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1. Clinical predictors of right ventricular dysfunction and association with adverse outcomes in peripartum cardiomyopathy

Author

Imran, T F, primary, Ataklte, F, additional, Lopez, D, additional, Mohebali, D, additional, Bello, N A, additional, Gaziano, J M, additional, Djousse, L, additional, Coglinease, E, additional, Arany, Z, additional, Sabe, M, additional, French, K, additional, Poppas, A, additional, Wu, W, additional, and Choudhary, G, additional

Published
2023
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2. MitoScape: A big-data, machine-learning platform for obtaining mitochondrial DNA from next-generation sequencing data

Author

Marz, M, Singh, LN, Ennis, B, Loneragan, B, Tsao, NL, Sanchez, MIGL, Li, J, Acheampong, P, Tran, O, Trounce, IA, Zhu, Y, Potluri, P, Emanuel, BS, Rader, DJ, Arany, Z, Damrauer, SM, Resnick, AC, Anderson, SA, Wallace, DC, Marz, M, Singh, LN, Ennis, B, Loneragan, B, Tsao, NL, Sanchez, MIGL, Li, J, Acheampong, P, Tran, O, Trounce, IA, Zhu, Y, Potluri, P, Emanuel, BS, Rader, DJ, Arany, Z, Damrauer, SM, Resnick, AC, Anderson, SA, and Wallace, DC

Abstract

The growing number of next-generation sequencing (NGS) data presents a unique opportunity to study the combined impact of mitochondrial and nuclear-encoded genetic variation in complex disease. Mitochondrial DNA variants and in particular, heteroplasmic variants, are critical for determining human disease severity. While there are approaches for obtaining mitochondrial DNA variants from NGS data, these software do not account for the unique characteristics of mitochondrial genetics and can be inaccurate even for homoplasmic variants. We introduce MitoScape, a novel, big-data, software for extracting mitochondrial DNA sequences from NGS. MitoScape adopts a novel departure from other algorithms by using machine learning to model the unique characteristics of mitochondrial genetics. We also employ a novel approach of using rho-zero (mitochondrial DNA-depleted) data to model nuclear-encoded mitochondrial sequences. We showed that MitoScape produces accurate heteroplasmy estimates using gold-standard mitochondrial DNA data. We provide a comprehensive comparison of the most common tools for obtaining mtDNA variants from NGS and showed that MitoScape had superior performance to compared tools in every statistically category we compared, including false positives and false negatives. By applying MitoScape to common disease examples, we illustrate how MitoScape facilitates important heteroplasmy-disease association discoveries by expanding upon a reported association between hypertrophic cardiomyopathy and mitochondrial haplogroup T in men (adjusted p-value = 0.003). The improved accuracy of mitochondrial DNA variants produced by MitoScape will be instrumental in diagnosing disease in the context of personalized medicine and clinical diagnostics.

Published
2021

5. Genetic Variants Associated With Cancer Therapy-Induced Cardiomyopathy

Author

Garcia-Pavia, P, Kim, Y, Restrepo-Cordoba, MA, Lunde, IG, Wakimoto, H, Smith, AM, Toepfer, CN, Getz, K, Gorham, J, Patel, P, Ito, K, Willcox, JA, Arany, Z, Li, J, Owens, AT, Govind, R, Nuñez, B, Mazaika, E, Bayes-Genis, A, Walsh, R, Finkelman, B, Lupon, J, Whiffin, N, Serrano, I, Midwinter, W, Wilk, A, Bardaji, A, Ingold, N, Buchan, R, Tayal, U, Pascual-Figal, DA, De Marvao, A, Ahmad, M, Garcia-Pinilla, JM, Pantazis, A, Dominguez, F, John Baksi, A, O'Regan, DP, Rosen, SD, Prasad, SK, Lara-Pezzi, E, Provencio, M, Lyon, AR, Alonso-Pulpon, L, Cook, SA, DePalma, SR, Barton, PJR, Aplenc, R, Seidman, JG, Ky, B, Ware, JS, Seidman, CE, Instituto de Salud Carlos III, Ministerio de Economía y Competitividad (España), Wellcome Trust, Medical Research Council (Reino Unido), National Institute for Health Research (Reino Unido), Imperial College London (Reino Unido), Fondation Leducq, British Heart Foundation, National Institutes of Health (Estados Unidos), Howard Hughes Medical Institute, Fundación ProCNIC, Unión Europea. Fondo Europeo de Desarrollo Regional (FEDER/ERDF), Department of Health, Royal Brompton & Harefield NHS Foundation Trust, Imperial College Healthcare NHS Trust- BRC Funding, Rosetrees Trust, and The Academy of Medical Sciences

Subjects
CARDIOTOXICITY, cardiomyopathies, Adult, Male, Cardiac & Cardiovascular Systems, FAMILIAL DILATED CARDIOMYOPATHY, Antineoplastic Agents, Mice, Transgenic, TITIN, 1117 Public Health and Health Services, Cohort Studies, Mice, Neoplasms, A-BAND TRUNCATION, Animals, Humans, genetics, titin, Prospective Studies, AMERICAN SOCIETY, 1102 Cardiorespiratory Medicine and Haematology, POLYMORPHISMS, Aged, Retrospective Studies, Science & Technology, CONGESTIVE-HEART-FAILURE, MUTATIONS, Genetic Variation, 1103 Clinical Sciences, CHEMOTHERAPY, Middle Aged, medical oncology, drug therapy, Mice, Inbred C57BL, Peripheral Vascular Disease, Cardiovascular System & Hematology, Cardiovascular System & Cardiology, Female, ECHOCARDIOGRAPHY, Cardiomyopathies, Life Sciences & Biomedicine
Abstract

BACKGROUND: Cancer therapy-induced cardiomyopathy (CCM) is associated with cumulative drug exposures and preexisting cardiovascular disorders. These parameters incompletely account for substantial interindividual susceptibility to CCM. We hypothesized that rare variants in cardiomyopathy genes contribute to CCM. METHODS: We studied 213 patients with CCM from 3 cohorts: retrospectively recruited adults with diverse cancers (n=99), prospectively phenotyped adults with breast cancer (n=73), and prospectively phenotyped children with acute myeloid leukemia (n=41). Cardiomyopathy genes, including 9 prespecified genes, were sequenced. The prevalence of rare variants was compared between CCM cohorts and The Cancer Genome Atlas participants (n=2053), healthy volunteers (n=445), and an ancestry-matched reference population. Clinical characteristics and outcomes were assessed and stratified by genotypes. A prevalent CCM genotype was modeled in anthracycline-treated mice. RESULTS: CCM was diagnosed 0.4 to 9 years after chemotherapy; 90% of these patients received anthracyclines. Adult patients with CCM had cardiovascular risk factors similar to the US population. Among 9 prioritized genes, patients with CCM had more rare protein-altering variants than comparative cohorts ( P≤1.98e-04). Titin-truncating variants (TTNtvs) predominated, occurring in 7.5% of patients with CCM versus 1.1% of The Cancer Genome Atlas participants ( P=7.36e-08), 0.7% of healthy volunteers ( P=3.42e-06), and 0.6% of the reference population ( P=5.87e-14). Adult patients who had CCM with TTNtvs experienced more heart failure and atrial fibrillation ( P=0.003) and impaired myocardial recovery ( P=0.03) than those without. Consistent with human data, anthracycline-treated TTNtv mice and isolated TTNtv cardiomyocytes showed sustained contractile dysfunction unlike wild-type ( P=0.0004 and P

Published
2019

6. Peripartum Cardiomyopathy

Author

Arany, Z.

