024 Nov 13-16; San Diego, CA. Philadelphia (PA): AACR; Clin Cancer Res 2024;30(21_Suppl):Abstract nr B040.

BIOM-31. MOLECULAR ANALYSIS OF RESECTED BREAST CANCER BRAIN METASTASES REVEALS CEREBELLAR LOCATION AND TRIPLE NEGATIVE SUBTYPE ARE NEGATIVE PROGNOSTIC FACTORS

Abstract BACKGROUND Brain metastases (BMs) are a significant cause of morbidity and mortality in metastatic breast cancer (MBC), yet prognostic and predictive biomarkers remain poorly understood. STUDY DESIGN 90 consecutive patients with breast cancer BMs who underwent surgical resection from 2006-2022 were retrospectively identified. Review of the electronic medical record and institutional cancer registry were completed to identify baseline clinical parameters and outcomes. BM mutation analysis was performed using a CLIA-certified targeted DNA mutation sequencing assay as part of routine clinical care. RESULTS All patients were female, median age at first BM resection was 57.9 years (range 27.0-81.3 years), and receptor subtypes included HR+/HER2- (n=27, 30.0%), HER2+ (n=33, 36.7%), and triple negative BC (TNBC; n=30, 33.3%). At time of first BM resection, most patients had a solitary BM (n=55, 61.1%), with anatomic locations including cerebellar (n=29, 32.2%), frontal (n=26, 28.9%), and parietal (n=17, 18.9%) sites. BM DNA mutation analysis (n= 20) revealed pathogenic alterations in TP53 (n=17, 85.0%), ERBB2 amplification (n=7, 35.0%), PIK3CA (n=4, 20.0%), BRCA1 (n=3, 15.0%), and BRCA2 (n=2, 10.0%). Most patients received postoperative radiation (n=82, 90.8%) and/or systemic therapy (n=67, 82.7%). Cerebellar location was significantly associated with the risk of developing leptomeningeal disease compared to other BM resection sites (HR = 2.75, p=0.02). Among all patients, median overall survival (OS) from first BM resection was 27.8 months (range 0.1-196.6 months). HR+/HER2- (median 37 months) or HER2+ (median 36 months) MBC was associated with significantly increased OS compared to TNBC (14.4 months) (p<0.01, log-rank test). CONCLUSIONS Patients with breast cancer BMs exhibited a median OS of >2 years following BM resection, and patients with TNBC had a significantly worse prognosis. Targetable mutations were observed in 40% of resected BM specimens, supporting the utility of molecular analysis of resected BMs to help guide clinical management.

BIOM-28. WHOLE EXOME TUMOR MOLECULAR PROFILING FROM CEREBROSPINAL FLUID (CSF): PRELIMINARY RESULTS OF A PILOT STUDY

Abstract BACKGROUND Tissue sampling for molecular profiling has become an integral part of the diagnosis, prognosis, and management of CNS malignancies. However, many tumors are surgically inaccessible, and even biopsy of accessible lesions conveys some risk, and the possibility of sampling error. We evaluated the accuracy and potential utility of CSF liquid biopsy for identifying mutations in patients with intracranial tumors. METHODS CSF samples were collected from ventricular reservoirs and stored at -80 degrees Celsius until analyzed. Cell-free nucleic acids were extracted, concentrated, and quantified. Samples over 110ng quantification were normalized to 110ng and input into library prep. Library prep was done using v3.5 of Caris Assure and whole exome sequencing in an S2 FC on a Novaseq 6000. Bioinformatic analysis was performed. RESULTS CSF samples were obtained from 20 patients (10 gliomas, 5 CNS lymphomas, 5 metastases), 19 of whom also had tumor specimens available. Two hundred eighty-one mutations were identified: 17 (6.6%) in tumor only, 184 (72.4%) in CSF only, and 80 (31.5%) in both. Key alterations found in CSF include: IDH, TERT, ATRX in gliomas, and MYD88, PIM1, BCL2, TERT in lymphomas. Glioma CSF with IDH1 mutations did not have PTEN mutations (with one exception, in which the CSF was collected 3 years after the tissue). Targetable mutations in metastases included PIK3CA, NF1, and BRCA. CONCLUSION These preliminary results suggest that CSF liquid biopsy may be useful for identifying mutations in primary and metastatic brain tumors. Serial sampling is feasible, and may disclose changes in diagnostic and/or driver mutations over time, with important therapeutic and diagnostic implications. Many mutations were found in CSF alone. CSF may capture the entire molecular landscape of the tumor, overcoming the sampling error inherent in tissue biopsies. Prospective studies are underway to further elucidate the clinical applications of this technique.

