Your search keyword '"Conrad P. Hodgkinson"' showing total 8 results

1. Skeletal muscle differentiation induces wide-ranging nucleosome repositioning in muscle gene promoters

Author

Sonalí Harris, Iqra Anwar, Syeda S. Baksh, Richard E. Pratt, Victor J. Dzau, and Conrad P. Hodgkinson

Subjects

Sp3, Skeletal muscle, Cardiac muscle, MNase-seq, ChIP-seq, Medicine, Science

Abstract

Abstract In a previous report, we demonstrated that Cbx1, PurB and Sp3 inhibited cardiac muscle differentiation by increasing nucleosome density around cardiac muscle gene promoters. Since cardiac and skeletal muscle express many of the same proteins, we asked if Cbx1, PurB and Sp3 similarly regulated skeletal muscle differentiation. In a C2C12 model of skeletal muscle differentiation, Cbx1 and PurB knockdown increased myotube formation. In contrast, Sp3 knockdown inhibited myotube formation, suggesting that Sp3 played opposing roles in cardiac muscle and skeletal muscle differentiation. Consistent with this finding, Sp3 knockdown also inhibited various muscle-specific genes. The Cbx1, PurB and Sp3 proteins are believed to influence gene-expression in part by altering nucleosome position. Importantly, we developed a statistical approach to determine if changes in nucleosome positioning were significant and applied it to understanding the architecture of muscle-specific genes. Through this novel statistical approach, we found that during myogenic differentiation, skeletal muscle-specific genes undergo a set of unique nucleosome changes which differ significantly from those shown in commonly expressed muscle genes. While Sp3 binding was associated with nucleosome loss, there appeared no correlation with the aforementioned nucleosome changes. In summary, we have identified a novel role for Sp3 in skeletal muscle differentiation and through the application of quantifiable MNase-seq have discovered unique fingerprints of nucleosome changes for various classes of muscle genes during myogenic differentiation.

Published

2024

2. Modifying miRs for effective reprogramming of fibroblasts to cardiomyocytes

Author

Xinghua Wang, Syeda S. Baksh, Richard E. Pratt, Victor J. Dzau, and Conrad P. Hodgkinson

Subjects

MT: Non-coding RNAs, 5′-triphosphorylation, RNA modification, fibroblasts, cardiomyocytes, reprogramming, Therapeutics. Pharmacology, RM1-950

Abstract

Reprogramming scar fibroblasts into cardiomyocytes has been proposed to reverse the damage associated with myocardial infarction. However, the limited improvement in cardiac function calls for enhanced strategies. We reported enhanced efficacy of our miR reprogramming cocktail miR combo (miR-1, miR-133a, miR-208a, and miR-499) via RNA-sensing receptor stimulation. We hypothesized that we could combine RNA-sensing receptor activation with fibroblast reprogramming by chemically modifying miR combo. To test the hypothesis, miR combo was modified to enhance interaction with the RNA-sensing receptor Rig1 via the addition of a 5′-triphosphate (5′ppp) group. Importantly, when compared with unmodified miR combo, 5′ppp-modified miR combo markedly improved reprogramming efficacy in vitro. Enhanced reprogramming efficacy correlated with a type-I interferon immune response with strong and selective secretion of interferon β (IFNβ). Antibody blocking studies and media replacement experiments indicated that 5′ppp-miR combo utilized IFNβ to enhance fibroblast reprogramming efficacy. In conclusion, miRs can acquire powerful additional roles through chemical modification that potentially increases their clinical applications.