Abstract

(N Engl J Med.2024;390:154–164)Pregnancy induces cardiovascular physiological changes and can sometimes lead to severe complications. Severe cardiac degeneration leading to clinical heart failure during pregnancy or in the early postpartum period defines peripartum cardiomyopathy (PPCM), but little is known about its causes. This condition occurs in ∼1 in 2000 births globally, with more common diagnoses in Haiti (1 in 300) and Nigeria (1 in 100), and less commonly in other areas. Peripartum cardiomyopathy is a leading cause of maternal death and is responsible for up to 60% of cases of peripartum cardiogenic shock. This article is a review of what is known about PPCM, its clinical presentation, pathogenesis, management, outcomes, and future directions for research.

Published
2024
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7. Impairment of an Endothelial NAD+-H2S Signaling Network Is a Reversible Cause of Vascular Aging

Author

Das, A, Huang, GX, Bonkowski, MS, Longchamp, A, Li, C, Schultz, MB, Kim, LJ, Osborne, B, Joshi, S, Lu, Y, Treviño-Villarreal, JH, Kang, MJ, Hung, TT, Lee, B, Williams, EO, Igarashi, M, Mitchell, JR, Wu, LE, Turner, N, Arany, Z, Guarente, L, Sinclair, DA, Das, A, Huang, GX, Bonkowski, MS, Longchamp, A, Li, C, Schultz, MB, Kim, LJ, Osborne, B, Joshi, S, Lu, Y, Treviño-Villarreal, JH, Kang, MJ, Hung, TT, Lee, B, Williams, EO, Igarashi, M, Mitchell, JR, Wu, LE, Turner, N, Arany, Z, Guarente, L, and Sinclair, DA

Abstract

A decline in capillary density and blood flow with age is a major cause of mortality and morbidity. Understanding why this occurs is key to future gains in human health. NAD precursors reverse aspects of aging, in part, by activating sirtuin deacylases (SIRT1–SIRT7) that mediate the benefits of exercise and dietary restriction (DR). We show that SIRT1 in endothelial cells is a key mediator of pro-angiogenic signals secreted from myocytes. Treatment of mice with the NAD+ booster nicotinamide mononucleotide (NMN) improves blood flow and increases endurance in elderly mice by promoting SIRT1-dependent increases in capillary density, an effect augmented by exercise or increasing the levels of hydrogen sulfide (H2S), a DR mimetic and regulator of endothelial NAD+ levels. These findings have implications for improving blood flow to organs and tissues, increasing human performance, and reestablishing a virtuous cycle of mobility in the elderly. Endothelial SIRT1 regulates pro-angiogenic signals secreted from myocytes and improves muscle health. Treatment of mice with NAD precursor nicotinamide mononucleotide improves vascular and increases endurance in aging mice.

Published
2018

8. Development of dilated cardiomyopathy and impaired calcium homeostasis with cardiac-specific deletion of ESRRβ

Author

Rowe, GC, Asimaki, A, Graham, EL, Martin, KD, Margulies, KB, Das, S, Saffitz, J, and Arany, Z

Subjects
cardiovascular system, cardiovascular diseases
Abstract

Mechanisms underlying the development of idiopathic dilated cardiomyopathy (DCM) remain poorly understood. Using transcription factor expression profiling, we identified estrogen-related receptor-β (ESRRβ), a member of the nuclear receptor family of transcription factors, as highly expressed in murine hearts and other highly oxidative striated muscle beds. Mice bearing cardiac-specific deletion of ESRRβ (MHC-ERRB KO) develop DCM and sudden death at ~10 mo of age. Isolated adult cardiomyocytes from the MHC-ERRB KO mice showed an increase in calcium sensitivity and impaired cardiomyocyte contractility, which preceded echocardiographic cardiac remodeling and dysfunction by several months. Histological analyses of myocardial biopsies from patients with various cardiomyopathies revealed that ESRRβ protein is absent from the nucleus of cardiomyocytes from patients with DCM but not other forms of cardiomyopathy (ischemic, hypertrophic, and arrhythmogenic right ventricular cardiomyopathy). Taken together these observations suggest that ESRRβ is a critical component in the onset of DCM by affecting contractility and calcium balance.NEW & NOTEWORTHY Estrogen-related receptor-β (ESRRβ) is highly expressed in the heart and cardiac-specific deletion results in the development of a dilated cardiomyopathy (DCM). ESRRβ is mislocalized in human myocardium samples with DCM, suggesting a possible role for ESRRβ in the pathogenesis of DCM in humans.

Published
2017

9. Shared genetic etiology of peripartum and dilated cardiomyopathies

Author

Ware, JS, Li, J, Mazaika, E, Yasso, C, DeSouza, T, Cappola, T, Tsai, EJ, Hilfiker Kleiner, D, Kamiya, CA, Mazzarotto, F, Cook, SA, Halder, I, Prasad, SK, Pisarcik, J, Hanley Yanez, K, Alharethi, R, Damp, J, Hsich, E, Elkayam, U, Sheppard, R, Kealey, A, Alexis, J, Ramani, G, Safirstein, J, Boehmer, J, Pauly, DF, Wittstein, IS, Thohan, V, Zucker, MJ, Liu, P, Gorcsan, J, McNamara, DM, Seidman, CE, Seidman, JG, Arany, Z, Commission of the European Communities, and British Heart Foundation

Subjects
Adult, Cardiomyopathy, Dilated, OUTCOMES, Science & Technology, MUTATIONS, Pregnancy Complications, Cardiovascular, Stroke Volume, Sequence Analysis, DNA, IMAC-2 and IPAC Investigators, GENOME, Medicine, General & Internal, Pregnancy, General & Internal Medicine, Case-Control Studies, Mutation, Peripartum Period, Humans, Protein Isoforms, FAMILIAL OCCURRENCE, Connectin, Female, Genetic Predisposition to Disease, Cardiomyopathies, Life Sciences & Biomedicine, 11 Medical and Health Sciences
Abstract