DDEL-05. IMPRESSIVE RESPONSE TO IDH-INHIBITOR THERAPY IN IDH-MUTANT, H3K27M INTACT BRAINSTEM GLIOMAS

Abstract IDH-mutated brainstem gliomas in adults are a rare entity, with only a handful of cases reported in the literature. Diagnosis and treatment of these gliomas remain challenging. There is significant morbidity associated with a surgical biopsy, thus biopsies are often deferred, and tumors of the brainstem are treated presumptively with radiation and temozolomide. However, in the presence of new targeted therapies, confirming pathology for these patients is becoming increasingly important. We present two cases of IDH-mutant grade 2 astrocytomas of the brainstem that revealed both clinical and radiographic responses to IDH-inhibitor therapy. Interestingly, both patients had the same non-canonical IDH mutation, IDH-R132C, towards which ivosedinib is known to have activity. One patient had tumor progression following radiation therapy and 8 cycles of temozolomide and had subsequently exhibited a dramatic radiographic improvement, including resolution of enhancing disease following initiation of ivosidenib therapy. Clinically, this patient improved from a KPS 50 to KPS 100 after 2.5 years of ivosedinib. The other patient also had an impressive clinical improvement after only 3 months of ivosedinib treatment, with radiographic stability, improvement in balance, and resolution of his previous refractory nausea. These case reports suggest that consideration should be given to brainstem biopsy in adults specifically to evaluate for the presence of a targetable IDH mutation.

PATH-61. GENOMIC SIGNATURE IN NON-SMALL CELL LUNG CANCER PATIENTS METASTATIC TO BRAIN-A SINGLE INSTITUTION EXPERIENCE

Abstract BACKGROUND Lung cancer is leading cause of cancer-related death in US, with 10-30 % of NSCLC patients developing brain metastasis, which challenges curative treatment and life expectancy. Somatic mutations in KRAS and EGFR genes have been commonly implicated with brain metastasis. Other studies have shown higher amplification frequencies in MYC, YAP1, and MMP13 and deletions in CDKN2A/B. METHODS We conducted a retrospective study on observational cohort of NSCLC patients from January 2022 to July 2023, using IRB-approved data in patients with confirmed brain metastasis (CBS). Beyond demographic information, data on genomic signatures was obtained from maximum parallel/next-generation sequencing on tumor biopsy samples. Comparative analysis was conducted to predict commonalities in brain metastasis gene signatures. RESULTS The study involved 143 newly diagnosed lung cancer patients, with 29 having CBS. Genomic data was available in 24 patients. Most common abnormality was noted in TP53 gene in about 47% of patients, followed by LRP1B (12%). Mutations in KRAS, EGFR, NF1, MET, SMARCA4, KEAP1, and STK11 genes were seen in two patients each. Interestingly, 3 of 4 patients with LRP1B had brain metastasis. Actionable mutations/rearrangements were significantly lower compared to general prevalence of these mutations (KRAS gene 8% and EGFR gene 5%). CONCLUSIONS Lung cancer with brain metastasis has an abysmal prognosis due to poor CNS penetration of chemotherapeutic agents. Surgical resection and RT remain cornerstones of treatment, but certain TKI has shown some potential. Our study uncovered a notably higher prevalence of TP53 mutation among patients with brain metastasis. While patient cohort was small, those harboring an LRP1B mutation exhibited significantly higher incidence of brain metastasis. Contrary to prevalent epidemiological data, our patient population demonstrated a lower frequency of targetable mutations (specifically in EGFR and KRAS genes). We hypothesize that this observation is due to a markedly higher smoking prevalence in our region.

