Your search keyword '"Auslander, Noam"' showing total 8 results

1. Mutated processes predict immune checkpoint inhibitor therapy benefit in metastatic melanoma.

Author

Patterson, Andrew and Auslander, Noam

Abstract

Immune Checkpoint Inhibitor (ICI) therapy has revolutionized treatment for advanced melanoma; however, only a subset of patients benefit from this treatment. Despite considerable efforts, the Tumor Mutation Burden (TMB) is the only FDA-approved biomarker in melanoma. However, the mechanisms underlying TMB association with prolonged ICI survival are not entirely understood and may depend on numerous confounding factors. To identify more interpretable ICI response biomarkers based on tumor mutations, we train classifiers using mutations within distinct biological processes. We evaluate a variety of feature selection and classification methods and identify key mutated biological processes that provide improved predictive capability compared to the TMB. The top mutated processes we identify are leukocyte and T-cell proliferation regulation, which demonstrate stable predictive performance across different data cohorts of melanoma patients treated with ICI. This study provides biologically interpretable genomic predictors of ICI response with substantially improved predictive performance over the TMB.Tumour mutational burden is a biomarker of immune checkpoint inhibitor response, but their association is not fully understood. Here, the authors train classifiers to identify key mutated processes which show stable predictive performance in multiple melanoma cohorts. [ABSTRACT FROM AUTHOR]

Published

2022

2. Gene-expression profiles of pretreatment biopsies predict complete response of rectal cancer patients to preoperative chemoradiotherapy.

Author

Emons, Georg, Auslander, Noam, Jo, Peter, Kitz, Julia, Azizian, Azadeh, Hu, Yue, Hess, Clemens F., Roedel, Claus, Sax, Ulrich, Salinas, Gabriela, Stroebel, Philipp, Kramer, Frank, Beissbarth, Tim, Grade, Marian, Ghadimi, Michael, Ruppin, Eytan, Ried, Thomas, and Gaedcke, Jochen

Subjects

*BIOPSY, *TREATMENT effectiveness, *RECTUM, *RESEARCH funding, *COMBINED modality therapy, RECTUM tumors

Abstract

Purpose: Preoperative (neoadjuvant) chemoradiotherapy (CRT) and total mesorectal excision is the standard treatment for rectal cancer patients (UICC stage II/III). Up to one-third of patients treated with CRT achieve a pathological complete response (pCR). These patients could be spared from surgery and its associated morbidity and mortality, and assigned to a "watch and wait" strategy. However, reliably identifying pCR based on clinical or imaging parameters remains challenging.Experimental Design: We generated gene-expression profiles of 175 patients with locally advanced rectal cancer enrolled in the CAO/ARO/AIO-94 and -04 trials. One hundred and sixty-one samples were used for building, training and validating a predictor of pCR using a machine learning algorithm. The performance of the classifier was validated in three independent cohorts, comprising 76 patients from (i) the CAO/ARO/AIO-94 and -04 trials (n = 14), (ii) a publicly available dataset (n = 38) and (iii) in 24 prospectively collected samples from the TransValid A trial.Results: A 21-transcript signature yielded the best classification of pCR in 161 patients (Sensitivity: 0.31; AUC: 0.81), when not allowing misclassification of non-complete-responders (False-positive rate = 0). The classifier remained robust when applied to three independent datasets (n = 76).Conclusion: The classifier can identify >1/3 of rectal cancer patients with a pCR while never classifying patients with an incomplete response as having pCR. Importantly, we could validate this finding in three independent datasets, including a prospectively collected cohort. Therefore, this classifier could help select rectal cancer patients for a "watch and wait" strategy.Translational Relevance: Forgoing surgery with its associated side effects could be an option for rectal cancer patients if the prediction of a pathological complete response (pCR) after preoperative chemoradiotherapy would be possible. Based on gene-expression profiles of 161 patients a classifier was developed and validated in three independent datasets (n = 76), identifying over 1/3 of patients with pCR, while never misclassifying a non-complete-responder. Therefore, the classifier can identify patients suited for "watch and wait". [ABSTRACT FROM AUTHOR]

Published

2022

3. Interplay between DNA damage repair and apoptosis shapes cancer evolution through aneuploidy and microsatellite instability.