Background: Peripartum cardiomyopathy (PPCM) shares some clinical features with idiopathic dilated cardiomyopathy, a disorder caused by mutations in over 40 genes, including TTN, which encodes the sarcomere protein titin. Methods: We sequenced 43 genes, with variants that have been associated with dilated cardiomyopathy, in 172 women with peripartum cardiomyopathy. We compared the prevalence of different types of variant (nonsense, frameshift, and splicing) in these women with the prevalence of these variants in persons with dilated cardiomyopathy and population controls. Results: We identified 26 distinct rare truncating variants in eight genes in women with PPCM. The prevalence of truncating variants (26 in 172 [15%]) was significantly higher than in a reference population of 60,706 individuals (4.7%, P=1.3x10-7), but was similar to a cohort of 332 dilated cardiomyopathy cases (55 in 332 [17%], P=0.81). Two thirds of identified truncating variants were in TTN ([10%], P=2.7x10-10 versus 1.4% in reference population), almost all located in the titin A-band. Seven of the TTN truncating variants were previously reported in cases of idiopathic dilated cardiomyopathy. In a clinically well-characterized cohort of women with PPCM (n=83), the presence of TTN truncating variants correlated with lower ejection fraction at one-year follow-up (P=0.005). Conclusions: The distribution of truncating variants in a large series of women with PPCM is remarkably similar to that found in idiopathic dilated cardiomyopathy. TTN truncating variants are the most prevalent genetic predisposition of each disorder.

Published
2015

10. Shared Genetic Predisposition in Peripartum and Dilated Cardiomyopathies

Author

Ware, JS, Seidman, JG, Arany, Z, and Wellcome Trust

Subjects
Cardiomyopathy, Dilated, Pregnancy Complications, Cardiovascular, MEDLINE, Cardiomyopathy, 030204 cardiovascular system & hematology, Bioinformatics, 03 medical and health sciences, Medicine, General & Internal, 0302 clinical medicine, Pregnancy, General & Internal Medicine, Peripartum Period, Genetic predisposition, Humans, Medicine, Connectin, Genetic Predisposition to Disease, 030212 general & internal medicine, Science & Technology, business.industry, 11 Medical And Health Sciences, General Medicine, medicine.disease, Cardiovascular genetics, Mutation, Mutation (genetic algorithm), Female, Cardiomyopathies, business, Life Sciences & Biomedicine
Published
2016

11. Shared Genetic Predisposition in Peripartum and Dilated Cardiomyopathies

Author

Ware, J.S., primary, Li, J., additional, Mazaika, E., additional, Yasso, C.M., additional, DeSouza, T., additional, Cappola, T.P., additional, Tsai, E.J., additional, Hilfiker-Kleiner, D., additional, Kamiya, C.A., additional, Mazzarotto, F., additional, Cook, S.A., additional, Halder, I., additional, Prasad, S.K., additional, Pisarcik, J., additional, Hanley-Yanez, K., additional, Alharethi, R., additional, Damp, J., additional, Hsich, E., additional, Elkayam, U., additional, Sheppard, R., additional, Kealey, A., additional, Alexis, J., additional, Ramani, G., additional, Safirstein, J., additional, Boehmer, J., additional, Pauly, D.F., additional, Wittstein, I.S., additional, Thohan, V., additional, Zucker, M.J., additional, Liu, P., additional, Gorcsan, J., additional, McNamara, D.M., additional, Seidman, C.E., additional, Seidman, J.G., additional, and Arany, Z., additional

Published
2016
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17. Enhanced lipid-but not carbohydrate-supported mitochondrial respiration in skeletal muscle of PGC-1 alpha overexpressing mice

Author

Hoeks, J., Hoeks, J., Arany, Z., Phielix, E., Kornips, C.F.P., Hesselink, M.K.C., Schrauwen, P., Hoeks, J., Hoeks, J., Arany, Z., Phielix, E., Kornips, C.F.P., Hesselink, M.K.C., and Schrauwen, P.

Abstract

Skeletal muscle mitochondrial dysfunction has been linked to several disease states as well as the process of aging. A possible factor involved is the peroxisome proliferator-activated receptor (PPAR) gamma co-activator 1alpha (PGC-1alpha), a major player in the regulation of skeletal muscle mitochondrial metabolism. However, it is currently unknown whether PGC-1alpha, besides stimulating mitochondrial proliferation, also affects the functional capacity per mitochondrion. Therefore, we here tested whether PGC-1alpha overexpression, besides increasing mitochondrial content, also leads to intrinsic mitochondrial adaptations. Skeletal muscle mitochondria from 10 male, muscle-specific PGC-1alpha overexpressing mice (PGC-1alphaTg) and 8 wild-type (WT) mice were isolated. Equal mitochondrial quantities were then analyzed for their oxidative capacity by high-resolution respirometry, fuelled by a carbohydrate-derived (pyruvate) and a lipid (palmitoyl-CoA plus carnitine) substrate. Additionally, mitochondria were tested for reactive oxygen species (superoxide) production and fatty acid (FA)-induced uncoupling. PGC-1alphaTg mitochondria were characterized by an improved intrinsic mitochondrial fat oxidative capacity as evidenced by pronounced increase in ADP-stimulated respiration (p < 0.001) and maximal uncoupled respiration (p < 0.001) upon palmitoyl-CoA plus carnitine. Interestingly, intrinsic mitochondrial capacity on a carbohydrate-derived substrate tended to be reduced. Furthermore, the sensitivity to FA-induced uncoupling was diminished in PGC-1alphaTg mitochondria (p = 0.02) and this was accompanied by a blunted reduction in mitochondrial ROS production upon fatty acids in PGC-1alphaTg vs. WT mitochondria (p = 0.04). Uncoupling protein 3 (UCP3) levels were markedly reduced in PGC-1alphaTg mitochondria (p < 0.001). Taken together, in addition to stimulating mitochondrial proliferation in skeletal muscle, we show here that overexpression of PGC-1alpha leads to

Published
2012

24. Functional role of p35srj, a novel p300/CBP binding protein, during transactivation by HIF-1.

Author

Bhattacharya, S, Michels, C L, Leung, M K, Arany, Z P, Kung, A L, and Livingston, D M

Abstract

Recruitment of p300/CBP by the hypoxia-inducible factor, HIF-1, is essential for the transcriptional response to hypoxia and requires an interaction between the p300/CBP CH1 region and HIF-1alpha. A new p300-CH1 interacting protein, p35srj, has been identified and cloned. p35srj is an alternatively spliced isoform of MRG1, a human protein of unknown function. Virtually all endogenous p35srj is bound to p300/CBP in vivo, and it inhibits HIF-1 transactivation by blocking the HIF-1alpha/p300 CH1 interaction. p35srj did not affect transactivation by transcription factors that bind p300/CBP outside the CH1 region. Endogenous p35srj is up-regulated markedly by the HIF-1 activators hypoxia or deferoxamine, suggesting that it could operate in a negative-feedback loop. In keeping with this notion, a p300 CH1 mutant domain, defective in HIF-1 but not p35srj binding, enhanced endogenous HIF-1 function. In hypoxic cells, p35srj may regulate HIF-1 transactivation by controlling access of HIF-1alpha to p300/CBP, and may keep a significant portion of p300/CBP available for interaction with other transcription factors by partially sequestering and functionally compartmentalizing cellular p300/CBP.