NCOG-33. MTOR INHIBITORS AS ADJUVANT TARGETED THERAPY IN PEDIATRIC PATIENTS WITH PROGRESSIVE OR REFRACTORY LOW-GRADE GLIOMA: A SINGLE-CENTER RETROSPECTIVE STUDY

Abstract Low grade gliomas (LGG) represent about one-third of all pediatric central nervous system tumors, with about half having disease progression despite upfront surgery and adjuvant therapies. Current treatments for LGG progression either produce toxic side effects (i.e., radiation therapy) or do not generate durable responses. Targeted agents are an effective way of attacking tumors with identified genetic mutations, but in some cases, a complete response can be subverted by the heterogeneity of tumors. Additionally, most tumors do not carry any targetable mutations. Temsirolimus and everolimus are mTOR inhibitors that have previously been shown to be well-tolerated in early clinical studies in pediatric solid tumors. We performed a retrospective study to look at the toxicity profile of mTOR inhibitors when given in combination therapy and treatment response in patients with progressive or refractory LGG. We examined 20 patients with a diagnosis of LGG including mixed glioma and glioneuronal tumors who received treatment at our institution from 2016-2024 with targeted therapy, of which 8 patients also received temsirolimus or everolimus. Of these 8 patients, 2 had partial response, 2 had minor response, 3 had stable disease, and 1 had progressive disease. The average number of cycles received was 13.6 (range 3-24). Most observed side effects were grade 2 or less, including nausea, transaminitis, myelosuppression, diarrhea, and hyperlipidemia while grade 3/4 toxicities that required dose modification included mucositis, hyperglycemia, and hyperlipidemia. Overall, the addition of temsirolimus to treatment regimens of pediatric patients with heavily pretreated refractory LGG prolonged progression free survival by an average of 478 days with only one patient progressing while on therapy. These results demonstrate feasibility and preliminary efficacy of adding mTOR inhibitors as adjuvant therapy in this patient population. There is dire need of large prospective collaborative studies in the future.

Real-world evidence for pembrolizumab in non-small cell lung cancer: a nationwide cohort study.

Based on favourable results from clinical trials, immune checkpoint inhibitors (ICI) have become the standard first line (1 L) systemic anticancer treatment (SACT) for advanced stage non-small cell lung cancer (NSCLC) without targetable mutations. We evaluate whether these results are generalizable to everyday clinical practice and compare overall survival (OS) of patients treated with ICI to a historical cohort of patients treated with chemotherapy and results from clinical trials. Our study comprised all advanced NSCLC patients initiating SACT in 2012-21 in Norway. Clinical characteristics and treatment information was retrieved from Norwegian Health Registries. Survival for all 8416 advanced NSCLC patients treated with SACT increased concurrently with the gradual implementation of ICIs. Median OS of patients treated with 1 L pembrolizumab after 2017 was better (mono-/combination therapy: 13.8/12.8 months) than for patients treated with chemotherapy before 2017 (8.0 months). Although median OS for patients treated with pembrolizumab was lower in clinical practice than clinical trials (Keynote-024/189: 26.3/22.0 months), the survival benefit relative to chemotherapy was similar. Our nationwide study demonstrated a survival benefit over conventional chemotherapy of a similar magnitude as observed in clinical trials and confirms the effectiveness of pembrolizumab in routine clinical practice.

Advanced Granulosa Cell Tumors of the Ovary: A Review with a Focus on Current and Novel Therapeutic Approaches

ABSTRACT Granulosa cell tumor (GCT) is the most common nonepithelial ovarian malignancy. Still, it is considered rare, with a paucity of high-level evidence guiding management, particularly in the metastatic setting. Advancements in molecular pathology allowed the identification of several targetable mutations that play an important role in GCT pathogenesis. Although current management approaches rely on guidelines extrapolated from the more common epithelial subtype, the unique histopathologic and molecular characteristics of GCTs entail a more focused approach. Systemic therapy remains the cornerstone treatment for advanced disease, and although chemotherapy has been the standard for decades, targeted treatments have gained considerable attention lately. Due to the rarity of this disease, validation of new therapies in large trials is the rate-limiting step for developing evidence-based recommendations. This review sheds light on pathogenesis, clinical and molecular characteristics, and prognostic factors, and discusses current treatment options including the role of novel therapies and immune checkpoint inhibitors in advanced GCT.

