Review

. 2016 Apr 25;1(3):107-121.

doi: 10.1016/j.jacbts.2016.02.001. eCollection 2016 Apr.

Transcriptomic Analysis Identifies the Effect of Beta-Blocking Agents on a Molecular Pathway of Contraction in the Heart and Predicts Response to Therapy

Bettina Heidecker¹, Michelle M Kittleson², Edward K Kasper³, Ilan S Wittstein³, Hunter C Champion⁴, Stuart D Russell³, Kenneth L Baughman⁵, Joshua M Hare⁶

Affiliations

¹ University of California, San Francisco, California.
² Cedars Sinai, Los Angeles, California.
³ The Johns Hopkins Hospital, Baltimore, Maryland.
⁴ University of Pittsburgh, Pittsburgh, Pennsylvania.
⁵ Brigham and Women's Hospital, Boston, Massachusetts.
⁶ University of Miami, Miami, Florida.

PMID: 30167508
PMCID: PMC6113163
DOI: 10.1016/j.jacbts.2016.02.001

Review

Transcriptomic Analysis Identifies the Effect of Beta-Blocking Agents on a Molecular Pathway of Contraction in the Heart and Predicts Response to Therapy

Bettina Heidecker et al. JACC Basic Transl Sci. 2016.

. 2016 Apr 25;1(3):107-121.

doi: 10.1016/j.jacbts.2016.02.001. eCollection 2016 Apr.

Authors

Bettina Heidecker¹, Michelle M Kittleson², Edward K Kasper³, Ilan S Wittstein³, Hunter C Champion⁴, Stuart D Russell³, Kenneth L Baughman⁵, Joshua M Hare⁶

Affiliations

¹ University of California, San Francisco, California.
² Cedars Sinai, Los Angeles, California.
³ The Johns Hopkins Hospital, Baltimore, Maryland.
⁴ University of Pittsburgh, Pittsburgh, Pennsylvania.
⁵ Brigham and Women's Hospital, Boston, Massachusetts.
⁶ University of Miami, Miami, Florida.

PMID: 30167508
PMCID: PMC6113163
DOI: 10.1016/j.jacbts.2016.02.001

Abstract

Over the last decades, beta-blockers have been a key component of heart failure therapy. However, currently there is no method to identify patients who will benefit from beta-blocking therapy versus those who will be unresponsive or worsen. Furthermore, there is an unmet need to better understand molecular mechanisms through which heart failure therapies, such as beta-blockers, improve cardiac function, in order to design novel targeted therapies. Solving these issues is an important step towards personalized medicine. Here, we present a comprehensive transcriptomic analysis of molecular pathways that are affected by beta-blocking agents and a transcriptomic biomarker to predict therapy response.

Keywords: AR, adrenergic receptor; EF, ejection fraction; EMB, endomyocardial biopsy; GO, gene ontology; HF, heart failure; MYH, myosin heavy chain; MiPP, Misclassified Penalized Posteriors; SAM, significance analysis of microarrays; SERCA, sarcoplasmic reticulum calcium-dependent ATPase; TBB, transcriptomic-based biomarker; beta-blocking agents; biomarker; gene expression; heart failure; transcriptomics.

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Figures

**Figure 1**
Study Design We analyzed a cohort of 43 patients with idiopathic dilated cardiomyopathy for molecular changes that are induced by beta-blocking agents. Among the patients on beta-blocking agents, we selected patients with poor (n = 13) versus good prognosis (n = 17) to identify gene expression changes in patients who improved during therapy with beta-blockers. Two-thirds of the data were used as a train set to develop the biomarker (poor prognosis n = 8; good prognosis: n = 11) and one-third of the data was used as an independent test set for validation of the molecular signature (poor prognosis: n = 5; good prognosis: n = 6).

**Figure 2**
Significance Analysis of Microarrays Plot of Differentially Expressed Genes in Patients on Beta-Blocking Agents Versus Alternative Therapy in IDCM There were 94 genes differentially expressed in patients treated with beta-blocking agents versus alternative therapy (q value <5%, fold change >1.2). No downregulated genes were detected in patients treated with beta-blocking agents. The 94 overexpressed genes are depicted in **red**. IDCM = idiopathic dilated cardiomyopathy.

**Figure 3**
Heat Map of Samples From All Patients With IDCM When we applied this unsupervised clustering algorithm, samples from patients on beta-blocking agents were grouped in a classification tree (highlighted in a **dotted square**) that was very distinct from patients who received alternative therapy. Each **column** represents a patient sample, and each **row** corresponds to a gene. Down-regulated genes are depicted in **red**, whereas up-regulated genes are labeled in **blue**.

**Figure 4**
Signaling Pathway of Rho Guanine Nucleotide Exchange Factor Important functions of this pathway involve antiapoptotic actions and regulation of actin-myosin interaction.

See this image and copyright information in PMC

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Transcriptomic Analysis Identifies the Effect of Beta-Blocking Agents on a Molecular Pathway of Contraction in the Heart and Predicts Response to Therapy

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Transcriptomic Analysis Identifies the Effect of Beta-Blocking Agents on a Molecular Pathway of Contraction in the Heart and Predicts Response to Therapy

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