Published

2024

3. miRNAs to the rescue: Reversing heart failure by targeting miR-29

Author

Xinghua Wang, Iqra Anwar, and Conrad P. Hodgkinson

Subjects

Therapeutics. Pharmacology, RM1-950

Published

2024

4. Novel method of differentiating human induced pluripotent stem cells to mature cardiomyocytes via Sfrp2

Author

Ying-Chang Hsueh, Richard E. Pratt, Victor J. Dzau, and Conrad P. Hodgkinson

Subjects

Medicine, Science

Abstract

Abstract Current methods to generate cardiomyocytes from induced pluripotent stem cells (iPSc) utilize broad-spectrum pharmacological inhibitors. These methods give rise to cardiomyocytes which are typically immature. Since we have recently demonstrated that cardiomyogenesis in vitro and in vivo requires Sfrp2, we asked if Sfrp2 would drive differentiation of human iPSc into cardiomyocytes. Indeed, we found that Sfrp2 induced robust cardiac differentiation. Importantly, replacement of broad spectrum pharmacological inhibitors with Sfrp2 gave rise to mature cardiomyocytes as evidenced by their sarcomere structure, electrophysiological profiles, and ability to form gap junctions.

Published

2023

5. Conservation of miR combo based direct cardiac reprogramming

Author

Syeda Samara Baksh and Conrad P. Hodgkinson

Subjects

Reprogramming, Fibroblasts, Cardiomyocytes, miRNAs, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

There is considerable interest in regenerating the injured heart by reprogramming resident fibroblasts into new functional cardiomyocytes. Cardiac reprogramming has been achieved via transcription factors or miRNAs. Transcription factor combinations appear to be species-specific as evidenced by the fact that combinations of transcription factors which are effective for the reprogramming of mouse fibroblasts are ineffective in pigs and humans. Whether miRNA based cardiac reprogramming suffers from the same limitation is unknown. We have previously demonstrated that mouse cardiac fibroblasts can be directly converted into cardiomyocytes both in vitro and in vivo via a combination of four microRNAs (miR-1, miR-133a, miR-208a and miR-499) termed “miR combo.” To assess species-specificity, miR combo was transfected into cardiac fibroblasts isolated from the left ventricle of dogs, pigs and humans. QPCR analysis indicated that miR combo effectively reprogrammed fibroblasts from all of the tested mammalian species. Significant upregulation of cardiac developmental, sarcomere, and cardiac ion channel genes was observed. Through Actn2+ staining, we also found that miR combo transfection induced dog, pig and human cardiac fibroblasts to develop into cardiomyocyte-like cells. In conclusion, we have demonstrated that in contrast to transcription factor based approaches, miR combo effectively reprograms mammalian cardiac fibroblasts into cardiomyocyte-like cells.

Published

2022

6. Rig1 receptor plays a critical role in cardiac reprogramming via YY1 signaling

Author

Syeda S. Baksh, Jiabiao Hu, Richard E. Pratt, Victor J. Dzau, and Conrad P. Hodgkinson

Subjects

Physiology, Cell Biology

Abstract

We discovered that innate immunity plays an important role in the reprogramming of fibroblasts into cardiomyocytes. In this report, we define the role of a novel retinoic acid-inducible gene 1 Yin Yang 1 (Rig1:YY1) pathway. We found that fibroblast to cardiomyocyte reprogramming efficacy was enhanced by specific Rig1 activators. To understand the mechanism of action, we performed various transcriptomic, nucleosome occupancy, and epigenomic approaches. Analysis of the datasets indicated that Rig1 agonists had no effect on reprogramming-induced changes in nucleosome occupancy or loss of inhibitory epigenetic motifs. Instead, Rig1 agonists were found to modulate cardiac reprogramming by promoting the binding of YY1 specifically to cardiac genes. To conclude, these results show that the Rig1:YY1 pathway plays a critical role in fibroblast to cardiomyocyte reprogramming.

Published

2023

7. Loss of PLCε activity as a culprit of ascending aortic dilation and aortic aneurysm

Author

Conrad P. Hodgkinson and Jose A. Gomez

Subjects

Physiology, Physiology (medical), Cardiology and Cardiovascular Medicine

Published

2023

8. Neonatal and adult cardiac fibroblasts exhibit inherent differences in cardiac regenerative capacity

Author

Hualing Sun, Richard E. Pratt, Victor J. Dzau, and Conrad P. Hodgkinson

Subjects

Cell Biology, Molecular Biology, Biochemistry

Published

2023