1. These findings directly demonstrate and implicate reduced Na(+) in contrast to unchanged K(+) current, as a mechanism for slowed conduction causing atrial arrhythmogenicity in Pgc-1beta(-/-) hearts. PMID: 29197478
2. Mitochondrial dysfunction thus causes pro-arrhythmic Pgc-1beta(-/-) phenotypes by altering action potential conduction through reducing (dV/dt)max and causing age-dependent fibrotic change. PMID: 29763629
3. Hepatic PGC-1beta is a transcriptional gatekeeper of mitochondrial function and redox status in hepatocellular carcinoma, orchestrating different metabolic programs that allow tumor progression. PMID: 28857232
4. Pgc-1beta deficient murine hearts show atrial arrhythmic phenotype secondary to mitochondrial dysfunction that is dependent on age PMID: 28919427
5. MyoD regulates the oxidative metabolic capacity of adult skeletal muscle;ChIP-seq analysis identified MyoD binding on the PGC-1b, but not PGC-1a, gene locus;MyoD cooperates with alternative NF-kappaB to regulate PGC-1b transcription; MyoD and RelB co-occupy many other genes involved in aerobic respiration PMID: 27705798
6. We conclude that while activation of muscle PGC-1beta is sufficient to drive the complete endurance phenotype in sedentary mice, it only partially prevents the detraining response following exercise training, suggesting that the process of endurance detraining involves mechanisms beyond the reversal of muscle autonomous mechanisms involved in endurance fitness. PMID: 28270443
7. Data suggest that PGC-1alpha and -1beta expression are not required for training-induced exercise performance, highlighting the contribution of PGC-1-independent mechanisms. PMID: 27780821
8. We confirmed that PGC-1b inhibited downstream inflammatory signals via binding with TAB1 and thus preventing TAB1/TAK1 binding and TAK1 activation. PMID: 26748475
9. the anti-inflammatory environment in muscle promoted by the PGC-1s might contribute to the beneficial effects of these coactivators on muscle function and provides a molecular link underlying the tight mutual regulation of metabolism and inflammation PMID: 26159922
10. PGC1beta represses proangiogenic genes and stimulates antiangiogenic genes in muscle ischemia. PGC1beta inhibits neoangiogenesis and blocks ischemic revascularization. PMID: 25066120
11. The data indicate a novel detrimental age-dependent role of PPAR beta/delta in Alzheimer disease by increasing pro-BDNF and decreasing BDNF/TrkB survival pathways. PMID: 24621497
12. PGC-1beta in the gut acts as an adaptive self-point regulator, capable of providing a balance between enhanced mitochondrial activity and protection from increased ROS production PMID: 25288742
13. Fisetin regulates the expression of hepatic lipid metabolism genes by downregulating miR-378 and the host gene PGC-1beta. PMID: 23818290
14. Our aim was to assess the role of PGC-1 coactivators during postnatal cardiac development and in adult hearts in mice. PMID: 24366168
15. Gene expression profiling of PGC-1alphabeta(-/-) hearts revealed reduced expression of the gene encoding CDP-diacylglycerol synthase 1 (Cds1), an enzyme that catalyzes the proximal step in CL biosynthesis. PMID: 24337569
16. PGC-1 beta is Critical for electron transport chain Capacity PMID: 23707060
17. Hepatic-specific action of PGC-1beta regulates lipid synthesis and secretion, as well as mitochondrial biogenesis and function. PMID: 23299802
18. PGC-1beta plays dual roles in regulating hepatic fatty acid metabolism by controlling the expression of programs of genes involved in both fatty acid oxidation and de novo fatty acid synthesis. PMID: 23285128
19. a functional liver clock is required for the proper nutritional and circadian regulation of USP2-45 expression; at the molecular level, transcriptional coactivators PGC-1alpha and PGC-1beta and repressor E4BP4 exert opposing effects on USP2-45 promoter activity PMID: 23133608
20. Peroxisome proliferator-activated receptor gamma coactivator 1beta (PGC-1beta) protein attenuates vascular lesion formation by inhibition of chromatin loading of minichromosome maintenance complex in smooth muscle cells PMID: 23264620
21. peroxisome proliferator-activated receptor gamma coactivator 1alpha/beta (PGC-1) coactivators repress the transcriptional activity of NF-kappaB in skeletal muscle cells PMID: 23223635
22. Our data indicate that genetic ablation of PGC-1beta might increase the susceptibility to neuronal damage and cell death PMID: 22771762
