Association and expression analysis of porcine HNF1A gene related to meat and carcass quality traits.

The aim of this study was to investigate the association and expression of HNF1A gene as a candidate gene for meat and carcass quality traits in pigs. Statistical analysis revealed that the g.8260 A>G polymorphism significantly associated with pH 24(H), meat percentage and muscle area in the F2 Duroc × Pietrain (DuPi, n=313) and with pH 24(L), fat area and backfat thickness in the Pietrain (Pi, n=110) population. HNF1A mRNA and protein expressions were higher (p<0.05) in animals with the low post-mortem muscle pH 24(L). The promoter methylation profiling suggested that methylation was not involved on HNF1A expression regulation (p>0.05) in animal with divergent muscle pH. In conclusion, polymorphism in porcine HNF1A gene could be used as a candidate marker to improve the meat and carcass quality traits, with the consideration of breed-specific effect.

Evaluation of suitable reference genes for gene expression studies in porcine PBMCs in response to LPS and LTA.

BACKGROUND: As an in vitro model porcine peripheral blood mononuclear cells (PBMCs) is frequently used as for immunogenetic research with the stimulation of bacterial antigens. To investigate the immunocompetence of PBMCs for recognition of Gram-positive and Gram-negative bacteria and in order to dissect the pathogenesis of diseases, gene expression assay is most commonly used. The gene expressions are required to normalize for reference genes which have tremendous effect on the results of expression study. The reference genes should be stably expressed between different cells under a variety of experimental conditions, but recent influx of data showed that expression stability of reference genes are varied under different experimental conditions. But data regarding the expression stability of reference genes in porcine PBMCs are limited. Therefore, this study was aimed to know whether the expression stability of commonly used reference genes in PBMCs is affected by various bacterial antigens under different experimental conditions in pigs. RESULTS: The mRNA expression stability of nine commonly used reference genes (B2M, BLM, GAPDH, HPRT1, PPIA, RPL4, SDHA, TBP and YWHAZ) was determined by RT-qPCR in PBMCs that were stimulated by LPS and LTA in vitro as well as cells un-stimulated control and non-cultured were also consider for this experiment. mRNA expression levels of all genes were found to be affected by the type of stimulation and duration of the stimulation (P < 0.05). geNorm software revealed that in case of irrespective of stimulation (without considering the type of stimulation), RPL4, PPIA and B2M were the most stable reference genes in PBMCs; in case of the control group, PPIA, BLM and GAPDH were the most stable reference genes. PPIA, B2M and RPL4 were the most stable reference genes in LPS stimulated PBMCs; and YWHAZ, RPL4 and PPIA were the most stably expressed reference genes in the case of LTA stimulated PBMCs. When LPS was used combined with LTA for the stimulation, YWHAZ, B2M and SDHA remained the most stable genes. PPIA, BLM and GAPDH were found to be most stably expressed reference genes when PBMCs were not cultured. NormFinder revealed different sets of stably expressed reference genes in PBMCs under different experimental conditions. Moreover, geNorm software suggested that the geometric mean of the three most stable genes would be the suitable combination for accurate normalization of gene expression study. CONCLUSION: There was discrepancy in the ranking order of reference genes obtained by different analysing algorithms (geNorm and NormFinder). In conclusion, the geometric mean of the RPL4, B2M and PPIA seemed to be the most appropriate combination of reference genes for accurate normalization of gene expression data in porcine PBMCs without knowing the type of bacterial pathogenic status of the animals and in the case of mixed infection with Gram-negative and Gram-positive bacteria. In case of PBMCs without any stimulation, PPIA, BLM and GAPDH could be suggested as suitable reference genes.

The effects of in ovo rhIGF-I administration on expression of the growth hormone secretagogue receptor (GHSR) during chicken embryonic development.

Growth hormone secretion is under the control of a pair of hypothalamic factors, growth hormone releasing hormone and somatostatin. The growth hormone secretagogue receptor (GHSR) and its endogenous ligand represent a novel third method regulating the release of growth hormone. Early chicken embryonic development has been proposed to be independent of GH. However, recent evidence shows that peripheral GH secretion has paracrine/autocrine functions during embryonic development. In the current study, we used the reverse-transcriptase polymerase chain reaction to determine the expression pattern of the GHSR during embryonic development and the effects of in ovo recombinant human (rh) IGF-I administration on its expression pattern. Eggs were injected once with 100 ng rhIGF-I in 10 mM acetic acid, and 0.1% BSA per embryo on embryonic day 3. Total RNA was isolated from whole embryos on embryonic day (E) 0-6 (n=6 per day), thoracic/abdominal halves of the embryos on E7- E8 (n= 6 per day) and Pectoralis muscle on E9-E20 (n= 4 per day). We found that GHSR expression was low during E0-E4, followed by an increase on E5 and remained constant through E17. GHSR expression then increased on E18 before reducing on E20. A similar pattern was found in the rhIGF-I treated embryos with the exception of a significant increase in GHSR expression on E8. These data indicate that the GHSR may be active in regulating GH secretion during early embryonic development, and upregulation of the GHSR gene following IGF-I administration may have an important role in the determination of postnatal muscle growth.