Author

Auslander, Noam, Wolf, Yuri I., and Koonin, Eugene V.

Subjects

DNA repair, DNA damage, CHROMOSOME abnormalities, ENDOMETRIAL tumors, DNA mismatch repair, GASTROINTESTINAL tumors

Abstract

Driver mutations and chromosomal aneuploidy are major determinants of tumorigenesis that exhibit complex relationships. Here, we identify associations between driver mutations and chromosomal aberrations that define two tumor clusters, with distinct regimes of tumor evolution underpinned by unique sets of mutations in different components of DNA damage response. Gastrointestinal and endometrial tumors comprise a separate cluster for which chromosomal-arm aneuploidy and driver mutations are mutually exclusive. The landscape of driver mutations in these tumors is dominated by mutations in DNA repair genes that are further linked to microsatellite instability. The rest of the cancer types show a positive association between driver mutations and aneuploidy, and a characteristic set of mutations that involves primarily genes for components of the apoptotic machinery. The distinct sets of mutated genes derived here show substantial prognostic power and suggest specific vulnerabilities of different cancers that might have therapeutic potential. The interplay between driver mutations and aneuploidy during tumorigenesis is largely unexplored. Here, the authors show two types of associations, leading to different therapeutic vulnerabilities and prognoses. [ABSTRACT FROM AUTHOR]

Published

2020

4. Author Correction: Mutated processes predict immune checkpoint inhibitor therapy benefit in metastatic melanoma.

Author

Patterson, Andrew and Auslander, Noam

Subjects

IMMUNE checkpoint inhibitors, CELLULAR control mechanisms, MELANOMA, METASTASIS

Abstract

The original version of the Supplementary Information associated with this article contained an error in Supplementary Fig. Correction to: I Nature Communications i https://doi.org/10.1038/s41467-022-32838-4, published online 19 September 2022 The original version of this article contained an error in Fig. [Extracted from the article]

Published

2023

5. Harnessing synthetic lethality to predict the response to cancer treatment.

Author

Joo Sang Lee, Das, Avinash, Jerby-Arnon, Livnat, Arafeh, Rand, Auslander, Noam, Davidson, Matthew, McGarry, Lynn, James, Daniel, Amzallag, Arnaud, Seung Gu Park, Kuoyuan Cheng, Robinson, Welles, Atias, Dikla, Stossel, Chani, Buzhor, Ella, Stein, Gidi, Waterfall, Joshua J., Meltzer, Paul S., Golan, Talia, and Hannenhalli, Sridhar

Subjects

CANCER treatment, DRUG efficacy, SYNTHETIC biology, ISLANDS

Abstract

While synthetic lethality (SL) holds promise in developing effective cancer therapies, SL candidates found via experimental screens often have limited translational value. Here we present a data-driven approach, ISLE (identification of clinically relevant synthetic lethality), that mines TCGA cohort to identify the most likely clinically relevant SL interactions (cSLi) from a given candidate set of lab-screened SLi. We first validate ISLE via a benchmark of large-scale drug response screens and by predicting drug efficacy in mouse xenograft models. We then experimentally test a select set of predicted cSLi via new screening experiments, validating their predicted context-specific sensitivity in hypoxic vs normoxic conditions and demonstrating cSLi’s utility in predicting synergistic drug combinations. We show that cSLi can successfully predict patients’ drug treatment response and provide patient stratification signatures. ISLE thus complements existing actionable mutation-based methods for precision cancer therapy, offering an opportunity to expand its scope to the whole genome. [ABSTRACT FROM AUTHOR]

