Effect of heat exposure on uncoupling protein-3 mRNA abundance in porcine skeletal muscle

Gene expression and promoter methylation of porcine uncoupling protein 3 gene

Objective

Uncoupling protein 3 gene (UCP3) is a candidate gene associated with the meat quality of pigs. The aim of this study was to explore the regulation mechanism of UCP3 expression and provide a theoretical basis for the research of the function of porcine UCP3 gene in meat quality.

Methods

Bisulfite sequencing polymerase chain reaction (PCR) and quantitative real-time PCR (Q-PCR) were used to analyze the methylation of UCP3 5′-flanking region and UCP3 mRNA expression in the adipose tissue or skeletal muscle of three pig breeds at different ages (1, 90, 210-day-old Putian Black pig; 90-day-old Duroc; and 90-day-old Dupu).

Results

Results showed that two cytosine-guanine dinucleotide (CpG) islands are present in the promoter region of porcine UCP3 gene. The second CpG island located in the core promoter region contained 9 CpG sites. The methylation level of CpG island 2 was lower in the adipose tissue and skeletal muscle of 90-day-old Putian Black pigs compared with 1-day-old and 210-day-old Putian Black pigs, and the difference also existed in the skeletal muscle among the three 90-day-old pig breeds. Furthermore, the obvious changing difference of UCP3 mRNA expression was observed in the skeletal muscle of different groups. However, the difference of methylation status and expression level of UCP3 gene was not significant in the adipose tissue.

Conclusion

Our data indicate that UCP3 mRNA expression level was associated with the methylation status of UCP3 promoter in the skeletal muscle of pigs.

Skeletal muscle metabolic gene response to carbohydrate feeding during exercise in the heat

Background

Heat stress down-regulates mitochondrial function, while carbohydrate supplementation attenuates the exercise induced stimulation of mitochondrial biogenesis in humans. The effects of exogenous carbohydrate during exercise in the heat on metabolic mRNA have not been investigated in humans. The purpose of this study was to determine the impact of exercise with and without carbohydrate supplementation on skeletal muscle metabolic response in the heat.

Methods

Eight recreationally active males (4.05 ± 0.2 L^.min^-1) completed 2 trials which included 1 hr of cycling at 70% workload max and 3 hr recovery in a hot environment. Both trials were conducted in a climate controlled environmental chamber (38°C and 40% RH). The trials differed by the consumption of either a 6% carbohydrate (CHO) containing beverage (8 ml^.kg^-1.hr^-1) or placebo (P) during exercise in random order. Muscle biopsies were obtained from the vastus lateralis before exercise, immediately post-exercise and at the end of the 3 hr recovery period. Muscle was analyzed for muscle glycogen and mRNA related to metabolic and mitochondrial development (MFN2, PGC-1α, GLUT4, UCP3). Expired gases were measured to determine whole body substrate use during exercise.

Results

Carbohydrate oxidation and muscle glycogen utilization did not differ between trials, whereas fat oxidation was elevated during exercise in P. Exercise caused an increase in PGC-1α, and GLUT4 (P < 0.05) independent of exogenous carbohydrate provision. Carbohydrate consumption attenuated the mRNA response in UCP3 (P < 0.05).

Conclusions

This study indicates that the provision of exogenous carbohydrate attenuates the stimulation of mRNA expression of UCP3 following exercise in the heat.

Association of pig UCP3 gene mutations and back fat thickness in the sixth and seventh rib

Accumulated studies have documented extensive links between UCP3 polymorphisms and pig productive traits, and quantitative trait loci linkage results, on the other hand, provided extensive evidences showing that UCP3 was in the core of several QTLs for carcass and meat quality traits. In this research, we screened two substitutions in coding sequence and one 9-base continuous mutated site in 3'UTR of pig UCP3 gene using the reference population of 293 pigs which were F (2) generation of hybrids between Chinese native Jinhua pigs and European Pietrain. The two missense mutations of G1406A in Exon 3 and T3602C in Exon 5 which led to changes in the G150R and M259T, respectively, were digested by SmaI and introduced Tth111I separately for genotype analysis, and the 9-base continuous mutated site in the 3'UTR was analyzed by an AvaI cleavage. As a result, the 9-base continuous mutated site of 3'UTR manifested significantly close association with the backfat thickness at the sixth and seventh rib, but the polymorphisms of G1406A and T3602C were not associated significantly with any of the seven carcass traits. The same results were shown by RT-qPCR and western blotting. These findings inferred that UCP3 probably has tissue-specific effects on pig carcass traits.

Acute cold- and chronic heat-exposure upregulate hepatic leptin and muscle uncoupling protein (UCP) gene expression in broiler chickens

Emerging evidence showed that variations in environmental temperature affect both leptin and uncoupling protein (UCP) gene expression in mammals, whereas a little is known about such interactions in birds. Thus, we conducted the present study to investigate the influence of acute (2 hours) cold (4 degrees C) and chronic (10 days) heat (32 degrees C) exposure on hepatic leptin and muscle UCP gene expression in 5-wk-old broiler chickens. Both cold- and heat-exposure significantly (P < 0.05 to P < 0.001) upregulated hepatic leptin (by 35 and 46%, respectively) and muscle UCP mRNA levels (by 71 and 71%, respectively) compared to the thermoneutrality (22 degrees C). This result suggests that leptin and UCP may be involved in the thermoregulation response of chickens to extreme climate (cold and hot temperatures). The upregulation of hepatic leptin gene expression was accompanied by an increase in plasma leptin levels, indicating that leptin may be regulated at transcriptional level. The increase of leptin and UCP mRNA abundance, and leptinemia we report here were not related to plasma glucose or insulin levels. In conclusion, the exposure of broiler chickens to extreme ambient temperatures (cold and heat) increases hepatic leptin and muscle UCP gene expression.

UCP2 and 3 deletion screening and distribution in 15 pig breeds

The uncoupling protein family is a mitochondrial anion carrier family. It plays an important role in the biological traits of animal body weight, basal metabolic rate and energy conversion. Using PCR and PCR-SSCP, we scanned the porcine uncoupling protein 2 gene (UCP2) and uncoupling protein 3 gene (UCP3) and found seven deletion sites, three in UCP2 and four in UCP3. The deletions in 15 pig breeds showed that deletion influenced weight. The genotype compounding of seven deletion sites in 15 pig breeds had significant effects on performance traits of the pig, such as body weight. We predicted the potential protein factor binding sites using the transcription factor analysis tool TFSearch version 1.3 online. Two deletions (1830 nt and 3219 nt) in UCP3 were found to change the transcriptional factor sites. The 16 bp deletion in 1830 nt added a SP1 site and a 6 bp deletion in 3219 nt removed two MZF1 sites. Seven deletion polymorphisms were covered in introns of linkage genes of UCP2 and UCP3, showing that UCPs have conservation and genetic reliability.