23. the 50-flanking region of the Cact gene contains a consensus sequence for ERRalpha. This sequence binds ERRa both in vivo and in vitro and is required for the activation of Cact expression by the PGC-1/ERR axis PMID: 22713466
24. Nrf1 binds to the antioxidant response elements (AREs) in regulatory regions of the Lipin1 and PGC-1beta genes and the binding of Nrf1 to the AREs activates reporter gene transcription. PMID: 22586274
25. The transcriptional coactivators, PGC-1alpha and beta, cooperate to maintain cardiac mitochondrial function during the early stages of insulin resistance. PMID: 22080103
26. ERRalpha-induced adipogenesis was greatly attenuated when knocking down PGC-1beta expression, while rescued by overexpression of PGC-1beta. PMID: 21732060
27. PGC-1beta and not PGC-1alpha regulates basal and rosiglitazone-induced mitochondrial gene expression in white adipocytes PMID: 22087241
28. Findings disclose a novel MyD88-independent pathway in S. aureus sepsis that links TLR2 and TLR4 signaling in innate immunity to Ppargc1a/b gene regulation in a critical metabolic organ, the liver, by means of TRAM, TRIF, and IRF-7. PMID: 21966468
29. PGC1beta(-/-) hearts showed a lysophospholipid-induced cardiac lipotoxicity and impaired bioenergetics accompanied by an ion channel remodelling and altered Ca(2+) homeostasis PMID: 21632884
30. PGC-1beta plays an important role in maintaining baseline mitochondrial function and cardiac contractile function following pressure overload hypertrophy by preserving glucose metabolism and preventing oxidative stress. PMID: 21799152
31. Data show that PGC-1beta affects not only insulin sensitivity but also mitochondrial biogenesis and function. PMID: 21499715
32. PGC-1beta regulates plasma triglyceride metabolism through stimulating apolipoprotein C3 (APOC3) expression and elevating APOC3 levels in circulation PMID: 20889132
33. Both innate immune signaling through the TLRs and mir-202-3p-mediated mRNA degradation are implicated in the co-regulation of Ppargc1a and Ppargc1b during inflammation. PMID: 20657826
34. PGC1beta is an essential mediator for the PPARgamma stimulation of osteoclastogenesis by targeting both PPARgamma itself and ERRalpha. PMID: 20519122
35. PGC-1alpha and PGC-1beta inhibit FoxO3 and NFkappaB actions and proteolysis, and have a role in exercise prevention of muscle atrophy PMID: 20404331
36. Dual modulation of both lipid oxidation and synthesis by peroxisome proliferator-activated receptor-gamma coactivator-1alpha and -1beta in cultured myotubes. PMID: 19906680
37. Findings suggest that downregulation of Pparalpha and its coactivators,Pgc1alpha and Pgc1beta, is responsible for the reduced utilization of fatty acids in liver and skeletal muscle and the reduced thermogenesis occurring in the lactating animal. PMID: 19578095
38. profoundly alter mitochondrial metabolism (PGC-1alpha) PMID: 12734177
39. PGC-1beta/ERRL1 can function as a protein ligand of ERR, and that its level contributes to the control of energy balance in vivo PMID: 14530391
40. Foxa2/Pgc-1beta regulate hepatic lipid homeostasis by affecting the clearance rate of fatty acids through oxidation and/or secretion of lipids in response to insulin. PMID: 16459311
41. PGC-1beta plays a general role in controlling basal mitochondrial function and also participates in tissue-specific adaptive responses during metabolic stress. PMID: 17090215
42. data indicate that PGC-1beta drives the formation of highly oxidative fibers containing type IIX myosin heavy chain. PMID: 17189205
43. These results suggest that PGC-1beta in mouse plays a nonredundant role in controlling mitochondrial oxidative energy metabolism. PMID: 17360356
44. JNK1 loss in liver up-regulates proliferator-activated receptor gamma coactivator 1 beta and increases plasma triglyceride despite reduced glucose and insulin levels in diet-induced obese mice PMID: 17550900
45. Hepatic overexpression of PGC-1 beta generated a combined hyperlipidemia phenotype. The effects of PPAR activation on gene expression are blunted by PGC-1 beta overexpression in vivo. PMID: 17932310
46. Vascular endothelium PPARgamma, in contrast to smooth muscle PPARgamma, regulates vascular tone in mice. PMID: 19075043
47. data establish mitochondrial biogenesis orchestrated by PGC-1beta, coupled with iron uptake through TfR1 and iron supply to mitochondrial respiratory proteins, as a fundamental pathway linked to osteoclast activation and bone metabolism PMID: 19252502

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KEGG: mmu:170826

STRING: 10090.ENSMUSP00000074771

UniGene: Mm.415302