Interrenal cell zonation in the adrenal gland of the goose (Anser anser).

The adrenal medulla in mammalian species is surrounded by a cortex that contains three distinct layers, whereas the cortex and medulla are intermingled in poultry species. The objective of the present study was to determine the distinct zonation changes in the adrenal cortex of geese in various ages using both electron and light microscopy. Adrenal glands were obtained from French Geese (Anser anser) under deep ether anesthesia at posthach day 1, 5, 10, 21 and 30 (n= 5 per day). The cytoplasm of interrenal cells located beneath the adrenal capsule (sub-capsular zone, SCZ) were stained lighter than that of interrenal cells located inside the adrenal gland (inner zone, IZ) and contained several vacuoles for each sampling day. Additionally, unlike IZ cells, SCZ cells contained nuclei that were various shapes and surrounded by irregularly arranged membranes, lipid droplets which were not surrounded by a membrane, mitochondria with mostly shelf-like cristae. The arrangement of SCZ cells appears similar to that of zona glomerulosa and also the arrangement of IZ cells to that of zona fasciculata of mammalian adrenal cortex, suggesting the significant signs of zonation in goose adrenal cortex.

Myostatin and TGF-beta2 gene expression patterns in response to in ovo administration of rhIGF-I during chicken embryonic development.

The objective of the study was to evaluate the impact of in ovo administration of recombinant human insulin-like growth factor-I (rhIGF-I) on myostatin and transforming growth factor-beta2 (TGF-beta2) gene expression during chicken embryogenesis with emphasis on skeletal muscle development. Eggs were injected once with 100 ng rh IGF-I in 10 mM acetic acid, 0.1% BSA per embryo on day 3 of embryonic development. Total RNA was isolated from whole embryos on each of embryonic days (E) 0 to 6 (n = 6 per day/per treatment), from thoracic/abdominal halves of the embryo at E 7 to 8 (n = 6 per day/per treatment), and from pectoralis muscle tissues at E 9 to 20 (n = 4 per day/per treatment). Reverse-transcription polymerase chain reaction (RT-PCR) was used to synthesize cDNAs. Myostatin mRNA isolated from pectoralis muscles of the rhIGF-I treated group increased on E 10 (approximately 2.5 fold) and remained high through E 13, whereas myostatin mRNA from control pectoralis muscles increased at E 9 and remained high until E 12. TGF-beta2 gene expression from in ovo rhIGF-I treated pectoralis muscles dramatically increased at E 13 (approximately 2.5 fold), in contrast to E 14 from control pectoralis muscle, and gradually declined through E 16. Our results demonstrate that in ovo administration of rhIGF-I on E 3 may alter developmental expression patterns of myostatin and TGF-beta2 genes.

IGF-I, IGF-II, and IGF-receptor-1 transcript and IGF-II protein expression in myostatin knockout mice tissues.

Semiquantitative reverse transcriptase-polymerase chain reaction (RT-PCR) and immunohistochemistry were performed to demonstrate whether a correlation exists between insulin-like growth factors (IGFs)-positive regulators of growth-and myostatin, a negative regulator of muscle growth. IGF-I, -II, and IGF-receptor-1 (IGF-R1) mRNA and IGF-II protein expressions were determined in control and myostatin knockout mice tissues. IGF-I gene expressions were similar between control and knockout mice tissues, whereas IGF-II mRNA levels were significantly higher in myostatin knockout mice kidney and soleus muscles than those of control mice (P <.01). IGF-R1 mRNA levels from control mice heart (P <.05) and kidney (P <.01) were significantly higher than in myostatin knockout mice, whereas levels were lower in pectoralis muscle of control mice than knockout mice (P <.01). The strongly IGF-II-positive cells in soleus muscle were more common in myostatin knockout mice and were seen in a few foci in control mice. IGF-II immunoreactivity in both control and myostatin knockout mice kidneys was localized to the epithelium of renal tubules and collecting ducts. Reciprocal changes in the expression of myostatin and IGF-II and IGF-R1 may underlie normal growth of skeletal muscle and other organs in mammals, and the changes in these tissues associated with disease.