Jenna C. Bekeny scite author profile

Cardiac rhythm is extremely robust, generating 2 billion contraction cycles during the average human life span. Transcriptional control of cardiac rhythm is poorly understood. We found that removal of the transcription factor gene Tbx5 from the adult mouse caused primary spontaneous and sustained atrial fibrillation (AF). Atrial cardiomyocytes from the Tbx5-mutant mice exhibited action potential abnormalities, including spontaneous depolarizations, which were rescued by chelating free calcium. We identified a multitiered transcriptional network that linked seven previously defined AF risk loci: TBX5 directly activated PITX2, and TBX5 and PITX2 antagonistically regulated membrane effector genes Scn5a, Gja1, Ryr2, Dsp, and Atp2a2. In addition, reduced Tbx5 dose by adult-specific haploinsufficiency caused decreased target gene expression, myocardial automaticity, and AF inducibility, which were all rescued by Pitx2 haploinsufficiency in mice. These results defined a transcriptional architecture for atrial rhythm control organized as an incoherent feed-forward loop, driven by TBX5 and modulated by PITX2. TBX5/PITX2 interplay provides tight control of atrial rhythm effector gene expression, and perturbation of the co-regulated network caused AF susceptibility. This work provides a model for the molecular mechanisms underpinning the genetic implication of multiple AF genome-wide association studies loci and will contribute to future efforts to stratify patients for AF risk by genotype.

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Evolutionarily conserved Tbx5 – Wnt2/2b pathway orchestrates cardiopulmonary development

Steimle

Rankin

Slagle

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

105

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Codevelopment of the lungs and heart underlies key evolutionary innovations in the transition to terrestrial life. Cardiac specializations that support pulmonary circulation, including the atrial septum, are generated by second heart field (SHF) cardiopulmonary progenitors (CPPs). It has been presumed that transcription factors required in the SHF for cardiac septation, e.g., Tbx5, directly drive a cardiac morphogenesis gene-regulatory network. Here, we report instead that TBX5 directly drives Wnt ligands to initiate a bidirectional signaling loop between cardiopulmonary mesoderm and the foregut endoderm for endodermal pulmonary specification and, subsequently, atrial septation. We show that Tbx5 is required for pulmonary specification in mice and amphibians but not for swim bladder development in zebrafish. TBX5 is non-cell-autonomously required for pulmonary endoderm specification by directly driving Wnt2 and Wnt2b expression in cardiopulmonary mesoderm. TBX5 ChIPsequencing identified cis-regulatory elements at Wnt2 sufficient for endogenous Wnt2 expression domains in vivo and required for Wnt2 expression in precardiac mesoderm in vitro. Tbx5 cooperated with Shh signaling to drive Wnt2b expression for lung morphogenesis. Tbx5 haploinsufficiency in mice, a model of Holt-Oram syndrome, caused a quantitative decrement of mesodermal-to-endodermal Wnt signaling and subsequent endodermal-to-mesodermal Shh signaling required for cardiac morphogenesis. Thus, Tbx5 initiates a mesodermendoderm-mesoderm signaling loop in lunged vertebrates that provides a molecular basis for the coevolution of pulmonary and cardiac structures required for terrestrial life. lung development | heart development | TBX5 | Wnt signaling | Hedgehog signaling

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Transcription-factor-dependent enhancer transcription defines a gene regulatory network for cardiac rhythm

Yang

Nadadur

Hilvering

et al. 2017

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The noncoding genome is pervasively transcribed. Noncoding RNAs (ncRNAs) generated from enhancers have been proposed as a general facet of enhancer function and some have been shown to be required for enhancer activity. Here we examine the transcription-factor-(TF)-dependence of ncRNA expression to define enhancers and enhancer-associated ncRNAs that are involved in a TF-dependent regulatory network. TBX5, a cardiac TF, regulates a network of cardiac channel genes to maintain cardiac rhythm. We deep sequenced wildtype and Tbx5-mutant mouse atria, identifying ~2600 novel Tbx5-dependent ncRNAs. Tbx5-dependent ncRNAs were enriched for tissue-specific marks of active enhancers genome-wide. Tbx5-dependent ncRNAs emanated from regions that are enriched for TBX5-binding and that demonstrated Tbx5-dependent enhancer activity. Tbx5-dependent ncRNA transcription provided a quantitative metric of Tbx5-dependent enhancer activity, correlating with target gene expression. We identified RACER, a novel Tbx5-dependent long noncoding RNA (lncRNA) required for the expression of the calcium-handling gene Ryr2. We illustrate that TF-dependent enhancer transcription can illuminate components of TF-dependent gene regulatory networks.

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Indirect Endovascular Revascularization via Collaterals: A New Classification to Predict Wound Healing and Limb Salvage

Bekeny

Alfawaz

Day

et al. 2021

Annals of Vascular Surgery

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Patient Representation and Diversity in Plastic Surgery Social Media

Tirrell

Bekeny

Baker

et al. 2020

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Background Plastic surgeons increasingly use social media as a means for patient engagement, trainee education and research dissemination. Appropriate patient diversity on these platforms is critical to promote interaction with all patients and ensure adequate training of plastic surgeons to work with diverse populations. Objectives This study aimed to assess patient representation, particularly of racial and ethnic groups, among plastic surgery Instagram accounts. Methods 9 Instagram accounts of plastic surgery journals and professional organizations were analyzed for posts containing patient images between April 2015 and June 2020. Each unique patient image was assessed for demographic factors. Skin tone was analyzed as a proxy for racial diversity, using the Fitzpatrick Scale to categorize as white (1-3) or non-white (4-6). Univariate analysis was performed to determine differences in representation. Results A total of 6719 posts from 5 journal and 4 professional organization accounts were found to contain 2547 unique patient images. 88.14% of patient images had white skin tone, while only 11.86% displayed non-white skin tone. Cosmetic procedure patient images had a higher frequency of white skin tone when compared with reconstruction images (89.93% vs. 81.98%, p<0.001). When compared to US Census data and the ASPS Annual Report data on race of patients undergoing plastic surgery, our data revealed significant underrepresentation of patients of color on social media (p<0.001). Conclusions This study highlights the underrepresentation of patients of color within social media imagery. Equitable representation of patients on social media is important to decrease patient barriers to healthcare and improve physician training to engage with diverse populations.

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Jenna C. Bekeny

Pitx2 modulates a Tbx5 -dependent gene regulatory network to maintain atrial rhythm

Evolutionarily conserved Tbx5 – Wnt2/2b pathway orchestrates cardiopulmonary development

Transcription-factor-dependent enhancer transcription defines a gene regulatory network for cardiac rhythm

Indirect Endovascular Revascularization via Collaterals: A New Classification to Predict Wound Healing and Limb Salvage

Patient Representation and Diversity in Plastic Surgery Social Media

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