HRD and other targetable mutations in ovarian cancer: The importance of tumor site of origin and cell type

HRD and other targetable mutations in ovarian cancer: The importance of tumor site of origin and cell type

The landscape of targetable gene mutations in neuroendocrine cervical cancer

The landscape of targetable gene mutations in neuroendocrine cervical cancer

HPV-negative cervical cancer: Exploring targetable mutations using next-generation sequencing

HPV-negative cervical cancer: Exploring targetable mutations using next-generation sequencing

Patterns of loco-regional progression and patient outcomes after definitive-dose radiation therapy for anaplastic thyroid cancer

BackgroundThe aim of this study is to characterize the patterns of loco-regional progression (LRP) and outcomes after definitive-dose intensity modulated radiation therapy (IMRT) for anaplastic thyroid cancer (ATC) with macroscopic neck disease at the time of IMRT. MethodsDisease/treatment characteristics and outcomes for patients with unresected or incompletely resected ATC who received IMRT (≥45 Gy) were retrospectively reviewed. For those with LRP after IMRT, progressive/recurrent gross tumor volumes (rGTV) were contoured on diagnostic CTs and co-registered with initial planning CTs using deformable image registration. rGTVs were classified based on established spatial/dosimetric criteria. ResultsForty patients treated between 2010–2020 formed the cohort. Median IMRT dose was 66 Gy (45–70 Gy); altered fractionation (AF) was used in 24 (60 %). All received concurrent chemotherapy. In addition to areas of gross disease, target volumes (TVs) commonly included: central compartment/upper mediastinum (levels VI/VII), neck levels II-V in an involved, and levels III-IV in an uninvolved lateral neck. Median overall survival was 7.1 m. Median progression free survival was 7.4 m for patients with locoregional disease and 1.8 m for patients with distant metastasis at the time of IMRT. Twenty-one patients (53 %) developed LRP at median of 10.9 m; freedom from LRP at 3 m and 12 m was 71 % (95 %CI 58–87 %) and 47 % (95 %CI 32–68 %). Forty-one individual rGTVs were identified and most occurred within the high dose (HD) TVs: Type A/central HD (n = 29, 71 %) and B/peripheral HD (n = 3, 7 %). ConclusionsDespite an intensive treatment schedule, including AF and concurrent chemotherapy, classic radio-resistant and rapid Type A failures predominated; isolated extraneous dose failures were rare. While these findings support the IMRT and TV delineation strategies described herein, they highlight the importance of identifying novel strategies to further improve LRC for patients with unresectable disease without targetable mutations for contemporary neo-adjuvant strategies.

The Impact of Next-Generation Sequencing Workflows on Outcomes in Advanced Lung Cancer: A Retrospective Analysis at One Academic Health System

Purpose: Broad-based molecular testing with next-generation sequencing (NGS) is now the standard of care in advanced non-small cell lung cancer (NSCLC). Two approaches to molecular testing are (1) reflexive testing at pathologic NSCLC confirmation, often using an in-house molecular panel, and (2) send-out testing to private vendors, ordered by a clinician. This study explored the outcomes with reflex versus send-out testing. Methods: A retrospective chart review was conducted of patients diagnosed with de novo stage IV NSCLC in 2019 and 2020 at three hospitals in the same system, one academic hospital (Northwestern Memorial Hospital, or NMH) utilizing reflex, in-house NGS, and two community-based hospitals (Central DuPage Hospital, or CDH, and Delnor, or D) sending out tissue samples for testing. The outcomes assessed were the time from biopsy to results, biopsy to treatment, the incidence of first-line targetable mutations and the use of first-line targeted therapies, and overall survival. Results: In total, 191 patients met the inclusion criteria, 85 at NMH, 106 at CDH + D, and in total, 131 in 2019 and 60 in 2020. The time to results was significantly shorter with reflexive NGS when compared with send-out testing; the time to treatment was also shorter but not statistically significant. At CDH + D, the time to results was significantly shorter with a limited panel than with comprehensive testing, but the time to treatment was similar. NGS testing rates were 95% at NMH and 84.5% at CDH + D (p = 0.009), with 31.0% at NMH receiving 1L targeted therapies versus 20.8% at CDH + D (p = 0.08). In 2019, the median time from biopsy to treatment was 35 days at NMH and 38 days at CDH and Delnor; in 2020, time to treatment was 26 days and 37 days, respectively. Overall survival trended longer in 2020 relative to 2019 independent of site. Conclusion: Reflexive NGS testing is associated with a shorter time to actionable results and higher rates of first-line targetable mutations than send-out testing. In practices with send-out testing, limited panels had slightly faster turnaround times but no difference in time to treatment. If resources allow, reflexive NGS should be considered in healthcare systems for patients with NSCLC.

