A Systems Biology and LASSO-Based Approach to Decipher the Transcriptome–Interactome Signature for Predicting Non-Small Cell Lung Cancer

Ahmed, Firoz; Khan, Abdul Arif; Ansari, Hifzur Rahman; Haque, Absarul

doi:10.3390/biology11121752

Cited by 6 publications

(4 citation statements)

References 73 publications

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“…As such it is commonly used in studies in fields with large numbers of explanatory variables to reduce the variable space. The LASSO-based model has been used to diagnose and predict diseases widely [ 14 ]. The potential utilization of LASSO regression outside its usual application in the area of variable selection has been proved, especially for real-time forecasting [ 15 ].…”

Section: Introductionmentioning

confidence: 99%

Development and validation of a LASSO-based prediction model for immunosuppressive medication nonadherence in kidney transplant recipients

Dong,

Zhu,

Zhao

et al. 2023

Renal Failure

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Introduction To establish a prediction model to predict immunosuppressive medication (IM) nonadherence in kidney transplant recipients (KTRs) based on a combined theory framework. Methods This polycentric, cross-sectional study included 1191 KTRs from October 2020 to February 2021 in China, with 1011 KTRs enrolled in the derivation set and 180 in the external validation set. Variables selected based on the combined theory of planned behavior (TPB)/health belief model (HBM) theory were analyzed by the least absolute shrinkage and selection operator (LASSO). Internal 10 cross-validation was conducted to determine the optimal lambda value. The receiver operating characteristic (ROC) curve, specificity, and sensitivity were used to evaluate the prediction model, and further assessment was run by external validation. Results IM nonadherence rate was 38.48% in the derivation set and 37.22% in the validation set. The LASSO model was developed with eight predictors for IM nonadherence: age, preoperative drinking history, education, marital status, perceived barriers, social support, perceived behavioral control, and perceived susceptibility. The model demonstrated acceptable discrimination with the area under the ROC curve of 0.797 (95% CI: 0.745–0.850) in the internal validation set and 0.757 (95% CI: 0.684–0.829) in the external validation set. The specificity and sensitivity in the internal validation and external validation set were 0.741, 0.748, 0.673, and 0.716, respectively. Conclusions The LASSO model was developed to guide identifying high-risk nonadherent patients and timely and effective interventions to improve their prognosis and survival.

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Section: Introductionmentioning

confidence: 99%

Development and validation of a LASSO-based prediction model for immunosuppressive medication nonadherence in kidney transplant recipients

Dong,

Zhu,

Zhao

et al. 2023

Renal Failure

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“…To be unbiased of the type of parameters used and to match our type of neuronal culture (strain of rats, duration of culture, media, and supplement used) we used a statistical model, LASSO regression ( Tibshirani and Suo, 2016 ; Ahmed et al, 2022 ), to analyze all the parameters extracted from the MEA recordings pre- and post-compound additions. This model was used to select the most important change parameters among 43 parameters of the MEA recordings pre- and post-positive and negative controls.…”

Section: Methodsmentioning

confidence: 99%

Development of a new hazard scoring system in primary neuronal cell cultures for drug-induced acute neuronal toxicity identification in early drug discovery

Kreir,

Putri,

Tekle

et al. 2024

Front. Pharmacol.

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We investigated drug-induced acute neuronal electrophysiological changes using Micro-Electrode arrays (MEA) to rat primary neuronal cell cultures. Data based on 6-key MEA parameters were analyzed for plate-to-plate vehicle variability, effects of positive and negative controls, as well as data from over 100 reference drugs, mostly known to have pharmacological phenotypic and clinical outcomes. A Least Absolute Shrinkage and Selection Operator (LASSO) regression, coupled with expert evaluation helped to identify the 6-key parameters from many other MEA parameters to evaluate the drug-induced acute neuronal changes. Calculating the statistical tolerance intervals for negative-positive control effects on those 4-key parameters helped us to develop a new weighted hazard scoring system on drug-induced potential central nervous system (CNS) adverse effects (AEs). The weighted total score, integrating the effects of a drug candidate on the identified six-pivotal parameters, simply determines if the testing compound/concentration induces potential CNS AEs. Hereto, it uses four different categories of hazard scores: non-neuroactive, neuroactive, hazard, or high hazard categories. This new scoring system was successfully applied to differentiate the new compounds with or without CNS AEs, and the results were correlated with the outcome of in vivo studies in mice for one internal program. Furthermore, the Random Forest classification method was used to obtain the probability that the effect of a compound is either inhibitory or excitatory. In conclusion, this new neuronal scoring system on the cell assay is actively applied in the early de-risking of drug development and reduces the use of animals and associated costs.

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“…For developing effective new markers which help to detect NSCLC in early stage, a study generated a very accurate model with the least absolute shrinkage and selection operator (LASSO) for predicting non-small cell lung cancer (NSCLC) using gene expression data and interaction networks. Using TCGA and GTEx data (The Cancer Genome Atlas Program and Genotype-Tissue Expression), the differentially expressed genes (DEGs) in NSCLC in comparison with normal tissues were discovered [98]. The above-mentioned studies show the wide application of system biology and other integrated approaches to deal with lung cancer.…”

Section: Future Perspectives: Navigating the Integrated Landscapementioning

confidence: 99%

Unravelling the Triad of Lung Cancer, Drug Resistance, and Metabolic Pathways

Mohanty,

Pande,

Acharya

et al. 2024

Preprint

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Lung cancer, characterized by its heterogeneity, presents a significant challenge in ther-apeutic management, primarily due to the development of resistance to conventional drugs. This resistance is often compounded by the tumour’s ability to reprogram its metabolic pathways, a survival strategy that enables cancer cells to thrive in adverse conditions. This review article ex-plores the complex link between drug resistance and metabolic reprogramming in lung cancer, offering a detailed analysis of the molecular mechanisms and treatment strategies. It emphasizes the interplay between drug resistance and changes in metabolic pathways, crucial for developing effective lung cancer therapies. The review examines the impact of current treatments on metabolic pathways and the significance of considering metabolic factors to combat drug resistance. It highlights the different challenges and metabolic alterations in non-small cell lung cancer and small cell lung cancer, underlining the need for subtype-specific treatments. Key signalling pathways, including PI3K/AKT/mTOR, MAPK, and AMPK, have been discussed for their roles in promoting drug resistance and metabolic changes, alongside the complex regulatory networks involved. The article evaluates emerging treatments targeting metabolism, such as metabolic inhibitors, dietary management, and combination therapies, assessing their potential and challenges. It concludes with insights into the role of precision medicine and metabolic biomarkers in crafting personalized lung cancer treatments, advocating for metabolic targeting as a promising approach to enhance treatment efficacy and overcome drug resistance. The review underscores ongoing advancements and hurdles in integrating metabolic considerations into lung cancer therapy strategies.

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A Systems Biology and LASSO-Based Approach to Decipher the Transcriptome–Interactome Signature for Predicting Non-Small Cell Lung Cancer

Cited by 6 publications

References 73 publications

Development and validation of a LASSO-based prediction model for immunosuppressive medication nonadherence in kidney transplant recipients

Development and validation of a LASSO-based prediction model for immunosuppressive medication nonadherence in kidney transplant recipients

Development of a new hazard scoring system in primary neuronal cell cultures for drug-induced acute neuronal toxicity identification in early drug discovery

Unravelling the Triad of Lung Cancer, Drug Resistance, and Metabolic Pathways

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