Network Medicine Approach in Prevention and Personalized Treatment of Dyslipidemias

Benincasa, Giuditta; Candia, Paola de; Costa, Dário Alves da Silva; Faenza, Mario; Mansueto, Gelsomina; Ambrosio, Giuseppe; Napoli, Claudio

doi:10.1002/lipd.12290

Cited by 10 publications

(6 citation statements)

References 64 publications

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“…The large volume of data obtained so far is complex and requires appropriate computational experience to understand disease progression and inflammatory signaling development, identify novel targets, and predicting how different therapeutics may influence the progression of disease. More studies are needed, possibly through worldwide collaborations [123,61,124,125] Furthermore, because of the cellspecific nature of epigenetic information, more human biopsies and samples could be useful. In this scenario, epigenomic and metabolomics, together with other omics technologies, would provide a valid tool to identify all biomolecular mechanisms underlying disease development and possibly categorize patients into endotypes based on common omics expression patterns.…”

Section: Discussionmentioning

confidence: 99%

Role of Epigenetics and Metabolomics in Predicting Endothelial Dysfunction in Type 2 Diabetes

Di Pietrantonio,

Cappellacci,

Mandatori

et al. 2023

Advanced Biology

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Type 2 diabetes (T2D) is a worldwide health problem and cardiovascular disease (CVD) is a leading cause of morbidity and mortality in T2D patients, making the prevention of CVD onset a major priority. It is therefore crucial to optimize diagnosis and treatment to reduce this burden. Endothelial dysfunction is one of the most important prognostic factors for CVD progression, thus novel approaches to identify the early phase of endothelial dysfunction may lead to specific preventive measures to reduce the occurrence of CVD. Nowadays, multiomics approaches have provided unprecedented opportunities to stratify T2D patients into endotypes, improve therapeutic treatment and outcome and amend the survival prediction. Among omics strategies, epigenetics and metabolomics are gaining increasing interest. Recently, a dynamic correlation between metabolic pathways and gene expression through chromatin remodeling, such as DNA methylation, has emerged, indicating new perspectives on the regulatory networks impacting cellular processes. Thus, a better understanding of epigenetic‐metabolite relationships can provide insight into the physiological processes altered early in the endothelium that ultimately head to disease development. Here, recent studies on epigenetics and metabolomics related to CVD prevention potentially useful to identify disease biomarkers, as well as new therapies hopefully targeting the early phase of endothelial dysfunction are highlighted.

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Section: Discussionmentioning

confidence: 99%

Role of Epigenetics and Metabolomics in Predicting Endothelial Dysfunction in Type 2 Diabetes

Di Pietrantonio,

Cappellacci,

Mandatori

et al. 2023

Advanced Biology

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“…Finally, novel network analyses, such as weighted correlation network analysis (WGCNA), could be used to search for clusters of highly correlated genes [47]. WGCNA algorithms have been used in dyslipidemias [48], cancer [49,50], andautismspectrum disorder [51].…”

Section: Discussionmentioning

confidence: 99%

Separating the Wheat from the Chaff: The Use of Upstream Regulator Analysis to Identify True Differential Expression of Single Genes within Transcriptomic Datasets

Hadwen

Schock

Farooq

et al. 2021

IJMS

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The development of DNA microarray and RNA-sequencing technology has led to an explosion in the generation of transcriptomic differential expression data under a wide range of biologic systems including those recapitulating the monogenic muscular dystrophies. Data generation has increased exponentially due in large part to new platforms, improved cost-effectiveness, and processing speed. However, reproducibility and thus reliability of data remain a central issue, particularly when resource constraints limit experiments to single replicates. This was observed firsthand in a recent rare disease drug repurposing project involving RNA-seq-based transcriptomic profiling of primary cerebrocortical cultures incubated with clinic-ready blood–brain penetrant drugs. Given the low validation rates obtained for single differential expression genes, alternative approaches to identify with greater confidence genes that were truly differentially expressed in our dataset were explored. Here we outline a method for differential expression data analysis in the context of drug repurposing for rare diseases that incorporates the statistical rigour of the multigene analysis to bring greater predictive power in assessing individual gene modulation. Ingenuity Pathway Analysis upstream regulator analysis was applied to the differentially expressed genes from the Care4Rare Neuron Drug Screen transcriptomic database to identify three distinct signaling networks each perturbed by a different drug and involving a central upstream modulating protein: levothyroxine (DIO3), hydroxyurea (FOXM1), dexamethasone (PPARD). Differential expression of upstream regulator network related genes was next assessed in in vitro and in vivo systems by qPCR, revealing 5× and 10× increases in validation rates, respectively, when compared with our previous experience with individual genes in the dataset not associated with a network. The Ingenuity Pathway Analysis based gene prioritization may increase the predictive value of drug–gene interactions, especially in the context of assessing single-gene modulation in single-replicate experiments.

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“…Proteomics, the protein-based risk score, turned out to be a proper tool to predict the harm within 3 months. Benincasa et al [ 123 ] proposed a digitalized way to individualize the treatment of dyslipidemia and Tsigalou et al [ 124 ] presented a ML method to assess LDL plasma levels. Another study created a method to identify patients with familial hypercholesterolemia [ 125 ].…”

Section: Artificial Intelligence and Atherosclerosis In Other Studiesmentioning

confidence: 99%

Artificial Intelligence in Cardiology and Atherosclerosis in the Context of Precision Medicine: A Scoping Review

Kolaszyńska,

Lorkowski

2024

Applied Bionics and Biomechanics

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Cardiovascular diseases remain the main cause of death worldwide which makes it essential to better understand, diagnose, and treat atherosclerosis. Artificial intelligence (AI) and novel technological solutions offer us new possibilities and enable the practice of individually tailored medicine. The study was performed using the PRISMA protocol. As of January 10, 2023, the analysis has been based on a review of 457 identified articles in PubMed and MEDLINE databases. The search covered reviews, original articles, meta-analyses, comments, and editorials published in the years 2009–2023. In total, 123 articles met inclusion criteria. The results were divided into the subsections presented in the review (genome-wide association studies, radiomics, and other studies). This paper presents actual knowledge concerning atherosclerosis, in silico, and big data analyses in cardiology that affect the way medicine is practiced in order to create an individual approach and adjust the therapy of atherosclerosis.

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Network Medicine Approach in Prevention and Personalized Treatment of Dyslipidemias

Cited by 10 publications

References 64 publications

Role of Epigenetics and Metabolomics in Predicting Endothelial Dysfunction in Type 2 Diabetes

Role of Epigenetics and Metabolomics in Predicting Endothelial Dysfunction in Type 2 Diabetes

Separating the Wheat from the Chaff: The Use of Upstream Regulator Analysis to Identify True Differential Expression of Single Genes within Transcriptomic Datasets

Artificial Intelligence in Cardiology and Atherosclerosis in the Context of Precision Medicine: A Scoping Review

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