Published
1999

25. Activation of hypoxia-inducible transcription factor depends primarily upon redox-sensitive stabilization of its alpha subunit.

Author

Huang, L E, Arany, Z, Livingston, D M, and Bunn, H F

Abstract

Hypoxia-inducible factor 1 (HIF-1) is a heterodimeric transcription factor that is critical for hypoxic induction of a number of physiologically important genes. We present evidence that regulation of HIF-1 activity is primarily determined by the stability of the HIF-1alpha protein. Both HIF-1alpha and HIF-1beta mRNAs were constitutively expressed in HeLa and Hep3B cells with no significant induction by hypoxia. However, the HIF-1alpha protein was barely detectable in normoxic cells, even when HIF-1alpha was overexpressed, but was highly induced in hypoxic cells, whereas HIF-1beta protein levels remained constant, regardless of pO2. Hypoxia-induced HIF-1 binding as well as the HIF-1alpha protein were rapidly and drastically decreased in vivo following an abrupt increase to normal oxygen tension. Moreover, short pre-exposure of cells to hydrogen peroxide selectively prevented hypoxia-induced HIF-1 binding via blocking accumulation of HIF-1alpha protein, whereas treatment of hypoxic cell extracts with H2O2 had no effect on HIF-1 binding. These observations suggest that an intact redox-dependent signaling pathway is required for destablization of the HIF-1alpha protein. In hypoxic cell extracts, HIF-1 DNA binding was reversibly abolished by sulfhydryl oxidation. Furthermore, the addition of reduced thioredoxin to cell extracts enhanced HIF-1 DNA binding. Consistent with these results, overexpression of thioredoxin and Ref-1 significantly potentiated hypoxia-induced expression of a reporter construct containing the wild-type HIF-1 binding site. These experiments indicate that activation of HIF-1 involves redox-dependent stabilization of HIF-1alpha protein.

Published
1996

26. The transcription factor E2F-1 is a downstream target of RB action

Author

Qin, X Q, Livingston, D M, Ewen, M, Sellers, W R, Arany, Z, and Kaelin, W G

Abstract

Reintroduction of RB into SAOS2 (RB-/-) cells causes a G1 arrest and characteristic cellular swelling. Coexpression of the cellular transcription factor E2F-1 could overcome these effects. The ability of E2F-1 to bind to RB was neither necessary nor sufficient for this effect, and S-phase entry was not accompanied by RB hyperphosphorylation under these conditions. Furthermore, E2F-1 could overcome the actions of a nonphosphorylatable but otherwise intact RB mutant. These data, together with the fact that RB binds to E2F-1 in vivo, suggest that E2F-1 is a downstream target of RB action. Mutational analysis showed that the ability of E2F-1 to bind to DNA was necessary and sufficient to block the formation of large cells by RB, whereas the ability to induce S-phase entry required a functional transactivation domain as well. Thus, the induction of a G1 arrest and the formation of large cells by RB in these cells can be genetically dissociated. Furthermore, the ability of the E2F-1 DNA-binding domain alone to block one manifestation of RB action is consistent with the notion that RB-E2F complexes actively repress transcription upon binding to certain E2F-responsive promoters. In keeping with this view, we show here that coproduction of an E2F1 mutant capable of binding to DNA, yet unable to transactivate, is sufficient to block RB-mediated transcriptional repression.

Published
1995
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27. Subsequent pregnancies in peripartum cardiomyopathy: Patient-level differences and decision-making.

Author

Irizarry OC, Lewey J, McCallister C, Koelper NC, Arany Z, and Levine LD

Abstract

Study Objective: To evaluate patient-level differences and decision making surrounding subsequent pregnancies (SSP) after peripartum cardiomyopathy (PPCM)., Design: Mixed methods approach to evaluate quantitative demographic and clinical differences between patients with and without a SSP and to qualitatively describe the decision-making regarding a SSP with a survey component., Setting/participants: 220 PPCM cases within the University of Pennsylvania Health System., Main Outcome Measures: Demographic, clinical and obstetrical outcomes., Results: 73 patients (33 %) had a SSP, 37 with a live birth. Those with a SSP were more likely to self-identify as Black (70 % vs. 52 %; p  = 0.04), be nulliparous in index pregnancy (68 % vs. 45 %, p  = 0.02), were younger at diagnosis (24.3 vs. 30.5 years; p  < 0.01), and a higher left ventricular ejection fraction (LVEF) at diagnosis (35 % vs. 27.5 %; p  = 0.03) compared to patients without a SSP. There was no difference in recovery rates of LVEF (62 % vs. 50 %, p  = 0.17), or need for LVAD, transplant, or death. 22 patients completed the survey (representing 44 SSPs): 41 % of SSPs ( n  = 18) resulted in termination, 18 % ( n  = 8) in a first/s trimester loss, and 41 % (n = 18) in a live-born delivery. All patients who elected termination indicated risk of recurrence/worsening heart failure to be a motivating factor., Conclusions: Less than 20 % of patients in this single-center, multi-racial cohort had a SSP and delivery after PPCM with fear of recurrence as a large driver in this decision. Patients with a SSP were younger with a higher EF at diagnosis but ultimately had similar cardiac outcomes as patients without a SSP., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published
2024
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28. Quantification of nutrient fluxes during acute exercise in mice.

