A ratiometric catalog of protein isoform shifts in the cardiac fetal gene program
Yu Han, Shaonil Binti, Sara A. Wennersten, Boomathi Pandi, Dominic C.M. Ng, Edward Lau, Maggie P.Y. Lam
Yu Han, Shaonil Binti, Sara A. Wennersten, Boomathi Pandi, Dominic C.M. Ng, Edward Lau, Maggie P.Y. Lam
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Research Article Aging Cardiology

A ratiometric catalog of protein isoform shifts in the cardiac fetal gene program

Abstract

Pathological cardiac remodeling is associated with the reactivation of fetal genes, yet the extent of the heart’s fetal gene program and its impact on proteome compositions remain incompletely understood. Here, using a proteome-wide protein ratio quantification strategy with mass spectrometry, we identified pervasive isoform usage shifts in fetal and postnatal mouse hearts, involving 145 pairs of highly homologous paralogs and alternative splicing–derived isoform proteins. Proteome-wide ratio comparisons readily rediscovered hallmark fetal gene signatures in muscle contraction and glucose metabolism pathways, while revealing what we believe to be previously undescribed isoform usage in mitochondrial and gene-expression-regulating proteins, including PPA1/PPA2, ANT1/ANT2, and PCBP1/PCBP2 switches. Paralogs with differential fetal usage tend to be evolutionarily recent, consistent with functional diversification. Alternative splicing adds another rich source of fetal isoform usage differences, involving PKM M1/M2, GLS1 KGA/GAC, PDLIM5 long/short, and other spliceoforms. When comparing absolute protein proportions, we observed a partial reversion toward fetal gene usage in pathological hearts. In summary, we present a ratiometric catalog of paralogs and spliceoform pairs in the cardiac fetal gene program. More generally, the results demonstrate the potential of applying the proteome-wide ratio test concept to discover new regulatory modalities beyond differential gene expression.

Authors

Yu Han, Shaonil Binti, Sara A. Wennersten, Boomathi Pandi, Dominic C.M. Ng, Edward Lau, Maggie P.Y. Lam

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Figure 5

Evolutionary conservation of fetally regulated paralogs.

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Evolutionary conservation of fetally regulated paralogs. (A) Sorted prop...
(A) Sorted proportional bar charts showing the evolutionary conservation of all paralog pairs within each of the paralog groups from the most deeply conserved (across opisthokonta) to the least (Muroidea to Mus). (B) Proportional bar charts showing the binned average sequence homology among all paralog pairs within each conservation distance category. Open parenthesis “(” = noninclusive interval; closing bracket “]” = inclusive interval. (C) Violin/box plots of paralog differential expression status in fetal hearts versus mean sequence identity (query/target). P value derived from 2-tailed t test. (D) Proportional bar charts showing the ancestry distribution of paralog pairs that have consistent versus differential expression ratios in E17 versus P1 hearts. P values derived from Fisher’s exact test for opisthokonta membership. (E) Proportional bar charts showing Ensembl paralog type versus differential expression ratios in E17 versus P1 hearts. P values derived from Fisher’s exact test. (F) Proportional bar charts showing ancient versus recent gene family categorization of paralog pairs from Mantica et al. (43) against differential expression ratios in E17 versus P1 hearts. P values derived from Fisher’s exact test.