Bone morphogenetic protein 4 expression in the developing lumbosacral spinal cord of rat embryos with anorectal malformations

Spatiotemporal expression of neurogenic locus notch homolog protein 1 in developing caudal spinal cord of fetuses with anorectal malformations from ETU-fed rats

Complications, such as fecal soiling, incontinence, and constipation, are major health issues for patients with anorectal malformations (ARMs) after surgery. Dysplasia of the caudal spinal cord is an increasingly pivotal area in the field of postoperative complications for patients with ARMs. However, the existing research has not fully defined the mechanism underlying ARMs development. The neurogenic locus notch homolog (Notch) signaling pathway comprises several highly conserved proteins that are involved in spinal cord developmental processes. In the present study, the emerging role of Notch1 in fetal lumbosacral spinal cords was investigated in a rat model of ARMs using ethylene thiourea. Immunohistochemical staining, western blot and quantitative reverse transcription real-time polymerase chain reaction were utilized to analyze spatiotemporal expression of Notch1 on embryonic days (E) 16, E17, E19, and E21. The expression levels of the neuronal marker neurofilament and recombination signal-binding protein-J protein were evaluated for temporal correlations to Notch1 expression. The results implied that Notch1 expression was reduced in lumbosacral spinal cord neurons of ARMs embryos compared to control embryos. These results showed that, in ARMs embryos decreased Notch1 expression is related to the dysplasia of the caudal spinal cord during embryogenesis, indicating that Notch signaling may participate pathogenic embryonic lumbosacral spinal development and may be associated with postoperative complications of ARMs.

The Morphology of Cross-Beaks and BMP4 Gene Expression in Huiyang Bearded Chickens

Simple Summary

Recently, the emergence of cross-beaks has been reported in several domestic chickens. Despite several candidate genes, bone morphogenetic protein 4 (BMP4) has been suggested as responsible for chicken cross-beaks. The subtypes of the morphology term, etiopathogenesis, and the relationship of the candidate BMP4 gene to cross-beaks are not yet known. The objective of this study was to describe the subtypes of cross-beaks by left or right and upper and lower jaw bones and to figure out the relationship between BMP4 and the development of craniofacial bones in Huiyang bearded chickens.

Abstract

Bird beaks are important for biological purposes such as food intake, removing parasites, and defining phenotypic attributes. Cross-beaks are a threat to poultry health and are harmful to productivity, wasting some units in the poultry industry. However, there is still limited research on subtypes of cross-beaks and the genetic basis of cross-beaks as well. Here, we described the subtypes of cross-beaks in terms of left or right and upper or lower jaw bones. We evaluated the impact of cross-beaks on craniofacial bones and figured out the relationship between bone morphogenetic protein 4 (BMP4) and the development of craniofacial bones in Huiyang bearded chickens. We identified five typical subtypes of cross-beaks by morphological assessment and X-ray scanning. We found that cross-beaks caused certain changes in the facial bone morphology, including changes to the length and width of the bone around the ocular area (p < 0.05). The relative expressions of BMP4 in lacrimal, mandible, premaxilla, frontal, and parietal bones were significantly higher in the severe cross-beak group, followed by that of the medium cross-beak group, weak cross-beak group, and control group (p < 0.05). Overall, we constructed a generally applicable method to classify cross-beaks in term of the angle. The skeleton around the ocular area was affected by the cross-beak. The expression levels of BMP4 in craniofacial bones may provide insight to potential role of BMP4 in the development of cross-beaks.