Author

Axsom J, TeSlaa T, Lee WD, Chu Q, Cowan A, Bornstein MR, Neinast MD, Bartman CR, Blair MC, Li K, Thorsheim C, Rabinowitz JD, and Arany Z

Abstract

Despite the known metabolic benefits of exercise, an integrated metabolic understanding of exercise is lacking. Here, we use in vivo steady-state isotope-labeled infusions to quantify fuel flux and oxidation during exercise in fasted, fed, and exhausted female mice, revealing several novel findings. Exercise strongly promoted glucose fluxes from liver glycogen, lactate, and glycerol, distinct from humans. Several organs spared glucose, a process that broke down in exhausted mice despite concomitant hypoglycemia. Proteolysis increased markedly, also divergent from humans. Fatty acid oxidation dominated during fasted exercise. Ketone production and oxidation rose rapidly, seemingly driven by a hepatic bottleneck caused by gluconeogenesis-induced cataplerotic stress. Altered fuel consumption was observed in organs not directly involved in muscle contraction, including the pancreas and brown fat. Several futile cycles surprisingly persisted during exercise, despite their energy cost. In sum, we provide a comprehensive, integrated, holistic, and quantitative accounting of metabolism during exercise in an intact organism., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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29. SGLT2 Inhibitors Act Independently of SGLT2 to Confer Benefit for HFrEF in Mice.

Author

Berger JH, Matsuura TR, Bowman CE, Taing R, Patel J, Lai L, Leone TC, Reagan JD, Haldar SM, Arany Z, and Kelly DP

Subjects
Animals, Mice, Stroke Volume drug effects, Mice, Knockout, Mice, Inbred C57BL, Male, Sodium-Glucose Transporter 2 Inhibitors therapeutic use, Sodium-Glucose Transporter 2 Inhibitors pharmacology, Sodium-Glucose Transporter 2 metabolism, Sodium-Glucose Transporter 2 genetics, Heart Failure drug therapy
Abstract

Competing Interests: Data that support the findings of this study are available from the corresponding author upon reasonable request. D.P. Kelly is a consultant for Amgen and Pfizer LLC. J.D. Reagan and S.M. Haldar are employees of and shareholders in Amgen. S.M. Haldar is a scientific founder and a shareholder of Tenaya Therapeutics. The other authors report no conflicts.

Published
2024
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30. The sphinx helps to answer the riddle of cardiac regeneration.

Author

Jung JW, Hla T, and Arany Z

Subjects
Humans, Animals, Fibroblasts metabolism, Signal Transduction physiology, Heart physiology, Sphingolipids metabolism, Heart Failure metabolism, Regeneration physiology, Myocytes, Cardiac metabolism, Myocytes, Cardiac physiology
Abstract

Cardiomyocyte (CM) death drives heart failure worldwide, and efficient CM regeneration remains a fervently pursued but unachieved goal. Ji and colleagues recently described a novel approach to regeneration by orchestrating divergent sphingolipid signaling pathways in CMs and cardiac fibroblasts (CFs). The findings uncover new biology and offer interesting translational opportunities., Competing Interests: Declaration of interests T.H. is an inventor on patents and patent applications related to S1P chaperones. The other authors declare no conflicts of interests., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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31. SGLT2 inhibitors activate pantothenate kinase in the human heart.

Author

Forelli N, Eaton D, Patel J, Bowman CE, Kawakami R, Kuznetsov IA, Li K, Brady C, Bedi K, Yang Y, Koya K, Megill E, Kanter DS, Smith LG, Bowman GR, Snyder N, Edwards J, Margulies K, and Arany Z

Abstract

Inhibitors of sodium glucose cotransporter-2 (SGLT2i) demonstrate strong symptomatic and mortality benefits in the treatment of heart failure but appear to do so independently of SGLT2. The relevant pharmacologic target of SGLT2i remains unclear. We show here that SGLT2i directly activate pantothenate kinase 1 (PANK1), the rate-limiting enzyme that initiates the conversion of pantothenate (vitamin B5) to coenzyme-A (CoA), an obligate co-factor for all major pathways of fuel use in the heart. Using stable-isotope infusion studies, we show that SGLT2i promote pantothenate consumption, activate CoA synthesis, rescue decreased levels of CoA in human failing hearts, and broadly stimulate fuel use in ex vivo perfused human cardiac blocks from patients with heart failure. Furthermore, we show that SGLT2i bind to PANK1 directly at physiological concentrations and promote PANK1 enzymatic activity in assays with purified components. Novel in silico dynamic modeling identified the site of SGLT2i binding on PANK1 and indicated a mechanism of activation involving prevention of allosteric inhibition of PANK1 by acyl-CoA species. Finally, we show that inhibition of PANK1 prevents SGLT2i-mediated increased contractility of isolated adult human cardiomyocytes. In summary, we demonstrate robust and specific off-target activation of PANK1 by SGLT2i, promoting CoA synthesis and efficient fuel use in human hearts, providing a likely explanation for the remarkable clinical benefits of SGLT2i.

Published
2024
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32. Human cardiac metabolism.

Author

Bornstein MR, Tian R, and Arany Z

Subjects
Humans, Animals, Heart, Energy Metabolism, Myocardium metabolism, Heart Failure metabolism
Abstract

The heart is the most metabolically active organ in the human body, and cardiac metabolism has been studied for decades. However, the bulk of studies have focused on animal models. The objective of this review is to summarize specifically what is known about cardiac metabolism in humans. Techniques available to study human cardiac metabolism are first discussed, followed by a review of human cardiac metabolism in health and in heart failure. Mechanistic insights, where available, are reviewed, and the evidence for the contribution of metabolic insufficiency to heart failure, as well as past and current attempts at metabolism-based therapies, is also discussed., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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33. Partial suppression of BCAA catabolism as a potential therapy for BCKDK deficiency.

Author

Ohl L, Kuhs A, Pluck R, Durham E, Noji M, Philip ND, Arany Z, and Ahrens-Nicklas RC

Abstract

Branched chain ketoacid dehydrogenase kinase (BCKDK) deficiency is a recently described inherited neurometabolic disorder of branched chain amino acid (BCAA) metabolism implying increased BCAA catabolism. It has been hypothesized that a severe reduction in systemic BCAA levels underlies the disease pathophysiology, and that BCAA supplementation may ameliorate disease phenotypes. To test this hypothesis, we characterized a recent mouse model of BCKDK deficiency and evaluated the efficacy of enteral BCAA supplementation in this model. Surprisingly, BCAA supplementation exacerbated neurodevelopmental deficits and did not correct biochemical abnormalities despite increasing systemic BCAA levels. These data suggest that aberrant flux through the BCAA catabolic pathway, not just BCAA insufficiency, may contribute to disease pathology. In support of this conclusion, genetic re-regulation of BCAA catabolism, through Dbt haploinsufficiency, partially rescued biochemical and behavioral phenotypes in BCKDK deficient mice. Collectively, these data raise into question assumptions widely made about the pathophysiology of BCKDK insufficiency and suggest a novel approach to develop potential therapies for this disease., Competing Interests: The authors declare no competing interests. R.A. is a scientific advisor for LatusBio., (© 2024 The Authors.)

