Transcription factor rare variants associate with pulmonary arterial hypertension (PAH), particularly in children, and are the second most common cause of heritable PAH. However, TBX4's down-stream targets and the molecular and cellular pathways these targets regulate remain largely unknown in PAH. We combined RNA-seq and ChIP-seq results to identify TBX4 direct targets in lung fibroblasts and pericytes, respectively. There were 555 genes with altered expression with TBX4 knockdown in both fibroblasts and pericytes by RNA-seq, and which also were found to be bound by TBX4 by ChIP-seq. Gene ontology analysis found that these were dominated by genes related to extracellular matrix, actin organization, and migration guidance, although there were also significant groups related to serine/threonine kinase signaling, GTPase mediated signaling, and glycoprotein metabolism. Migration and proliferation studies using TBX4 knockdown fibroblasts confirmed functional effects. These studies provide the first insights into how genes and pathways regulated by TBX4 are impacted and inform future studies about the key biological processes that lead to PAH in patients who carry pathologic TBX4 rare variants.
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| http://dx.doi.org/10.1002/pul2.70058 | DOI Listing |
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