Detection of Two Common ACCase Mutations Associated with High Levels of Fenoxaprop-P-Ethyl Resistance in Shortawn Foxtail (Alopecurus aequalis) Using Loop-Mediated Isothermal Amplification

Abstract The resistance to fenoxaprop-P-ethyl, a herbicide that inhibits acetyl-CoA carboxylase (ACCase), has emerged in shortawn foxtail (Alopecurus aequalis Sobol.) since the 1990s, presenting a considerable challenge to wheat (Triticum aestivum L.) production in China. One of the primary mechanisms responsible for this high-level resistance is the presence of mutations at codons 1781, 2041, and 2078 in the ACCase gene. However, the conventional methods used to detect these mutations, such as polymerase chain reaction (PCR) and gene sequencing, are time-consuming and labor-intensive. To address this issue and enable the prompt and effective detection of these common ACCase mutations in A. aequalis, a loop-mediated isothermal amplification (LAMP) strategy was developed. The LAMP assay specifically targets the Ile-1781-Leu and Asp-2078-Gly mutations within the ACCase gene of A. aequalis. Through the optimization of primers, systems, and conditions, the LAMP assay enables rapid differentiation between wild-type individuals and mutants of A. aequalis carrying either of these two mutations. By including SYBR Green I dye in the final reaction mixtures, the target mutation can be visually detected through a noticeable color change that can be observed with the naked eye. It is noteworthy that the sensitivity of the LAMP assay was approximately 104-fold greater than that of conventional PCR methods. Additionally, a derived cleaved amplified polymorphic sequence (dCAPS) assay was established for each mutation to distinguish between homozygous and heterozygous mutants. Overall, the developed LAMP assay could efficiently detect the Ile-1781-Leu and Asp-2078-Gly mutations in the ACCase gene of A. aequalis, offering significant advantages for the monitoring and management of fenoxaprop-P-ethyl resistance.

Optimization of loop mediated isothermal amplification assay (LAMP) for detection of chloroquine resistance in P. vivax malaria

Chloroquine is still used as a first-line treatment for uncomplicated Plasmodium vivax malaria in India and resistance to this therapy can act as a major hurdle for malaria elimination. It is difficult to monitor drug-efficacy and drug resistance through in vivo and in vitro studies in case of Plasmodium vivax so analysis of molecular markers serves as an important tool to track resistance. Molecular methods that are currently in use for detecting single nucleotide polymorphisms in resistant genes including Polymerase chain reaction (PCR), Realtime-Polymerase chain reaction require highly sophisticated labs and are time consuming. So, with this background the study has been designed to optimize Loop Mediated Isothermal Amplification Assay to detect single nucleotide polymorphisms in chloroquine resistance gene of Plasmodium vivax in field settings. Eighty-eight Plasmodium vivax positive samples were collected. Pvmdr1 gene was amplified for all the samples and sequenced. Obtained sequences were analyzed for the presence of single nucleotide polymorphisms in the target gene. Further Loop Mediated Isothermal Amplification Assay primer sets were designed for the target mutants and the assay was optimized. Clinical as well as analytical sensitivity and specificity for the assay was calculated. Double mutants with variations at T958M and F1076L were detected in 100% of the Plasmodium vivax clinical isolates with haplotype M958 Y976 Y1028 L1076. Designed primers for Loop Mediated Isothermal Amplification Assay successfully detected both the mutants (T958M and F1076L) in 100% of the isolates and do not show cross-reactivity with other strains. So, the assay was 100% sensitive and specific for detecting single nucleotide polymorphisms in the target Pvmdr1 gene. Limit of detection was found to be 0.9 copies/µl and lowest DNA template concentration detected by designed assay was 1.5 ng/µL. Observed prevalence of single nucleotide polymorphisms in Pvmdr 1 gene is indicating a beginning of trend towards chloroquine resistance in Plasmodium vivax. The present study optimized LAMP for detecting single nucleotide polymorphisms in Plasmodium vivax cases in field settings, thus would help in finding significant hubs of emerging chloroquine drug resistance and ultimately helping in the management of suitable antimalarial drug policy.

Selective targeting of oncogenic hotspot mutations of the HER2 extracellular domain.

