Fazarinc G, Vrecl M, Škorjanc D, Čehovin T, Čandek-Potokar M
1Veterinary Faculty,University of Ljubljana,Gerbičeva 60,1000 Ljubljana,Slovenia.
2Faculty of Agriculture and Life Sciences,University of Maribor,Pivola 10,2311 Hoče,Slovenia.
Animal. 2017 Jan;11(1):164-174. doi: 10.1017/S1751731116001312. Epub 2016 Jun 27.
Dynamics of myofiber differentiation/maturation in porcine skeletal muscle is associated with domestication, breeding and rearing conditions. This study was aimed to comparatively elucidate the age-dependent myosin heavy chain (MyHC) isoform expression and transition pattern in domestic and wild pig (WP) skeletal muscle from birth until adulthood. Domestic pigs (DPs) of Large White breed raised in conventional production system were compared with WPs reared in a large hunting enclosure. Muscle samples for immuno/enzyme histochemistry were taken from the longissimus dorsi muscle within 24 h postmortem at 24 to 48 h, 21 to 23 days, 7 months and ~2 years postpartum. Based on the antibody reactivity to MyHCs (NCL-MHCs, A4.74, BF-F3) and succinate dehydrogenase activity, myofibers were classified into I, I/IIa, IIa, IIx and IIb types. In addition, foetal MyHC expression was determined with the use of F158.4C10 antibody. Maturation of the longissimus dorsi muscle in the WP was characterized by an accelerated transformation of the fast to slow MyHC during the first hours postpartum, followed by differentiation towards oxidative myofibers in which type I, IIa and IIx MyHCs predominated. In the DP, the transformation shifted towards glycolytic myofibers that expressed MyHC-IIb. The expression of foetal MyHC was higher in the DP than in the WP at 1 day of age, and the decline in the foetal MyHC during the first 3 weeks was more rapid in the WP than in the DP denoting an accelerated early postnatal muscle maturation in WP than DP piglets. All foetal MyHC-positive myofibers co-expressed IIa isoform, but not vice versa. The intense myofiber hypertrophy was evident from 3 weeks until 7 months of age. In this period, the myofiber cross-sectional area increased up to 10- and 20-fold in the WP and the DP, respectively. In the DP, the hypertrophy of all myofiber types was more pronounced than in the WP, particularly the hypertrophy of IIx and IIb myofibers. To summarize, the comparison between growing DP with wild ancestors showed that genetic selection and rearing conditions lead to substantial changes in the direction and intensity of postnatal MyHC transformation as evidenced by different proportion of individual myofiber types and differences in their hypertrophic potential.
猪骨骼肌中肌纤维分化/成熟的动力学与驯化、育种和饲养条件有关。本研究旨在比较阐明家猪和野猪从出生到成年骨骼肌中肌球蛋白重链(MyHC)亚型表达和转变模式的年龄依赖性。将传统生产系统中饲养的大白品种家猪与大型狩猎围栏中饲养的野猪进行比较。在产后24至48小时、21至23天、7个月和约2年时,在死后24小时内从背最长肌采集免疫/酶组织化学用的肌肉样本。根据对MyHCs(NCL-MHCs、A4.74、BF-F3)的抗体反应性和琥珀酸脱氢酶活性,将肌纤维分为I型、I/IIa型、IIa型、IIx型和IIb型。此外,使用F158.4C10抗体测定胎儿MyHC表达。野猪背最长肌的成熟特征是产后最初几小时内快速MyHC向慢速MyHC的加速转变,随后向以I型、IIa型和IIx型MyHC为主的氧化型肌纤维分化。在家猪中,转变转向表达MyHC-IIb的糖酵解型肌纤维。家猪在1日龄时胎儿MyHC的表达高于野猪,并且在出生后的前三周内,野猪胎儿MyHC的下降比家猪更快,这表明野猪仔猪出生后早期肌肉成熟比家猪更快。所有胎儿MyHC阳性肌纤维均共表达IIa亚型,但反之则不然。从3周龄到7月龄,明显出现强烈的肌纤维肥大。在此期间,野猪和家猪的肌纤维横截面积分别增加了10倍和20倍。在家猪中,所有肌纤维类型的肥大比野猪更明显,特别是IIx型和IIb型肌纤维的肥大。总之,生长中的家猪与其野生祖先的比较表明,遗传选择和饲养条件导致出生后MyHC转变的方向和强度发生重大变化,这通过个体肌纤维类型的不同比例及其肥大潜力的差异得到证明。
