NT-PGC-1α Protein Is Sufficient to Link β3-Adrenergic Receptor Activation to Transcriptional and Physiological Components of Adaptive Thermogenesis*

Background: PPARGC1A produces PGC-1α and NT-PGC-1α, but alternative splicing from exon 1b generates additional PGC-1α isoforms. Results: Thermoregulatory thermogenesis is uncompromised in mice that lack PGC-1α but retain expression of slightly shorter forms of NT-PGC-1α. Conclusion: NT-PGC-1α is sufficient to link β3-AR activation to the components of adaptive thermogenesis in adipose tissue. Significance: NT-PGC-1α plays a crucial role in the physiological effects of PGC-1α. PGC-1α is an inducible transcriptional coactivator that regulates cellular energy metabolism and adaptation to environmental and nutritional stimuli. In tissues expressing PGC-1α, alternative splicing produces a truncated protein (NT-PGC-1α) corresponding to the first 267 amino acids of PGC-1α. Brown adipose tissue also expresses two novel exon 1b-derived isoforms of PGC-1α and NT-PGC-1α, which are 4 and 13 amino acids shorter in the N termini than canonical PGC-1α and NT-PGC-1α, respectively. To evaluate the ability of NT-PGC-1α to substitute for PGC-1α and assess the isoform-specific role of NT-PGC-1α, adaptive thermogenic responses of adipose tissue were evaluated in mice lacking full-length PGC-1α (FL-PGC-1−/−) but expressing slightly shorter but functionally equivalent forms of NT-PGC-1α (NT-PGC-1α254). At room temperature, NT-PGC-1α and NT-PGC-1α254 were produced from conventional exon 1a-derived transcripts in brown adipose tissue of wild type and FL-PGC-1α−/− mice, respectively. However, cold exposure shifted transcription to exon 1b, increasing exon 1b-derived mRNA levels. The resulting transcriptional responses produced comparable increases in energy expenditure and maintenance of core body temperature in WT and FL-PGC-1α−/− mice. Moreover, treatment of the two genotypes with a selective β3-adrenergic receptor agonist produced similar increases in energy expenditure, mitochondrial DNA, and reductions in adiposity. Collectively, these findings illustrate that the transcriptional and physiological responses to sympathetic input are unabridged in FL-PGC-1α−/− mice, and that NT-PGC-1α is sufficient to link β3-androgenic receptor activation to adaptive thermogenesis in adipose tissue. Furthermore, the transcriptional shift from exon 1a to 1b supports isoform-specific roles for NT-PGC-1α in basal and adaptive thermogenesis.

• Publication year

  2012

• Venue

  Journal of Biological Chemistry

• Publication date

  2012-01-26

• Fields of study

  Biology, Medicine

• Identifiers
  DOI 10.1074/jbc.M111.320200PMID 22282499PMCID PMC3308807
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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