Published

2018

6. Functional Genomic Complexity Defines Intratumor Heterogeneity and Tumor Aggressiveness in Liver Cancer.

Author

Kwon, So Mee, Budhu, Anuradha, Woo, Hyun Goo, Chaisaingmongkol, Jittiporn, Dang, Hien, Forgues, Marshonna, Harris, Curtis C., Zhang, Gao, Auslander, Noam, Ruppin, Eytan, Mahidol, Chulabhorn, Ruchirawat, Mathuros, and Wang, Xin Wei

Subjects

LIVER cancer, CANCER treatment, ANEUPLOIDY, LYMPHOCYTES, IMMUNE response

Abstract

Chronic inflammation and chromosome aneuploidy are major traits of primary liver cancer (PLC), which represent the second most common cause of cancer-related death worldwide. Increased cancer fitness and aggressiveness of PLC may be achieved by enhancing tumoral genomic complexity that alters tumor biology. Here, we developed a scoring method, namely functional genomic complexity (FGC), to determine the degree of molecular heterogeneity among 580 liver tumors with diverse ethnicities and etiologies by assessing integrated genomic and transcriptomic data. We found that tumors with higher FGC scores are associated with chromosome instability and TP53 mutations, and a worse prognosis, while tumors with lower FGC scores have elevated infiltrating lymphocytes and a better prognosis. These results indicate that FGC scores may serve as a surrogate to define genomic heterogeneity of PLC linked to chromosomal instability and evasion of immune surveillance. Our findings demonstrate an ability to define genomic heterogeneity and corresponding tumor biology of liver cancer based only on bulk genomic and transcriptomic data. Our data also provide a rationale for applying this approach to survey liver tumor immunity and to stratify patients for immune-based therapy. [ABSTRACT FROM AUTHOR]

Published

2019

7. Microbial gene expression analysis of healthy and cancerous esophagus uncovers bacterial biomarkers of clinical outcomes.

Author

Schäffer, Daniel E., Li, Wenrui, Elbasir, Abdurrahman, Altieri, Dario C., Long, Qi, and Auslander, Noam

Subjects

*MICROBIAL genes, *GENE expression, *ESOPHAGUS, *TREATMENT effectiveness, *RNA sequencing, *BIOINFORMATICS, *MICROAGGRESSIONS, *BACTERIA classification

Abstract

Local microbiome shifts are implicated in the development and progression of gastrointestinal cancers, and in particular, esophageal carcinoma (ESCA), which is among the most aggressive malignancies. Short-read RNA sequencing (RNAseq) is currently the leading technology to study gene expression changes in cancer. However, using RNAseq to study microbial gene expression is challenging. Here, we establish a new tool to efficiently detect viral and bacterial expression in human tissues through RNAseq. This approach employs a neural network to predict reads of likely microbial origin, which are targeted for assembly into longer contigs, improving identification of microbial species and genes. This approach is applied to perform a systematic comparison of bacterial expression in ESCA and healthy esophagi. We uncover bacterial genera that are over or underabundant in ESCA vs healthy esophagi both before and after correction for possible covariates, including patient metadata. However, we find that bacterial taxonomies are not significantly associated with clinical outcomes. Strikingly, in contrast, dozens of microbial proteins were significantly associated with poor patient outcomes and in particular, proteins that perform mitochondrial functions and iron-sulfur coordination. We further demonstrate associations between these microbial proteins and dysregulated host pathways in ESCA patients. Overall, these results suggest possible influences of bacteria on the development of ESCA and uncover new prognostic biomarkers based on microbial genes. In addition, this study provides a framework for the analysis of other human malignancies whose development may be driven by pathogens. [ABSTRACT FROM AUTHOR]

Published

2023

8. A joint analysis of transcriptomic and metabolomic data uncovers enhanced enzyme-metabolite coupling in breast cancer.

Author

Auslander, Noam, Yizhak, Keren, Weinstock, Adam, Budhu, Anuradha, Tang, Wei, Wang, Xin Wei, Ambs, Stefan, and Ruppin, Eytan

Published

2016