Oncogenic mutations in the extracellular domain (ECD) of cell-surface receptors could serve as tumor-specific antigens that are accessible to antibody therapeutics. Such mutations have been identified in receptor tyrosine kinases including HER2. However, it is challenging to selectively target a point mutant, while sparing the wild-type protein. Here we developed antibodies selective to HER2 S310F and S310Y, the two most common oncogenic mutations in the HER2 ECD, via combinatorial library screening and structure-guided design. Cryogenic-electron microscopy structures of the HER2 S310F homodimer and an antibody bound to HER2 S310F revealed that these antibodies recognize the mutations in a manner that mimics the dimerization arm of HER2 and thus inhibit HER2 dimerization. These antibodies as T cell engagers selectively killed a HER2 S310F-driven cancer cell line in vitro, and in vivo as a xenograft. These results validate HER2 ECD mutations as actionable therapeutic targets and offer promising candidates toward clinical development.

Precision Oncology in Older Cancer Patients: A Single-Center Experience

In the last two decades, next-generation sequencing (NGS) has facilitated enormous progress in cancer medicine, in both diagnosis and treatment. However, the usefulness of NGS in older cancer patients is unclear. To determine the role of NGS in older cancer patients, we retrospectively assessed demographic, clinicopathologic, and disease-specific data from 100 randomly selected cancer patients (any subtype/stage) who underwent NGS testing in 2020 at our institution and compared the treatment outcomes (progression-free survival [PFS] and overall survival [OS]) in the younger and older patient cohorts (A [n = 34] and B [n = 66]: age <70 and ≥70 years, respectively). Overall, 27% had targetable mutations, and 8% received NGS-determined targeted therapy (45% and 19% of patients with a targetable mutation in cohorts A and B, respectively; p = 0.2), of whom 38% (3% of the whole cohort) benefited from the therapy (PFS > 6 months). The median OS (from diagnosis) was 192 and 197 weeks in cohorts A and B, respectively (p = 0.08). This pilot study revealed no significant age-stratified difference in the diagnostic approach and treatment strategy. A small, but relevant, proportion of the cohort (3%) benefited from NGS-determined treatment. Nevertheless, older cancer patients with targetable mutations less frequently received targetable therapies.

An open-access dashboard to interrogate the genetic diversity of Mycobacterium tuberculosis clinical isolates.

Tuberculosis (TB) remains one of the leading infectious disease killers in the world. The ongoing development of novel anti-TB medications has yielded potent compounds that often target single sites with well-defined mechanisms of action. However, despite the identification of resistance-associated mutations through target deconvolution studies, comparing these findings with the diverse Mycobacterium tuberculosis populations observed in clinical settings is often challenging. To address this gap, we constructed an open-access database encompassing genetic variations from > 50,000 clinical isolates, spanning the entirety of the M. tuberculosis protein-encoding genome. This resource offers a valuable tool for investigating the prevalence of target-based resistance mutations in any drug target within clinical contexts. To demonstrate the practical application of this dataset in drug discovery, we focused on drug targets currently undergoing phase II clinical trials. By juxtaposing genetic variations of these targets with resistance mutations derived from laboratory-adapted strains, we identified multiple positions across three targets harbouring resistance-associated mutations already present in clinical isolates. Furthermore, our analysis revealed a discernible correlation between genetic diversity within each protein and their predicted essentiality. This meta-analysis, openly accessible via a dedicated dashboard, enables comprehensive exploration of genetic diversity pertaining to any drug target or resistance determinant in M. tuberculosis.

Neoantigen-Based Cancer Vaccines: Current Innovations, Challenges, And Future Directions In Personalized Immunotherapy

The development of neoantigen-based cancer vaccines represents a breakthrough in personalized immunotherapy due to their ability to elicit strong and effective tumor-specific immune responses. Unlike conventional cancer vaccines, neoantigen vaccines target mutations found explicitly in tumor cells, thus maximizing specificity and minimizing immune tolerance. The review explores the current status of neoantigen vaccines and their mechanisms, development, and clinical applications. In contrast, it also explores the challenges of personalized vaccines, such as identifying neoantigens and their manufacturing, along with biological factors and regulatory hurdles. Future innovations and strategies are discussed to overcome resistance and relapse. Critical issues like global access, equity, and scalability must be addressed for its more comprehensive imple-mentation. This review article discusses the potential of neoantigen vaccines in cancer therapy, detailing ongoing research and clinical trials, while addressing the persistent challenges that must not be underestimated.