Published
2024
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34. HIF2α-dependent inhibition of mitochondrial clustering of glutaminase suppresses clear cell renal cell carcinoma.

Author

Kim B, Zhao W, Coffey NJ, Bowman CE, Noji M, Jang C, Simon MC, and Arany Z

Abstract

Clear cell renal cell carcinomas (ccRCC) are largely driven by HIF2α and are avid consumers of glutamine. However, inhibitors of glutaminase1 (GLS1), the first step in glutaminolysis, have not shown benefit in phase III trials, and HIF2α inhibition, recently FDA-approved for treatment of ccRCC, shows great but incomplete benefits, underscoring the need to better understand the roles of glutamine and HIF2α in ccRCC. Here, we report that glutamine deprivation rapidly redistributes GLS1 into isolated clusters within mitochondria across diverse cell types, excluding ccRCC. GLS1 clustering is rapid (1-3 hours) and reversible, is specifically driven by the level of intracellular glutamate, and is mediated by mitochondrial fission. Clustered GLS1 has markedly enhanced glutaminase activity and promotes cell death under glutamine-deprived conditions. We further show that HIF2α prevents GLS1 clustering, independently of its transcriptional activity, thereby protecting ccRCC cells from cell death induced by glutamine deprivation. Reversing this protection, by genetic expression of GLS1 mutants that constitutively cluster, enhances ccRCC cell death in culture and suppresses ccRCC growth in vivo . These finding provide multiple insights into cellular glutamine handling, including a novel metabolic pathway by which HIF2α promotes ccRCC, and reveals a potential therapeutic avenue to synergize with HIF2α inhibition in the treatment of ccRCC.

Published
2024
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35. Sodium-glucose co-transporter 2 Inhibitors Act Independently of SGLT2 to Confer Benefit for Heart Failure with Reduced Ejection Fraction in Mice.

Author

Berger JH, Matsuura TR, Bowman CE, Taing R, Patel J, Lai L, Leone TC, Reagan JD, Haldar SM, Arany Z, and Kelly DP

Abstract

Sodium-glucose co-transporter 2 inhibitors (SGLT2i) are novel, potent heart failure medications with an unknown mechanism of action. We sought to determine if the beneficial actions of SGLT2i in heart failure were on- or off-target, and related to metabolic reprogramming, including increased lipolysis and ketogenesis. The phenotype of mice treated with empagliflozin and genetically engineered mice constitutively lacking SGLT2 mirrored metabolic changes seen in human clinical trials (including reduced blood glucose, increased ketogenesis, and profound glucosuria). In a mouse heart failure model, SGLT2i treatment, but not generalized SGLT2 knockout, resulted in improved systolic function and reduced pathologic cardiac remodeling. SGLT2i treatment of the SGLT2 knockout mice sustained the cardiac benefits, demonstrating an off-target role for these drugs. This benefit is independent of metabolic changes, including ketosis. The mechanism of action and target of SGLT2i in HF remain elusive.

Published
2024
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37. Placental senescence pathophysiology is shared between peripartum cardiomyopathy and preeclampsia in mouse and human.

Author

Roh JD, Castro C, Yu A, Rana S, Shahul S, Gray KJ, Honigberg MC, Ricke-Hoch M, Iwamoto Y, Yeri A, Kitchen R, Guerra JB, Hobson R, Chaudhari V, Chang B, Sarma A, Lerchenmüller C, Al Sayed ZR, Diaz Verdugo C, Xia P, Skarbianskis N, Zeisel A, Bauersachs J, Kirkland JL, Karumanchi SA, Gorcsan J 3rd, Sugahara M, Damp J, Hanley-Yanez K, Ellinor PT, Arany Z, McNamara DM, Hilfiker-Kleiner D, and Rosenzweig A

Subjects
Humans, Pregnancy, Female, Mice, Animals, Peripartum Period, Placenta, Transcription Factors, Pre-Eclampsia, Cardiomyopathies, Heart Failure, Heart Diseases
Abstract

Peripartum cardiomyopathy (PPCM) is an idiopathic form of pregnancy-induced heart failure associated with preeclampsia. Circulating factors in late pregnancy are thought to contribute to both diseases, suggesting a common underlying pathophysiological process. However, what drives this process remains unclear. Using serum proteomics, we identified the senescence-associated secretory phenotype (SASP), a marker of cellular senescence associated with biological aging, as the most highly up-regulated pathway in young women with PPCM or preeclampsia. Placentas from women with preeclampsia displayed multiple markers of amplified senescence and tissue aging, as well as overall increased gene expression of 28 circulating proteins that contributed to SASP pathway enrichment in serum samples from patients with preeclampsia or PPCM. The most highly expressed placental SASP factor, activin A, was associated with cardiac dysfunction or heart failure severity in women with preeclampsia or PPCM. In a murine model of PPCM induced by cardiomyocyte-specific deletion of the gene encoding peroxisome proliferator-activated receptor γ coactivator-1α, inhibiting activin A signaling in the early postpartum period with a monoclonal antibody to the activin type II receptor improved heart function. In addition, attenuating placental senescence with the senolytic compound fisetin in late pregnancy improved cardiac function in these animals. These findings link senescence biology to cardiac dysfunction in pregnancy and help to elucidate the pathogenesis underlying cardiovascular diseases of pregnancy.

Published
2024
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39. Impaired AMPK Control of Alveolar Epithelial Cell Metabolism Promotes Pulmonary Fibrosis.

Author

Rodriguez LR, Alysandratos KD, Katzen J, Murthy A, Barboza WR, Tomer Y, Acin-Perez R, Petcherski A, Minakin K, Carson P, Iyer S, Chavez K, Cooper CH, Babu A, Weiner AI, Vaughan AE, Arany Z, Shirihai OS, Kotton DN, and Beers MF

Abstract

Alveolar epithelial type II (AT2) cell dysfunction is implicated in the pathogenesis of familial and sporadic idiopathic pulmonary fibrosis (IPF). We previously described that expression of an AT2 cell exclusive disease-associated protein isoform (SP-CI73T) in murine and patient-specific induced pluripotent stem cell (iPSC)-derived AT2 cells leads to a block in late macroautophagy and promotes time-dependent mitochondrial impairments; however, how a metabolically dysfunctional AT2 cell results in fibrosis remains elusive. Here using murine and human iPSC-derived AT2 cell models expressing SP-CI73T, we characterize the molecular mechanisms governing alterations in AT2 cell metabolism that lead to increased glycolysis, decreased mitochondrial biogenesis, disrupted fatty acid oxidation, accumulation of impaired mitochondria, and diminished AT2 cell progenitor capacity manifesting as reduced AT2 self-renewal and accumulation of transitional epithelial cells. We identify deficient AMP-kinase signaling as a key upstream signaling hub driving disease in these dysfunctional AT2 cells and augment this pathway to restore alveolar epithelial metabolic function, thus successfully alleviating lung fibrosis in vivo.

