In:
Circulation Research, Ovid Technologies (Wolters Kluwer Health), Vol. 121, No. suppl_1 ( 2017-07-21)
Abstract:
Direct conversion of fibroblasts to cardiomyocytes (CM) is advancing the field of cardiac regeneration. Despite advantages of direct reprogramming, the presence of residual epigenetic memory of the original cells may hinder clinical transition. Thus, choosing a starting cell with similar ontogeny to the desired reprogrammed cell may overcome some of the limitations. Expression of key cardiogenic genes shared between cardiac fibroblasts (CFb) and CM in addition to the abundance of these cells, suggest that CFb may be the optimal autologous cell source for therapeutic manipulation in treating heart disease. We hypothesized that progenitors, transiently expressing Mesp1 generate a sub-population of CFb which are more prone to direct reprogramming and adopt a cardiomyocyte gene profile due to their maintained epigenetic memory. We generated a Mesp1CremTmG mouse to label all cells expressing Mesp1 and their progeny and we observed that the majority of the cells in the heart including CFb are derived from Mesp1 cells. We showed that ~80% of resident CFb are derived from Mesp1 while a minor non-Mesp1 subset also exists. We compared the reprogramming efficiency of CFb of Mesp1 origin to CFb of other origin to induced CM (iCM) by overexpression of specific cardiac transcription factors. Results from immunostaining and gene analysis showed higher expression of cardiac muscle markers in CM induced from Mesp1 CFb. To further delineate potential differences between two subsets, we performed RNAseq and our results showed that the non Mesp1 CFb were enriched in neural crest related genes. We generated Pax3CremTmG mice to lineage trace neural crest-derived cells. Our results confirmed a minor contribution of Pax3 cells to CFb. We developed a modified CLARITY technique to transform the heart into an optically-transparent organ for light-sheet fluorescence imaging. We observed that Pax3 CFb were mainly located in the wall of aorta while Mesp1 CFb were distributed throughout the heart. Additionally, we are studying whether each CFb subset has the tendency to generate a specific subtype of iCM (ventricular, atrial, and nodal CM). These results can identify distinct sub-populations of CFb, which can generate functional cardiomyocytes for cardiac-regenerative therapies.
Type of Medium:
Online Resource
ISSN:
0009-7330
,
1524-4571
DOI:
10.1161/res.121.suppl_1.350
Language:
English
Publisher:
Ovid Technologies (Wolters Kluwer Health)
Publication Date:
2017
detail.hit.zdb_id:
1467838-X
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