AI Article Synopsis
- Pulmonary hypertension (PH) affects about 1% of the population, has a poor prognosis despite treatment, and the mechanisms involved in its progression and drug action are not fully understood.
- Using graph-powered knowledge mining and a small patient metabolite dataset, researchers derived insights into PH's pathophysiology and the functionality of related clinical drugs.
- Key findings reveal that specific metabolites are altered in PH patients, and critical signaling pathways—including G-protein, IL6, activin, and BMP signaling—play significant roles in the disease, with implications for current and potential treatments like sotatercept affecting multiple important molecular pathways.
Article Abstract
Introduction: Pulmonary hypertension (PH) is a pathological condition that affects approximately 1% of the population. The prognosis for many patients is poor, even after treatment. Our knowledge about the pathophysiological mechanisms that cause or are involved in the progression of PH is incomplete. Additionally, the mechanism of action of many drugs used to treat pulmonary hypertension, including sotatercept, requires elucidation.
Methods: Using our graph-powered knowledge mining software in combination with a very small patient metabolite data set, we demonstrate how we derive detailed mechanistic hypotheses on the mechanisms of PH pathophysiology and clinical drugs.
Results: In PH patients, the concentration of hypoxanthine, 12(S)-HETE, glutamic acid, and sphingosine 1 phosphate is significantly higher, while the concentration of L-arginine and L-histidine is lower than in healthy controls. Using the graph-based data analysis, gene ontology, and semantic association capabilities of , led us to connect the differentially expressed metabolites with G-protein signaling and SRC. Then, we associated SRC with IL6 signaling. Subsequently, we found associations that connect SRC, and IL6 to activin and BMP signaling. Lastly, we analyzed the mechanisms of action of several existing and novel pharmacological treatments for PH. elucidated the interplay between G-protein, IL6, activin, and BMP signaling. Those pathways regulate hallmark pathophysiological processes of PH, including vasoconstriction, endothelial barrier function, cell proliferation, and apoptosis.
Discussion: The results highlight the importance of SRC, ERK1, AKT, and MLC activity in PH. The molecular pathways affected by existing and novel treatments for PH also converge on these molecules. Importantly, sotatercept affects SRC, ERK1, AKT, and MLC simultaneously. The present study shows the power of mining knowledge graphs using 's diverse set of data analytics functionalities for developing knowledge-driven hypotheses on PH pathophysiological and drug mechanisms and their interactions. We believe that and our presented approach will be valuable for future mechanistic studies of PH, other diseases, and drugs.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11153715 | PMC |
| http://dx.doi.org/10.3389/fcvm.2024.1341145 | DOI Listing |
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