Published
2024
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40. Off-target depletion of plasma tryptophan by allosteric inhibitors of BCKDK.

Author

Bowman CE, Neinast MD, Jang C, Patel J, Blair MC, Mirek ET, Jonsson WO, Chu Q, Merlo L, Mandik-Nayak L, Anthony TG, Rabinowitz JD, and Arany Z

Abstract

The activation of branched chain amino acid (BCAA) catabolism has garnered interest as a potential therapeutic approach to improve insulin sensitivity, enhance recovery from heart failure, and blunt tumor growth. Evidence for this interest relies in part on BT2, a small molecule that promotes BCAA oxidation and is protective in mouse models of these pathologies. BT2 and other analogs allosterically inhibit branched chain ketoacid dehydrogenase kinase (BCKDK) to promote BCAA oxidation, which is presumed to underlie the salutary effects of BT2. Potential "off-target" effects of BT2 have not been considered, however. We therefore tested for metabolic off-target effects of BT2 in Bckdk -/- animals. As expected, BT2 failed to activate BCAA oxidation in these animals. Surprisingly, however, BT2 strongly reduced plasma tryptophan levels and promoted catabolism of tryptophan to kynurenine in both control and Bckdk -/- mice. Mechanistic studies revealed that none of the principal tryptophan catabolic or kynurenine-producing/consuming enzymes (TDO, IDO1, IDO2, or KATs) were required for BT2-mediated lowering of plasma tryptophan. Instead, using equilibrium dialysis assays and mice lacking albumin, we show that BT2 avidly binds plasma albumin and displaces tryptophan, releasing it for catabolism. These data confirm that BT2 activates BCAA oxidation via inhibition of BCKDK but also reveal a robust off-target effect on tryptophan metabolism via displacement from serum albumin. The data highlight a potential confounding effect for pharmaceutical compounds that compete for binding with albumin-bound tryptophan.

Published
2024
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41. Clinical predictors of right ventricular dysfunction and association with adverse outcomes in peripartum cardiomyopathy.

Author

Imran TF, Ataklte F, Khalid M, Lopez D, Mohebali D, Bello NA, Gaziano JM, Djousse L, Arany Z, Sabe MA, French K, Poppas A, Wu WC, and Choudhary G

Subjects
Pregnancy, Humans, Female, Adult, Stroke Volume, Ventricular Function, Left, Cohort Studies, Peripartum Period, Prospective Studies, Ventricular Dysfunction, Right etiology, Cardiomyopathies, Heart Failure complications, Heart Failure epidemiology
Abstract

Aims: We sought to identify factors associated with right ventricular (RV) dysfunction and elevated pulmonary artery systolic pressure (PASP) and association with adverse outcomes in peripartum cardiomyopathy (PPCM)., Methods and Results: We conducted a multi-centre cohort study to identify subjects with PPCM with the following criteria: left ventricular ejection fraction (LVEF) < 40%, development of heart failure within the last month of pregnancy or 5 months of delivery, and no other identifiable cause of heart failure with reduced ejection fraction. Outcomes included a composite of (i) major adverse events (need for extracorporeal membrane oxygenation, ventricular assist device, orthotopic heart transplantation, or death) or (ii) recurrent heart failure hospitalization. RV function was obtained from echocardiogram reports. In total, 229 women (1993-2017) met criteria for PPCM. Mean age was 32.4 ± 6.8 years, 28% were of African descent, 50 (22%) had RV dysfunction, and 38 (17%) had PASP ≥ 30 mmHg. After a median follow-up of 3.4 years (interquartile range 1.0-8.8), 58 (25%) experienced the composite outcome of adverse events. African descent, family history of cardiomyopathy, LVEF, and PASP were significant predictors of RV dysfunction. Using Cox proportional hazards models, we found that women with RV dysfunction were three times more likely to experience the adverse composite outcome: hazard ratio 3.21 (95% confidence interval: 1.11-9.28), P = 0.03, in a multivariable model adjusting for age, race, body mass index, preeclampsia, hypertension, diabetes, kidney disease, and LVEF. Women with PASP ≥ 30 mmHg had a lower probability of survival free from adverse events (log-rank P = 0.04)., Conclusions: African descent and family history of cardiomyopathy were significant predictors of RV dysfunction. RV dysfunction and elevated PASP were significantly associated with a composite of major adverse cardiac events. This at-risk group may prompt closer monitoring or early referral for advanced therapies., (© 2023 The Authors. ESC Heart Failure published by John Wiley & Sons Ltd on behalf of European Society of Cardiology.)

Published
2024
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42. Titin-Truncating variants Predispose to Dilated Cardiomyopathy in Diverse Populations.

Author

DePaolo J, Bornstein M, Judy R, Abramowitz S, Verma SS, Levin MG, Arany Z, and Damrauer SM

Abstract

Importance: The effect of high percentage spliced in (hiPSI) TTN truncating variants (TTNtvs) on risk of dilated cardiomyopathy (DCM) has historically been studied among population subgroups defined by genetic similarity to European reference populations. This has raised questions about the effect of TTNtvs in diverse populations, especially among individuals genetically similar to African reference populations., Objective: To determine the effect of TTNtvs on risk of DCM in diverse population as measured by genetic distance (GD) in principal component (PC) space., Design: Cohort study., Setting: Penn Medicine Biobank (PMBB) is a large, diverse biobank., Participants: Participants were recruited from across the Penn Medicine healthcare system and volunteered to have their electronic health records linked to biospecimen data including DNA which has undergone whole exome sequencing., Main Outcomes and Measures: Risk of DCM among individuals carrying a hiPSI TTNtv., Results: Carrying a hiPSI TTNtv was associated with DCM among PMBB participants across a range of GD deciles from the 1000G European centroid; the effect estimates ranged from odds ratio (OR) = 3.29 (95% confidence interval [CI] 1.26 to 8.56) to OR = 9.39 (95% CI 3.82 to 23.13). When individuals were assigned to population subgroups based on genetic similarity to the 1000G reference populations, hiPSI TTNtvs conferred significant risk of DCM among those genetically similar to the 1000G European reference population (OR = 7.55, 95% CI 4.99 to 11.42, P <0.001) and individuals genetically similar to the 1000G African reference population (OR 3.50, 95% CI 1.48 to 8.24, P =0.004)., Conclusions and Relevance: TTNtvs are associated with increased risk of DCM among a diverse cohort. There is no significant difference in effect of TTNtvs on DCM risk across deciles of GD from the 1000G European centroid, suggesting genetic background should not be considered when screening individuals for titin-related DCM.

