Identification of stable reference genes for quantitative gene expression analysis in the duodenum of meat-type ducks

Assessing the Effectiveness of Sex-Linked Molecular Markers to Identify Neomale Breeders for the Production of All-Female Progenies of Rainbow Trout

A cultured stock of masculinized rainbow trout was diagnosed with Y-linked markers (sdY and OmyY1) aiming to detect neomales before their use at the production level. To achieve a reliable diagnosis, the following steps were considered: (1) PCR amplification of the housekeeping β-actin gene to determine the DNA quality of samples, (2) validation of the Y-linked markers by their PCR amplification in male and female samples with known sex, and (3) molecular sexing of the masculinized juveniles based on male-specific (XY genotype) and neomale-specific (XX genotype) PCR product band patterns visualized on agarose gel. The validity and concordance of the markers were assessed. The housekeeping gene identified samples with negative PCR amplification revealing a poor DNA quality. The OmyY1 marker presented a more distinctive PCR product band pattern between males and females than the sdY marker and identified a higher proportion of true males (sensitivity = 1.0 and 0.91, respectively). The OmyY1 marker accurately identified 105 neomales of the 198 masculinized individuals on account their consistent and distinctive PCR product band pattern. Among both markers, there was a medium high positive concordance (γ index = 0.7). It is concluded that the OmyY1 marker shows the best performance to reliably detect neomales, a step that is essential to have certified breeders for the production of all-female progenies in fish farming.

First Evidence of Mineralocorticoid Receptor Gene and Protein Expression in Rat and Human Thyroid Tissues and Cell Cultures

Aldosterone (Aldo) exerts its action through binding with the mineralocorticoid receptor (MR). Clinically, a link between primary aldosteronism (PA) and thyroid diseases has been hypothesised. However, the presence and activity of MR on the thyroid have not yet been demonstrated. We investigated the gene/protein expression and activation of MR in primary thyroid cell cultures (normal rat thyroid [FRTL-5] and human papillary thyroid cancer [PTC] cell lines, BCPAP and K1) through qRT-PCR analysis, immunofluorescence, and confocal microscopy. We also studied the effects of Aldo on thyroid-specific and inflammation genes in vitro. Paired human normal and neoplastic thyroid tissues were also studied. We demonstrated both gene and protein expression and activation of MR in normal rat thyroid and human PTC lines. Incubation with Aldo induced an acute increase in IL-6 expression in both the FRTL-5 and BCPAP lines, which was antagonised by spironolactone, and an acute and late upregulation of thyroid-specific genes in FRTL-5. MR was also expressed at both gene and protein levels in normal human thyroid tissues and in PTC, with a progressive decline during neoplastic tumourigenesis, particularly in more aggressive histotypes. We present the first evidence of MR gene and protein expression in both normal and pathological thyroid cells and tissues. We have shown that MR is present and functionally activated in thyroid tissue. Binding of Aldo to MR induces the expression of inflammatory and thyroid-specific genes, and the thyroid may thus be considered a novel mineralocorticoid target tissue.