Published
2024
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44. Peripartum Cardiomyopathy.

Author

Arany Z

Subjects
Female, Humans, Peripartum Period, Puerperal Disorders diagnosis, Cardiomyopathies diagnosis, Pregnancy Complications, Cardiovascular diagnosis
Published
2024
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45. Endothelial lipid droplets suppress eNOS to link high fat consumption to blood pressure elevation.

Author

Kim B, Zhao W, Tang SY, Levin MG, Ibrahim A, Yang Y, Roberts E, Lai L, Li J, Assoian RK, FitzGerald GA, and Arany Z

Subjects
Animals, Mice, Blood Pressure, Endothelial Cells metabolism, Endothelium, Vascular metabolism, Nitric Oxide metabolism, Obesity metabolism, Diet, High-Fat adverse effects, Hypertension metabolism, Lipid Droplets metabolism, Nitric Oxide Synthase Type III genetics, Nitric Oxide Synthase Type III metabolism
Abstract

Metabolic syndrome, today affecting more than 20% of the US population, is a group of 5 conditions that often coexist and that strongly predispose to cardiovascular disease. How these conditions are linked mechanistically remains unclear, especially two of these: obesity and elevated blood pressure. Here, we show that high fat consumption in mice leads to the accumulation of lipid droplets in endothelial cells throughout the organism and that lipid droplet accumulation in endothelium suppresses endothelial nitric oxide synthase (eNOS), reduces NO production, elevates blood pressure, and accelerates atherosclerosis. Mechanistically, the accumulation of lipid droplets destabilizes eNOS mRNA and activates an endothelial inflammatory signaling cascade that suppresses eNOS and NO production. Pharmacological prevention of lipid droplet formation reverses the suppression of NO production in cell culture and in vivo and blunts blood pressure elevation in response to a high-fat diet. These results highlight lipid droplets as a critical and unappreciated component of endothelial cell biology, explain how lipids increase blood pressure acutely, and provide a mechanistic account for the epidemiological link between obesity and elevated blood pressure.

Published
2023
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46. Comprehensive quantification of metabolic flux during acute cold stress in mice.

Author

Bornstein MR, Neinast MD, Zeng X, Chu Q, Axsom J, Thorsheim C, Li K, Blair MC, Rabinowitz JD, and Arany Z

Subjects
Animals, Mice, Adipose Tissue, Brown metabolism, Glucose metabolism, Energy Metabolism, Cold Temperature, Cold-Shock Response, Thermogenesis physiology
Abstract

Cold-induced thermogenesis (CIT) is widely studied as a potential avenue to treat obesity, but a thorough understanding of the metabolic changes driving CIT is lacking. Here, we present a comprehensive and quantitative analysis of the metabolic response to acute cold exposure, leveraging metabolomic profiling and minimally perturbative isotope tracing studies in unanesthetized mice. During cold exposure, brown adipose tissue (BAT) primarily fueled the tricarboxylic acid (TCA) cycle with fat in fasted mice and glucose in fed mice, underscoring BAT's metabolic flexibility. BAT minimally used branched-chain amino acids or ketones, which were instead avidly consumed by muscle during cold exposure. Surprisingly, isotopic labeling analyses revealed that BAT uses glucose largely for TCA anaplerosis via pyruvate carboxylation. Finally, we find that cold-induced hepatic gluconeogenesis is critical for CIT during fasting, demonstrating a key functional role for glucose metabolism. Together, these findings provide a detailed map of the metabolic rewiring driving acute CIT., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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47. Partial suppression of BCAA catabolism as a potential therapy for BCKDK deficiency.

Author

Ohl L, Kuhs A, Pluck R, Durham E, Noji M, Philip ND, Arany Z, and Ahrens-Nicklas RC

Abstract

Branched chain ketoacid dehydrogenase kinase (BCKDK) deficiency is a recently described inherited neurometabolic disorder of branched chain amino acid (BCAA) metabolism implying increased BCAA catabolism. It has been hypothesized that a severe reduction in systemic BCAA levels underlies the disease pathophysiology, and that BCAA supplementation may ameliorate disease phenotypes. To test this hypothesis, we characterized a recent mouse model of BCKDK deficiency and evaluated the efficacy of enteral BCAA supplementation in this model. Surprisingly, BCAA supplementation exacerbated neurodevelopmental deficits and did not correct biochemical abnormalities despite increasing systemic BCAA levels. These data suggest that aberrant flux through the BCAA catabolic pathway, not just BCAA insufficiency, may contribute to disease pathology. In support of this conclusion, genetic re-regulation of BCAA catabolism, through Dbt haploinsufficiency, partially rescued biochemical and behavioral phenotypes in BCKDK deficient mice. Collectively, these data raise into question assumptions widely made about the pathophysiology of BCKDK insufficiency and suggest a novel approach to develop potential therapies for this disease.

Published
2023
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49. Functional Impact of Alternative Metabolic Substrates in Failing Human Cardiomyocytes.

Author

Vite A, Matsuura TR, Bedi KC, Flam EL, Arany Z, Kelly DP, and Margulies KB

Abstract

Recent studies suggest that metabolic dysregulation in patients with heart failure might contribute to myocardial contractile dysfunction. To understand the correlation between function and energy metabolism, we studied the impact of different fuel substrates on human nonfailing or failing cardiomyocytes. Consistent with the concept of metabolic flexibility, nonfailing myocytes exhibited excellent contractility in all fuels provided. However, impaired contractility was observed in failing myocytes when carbohydrates alone were used but was improved when additional substrates were added. This study demonstrates the functional significance of fuel utilization shifts in failing human cardiomyocytes., Competing Interests: This project was funded by the National Institutes of Health (NIH) (R01 HL128349 and R01 HL151345, to Dr Kelly) and the Gund Family Fund at the University of Pennsylvania (to Dr Margulies). The procurement of human heart tissue was enabled by grants from NIH (R01 HL149891, to Dr Margulies). The authors have reported that they have no relationships relevant to the contents of this paper to disclose., (© 2024 The Authors.)

Published
2023
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50. Clinical Predictors of Referral for and Yield of Genetic Testing in Peripartum Cardiomyopathy.

Author

Reza N, Packard E, Goli R, Chowns JL, Owens AT, Arany Z, and Lewey J

Subjects
Female, Humans, Pregnancy, Peripartum Period, Genetic Testing, Referral and Consultation, Heart Failure, Cardiomyopathies diagnosis, Cardiomyopathies genetics, Puerperal Disorders, Pregnancy Complications, Cardiovascular diagnosis, Pregnancy Complications, Cardiovascular genetics
Published
2023
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