Abstract
Sequence specific transcription factors (SSTFs) combinatorially define cell types during development by forming recursively linked network kernels. Pitx2 expression begins during gastrulation, together with Hox genes, and becomes localized to the abdominal lateral plate mesoderm (LPM) before the onset of myogenesis in somites. The somatopleure of Pitx2 null embryos begins to grow abnormally outward before muscle regulatory factors (MRFs) or Pitx2 begin expression in the dermomyotome/myotome. Abdominal somites become deformed and stunted as they elongate into the mutant body wall, but maintain normal MRF expression domains. Subsequent loss of abdominal muscles is therefore not due to defects in specification, determination, or commitment of the myogenic lineage. Microarray analysis was used to identify SSTF families whose expression levels change in E10.5 interlimb body wall biopsies. All Hox9-11 paralogs had lower RNA levels in mutants, whereas genes expressed selectively in the hypaxial dermomyotome/myotome and sclerotome had higher RNA levels in mutants. In situ hybridization analyses indicate that Hox gene expression was reduced in parts of the LPM and intermediate mesoderm of mutants. Chromatin occupancy studies conducted on E10.5 interlimb body wall biopsies showed that Pitx2 protein occupied chromatin sites containing conserved bicoid core motifs in the vicinity of Hox 9-11 and MRF genes. Taken together, the data indicate that Pitx2 protein in LPM cells acts, presumably in combination with other SSTFs, to repress gene expression, that are normally expressed in physically adjoining cell types. Pitx2 thereby prevents cells in the interlimb LPM from adopting the stable network kernels that define sclerotomal, dermomyotomal, or myotomal mesenchymal cell types. This mechanism may be viewed either as lineage restriction or specification.
Highlights
Mesodermal cells are formed and positioned along the anteriorposterior (AP) axis during gastrulation
The muscles of the body wall can be roughly divided into two categories
Pitx2 is not expressed in the myotome or dermomyotome until a later stage, and its expression is neither restricted to abdominal somites along the anterior-posterior axis nor to the abdominal extensions of the somites in the dorsal-ventral axis
Summary
Mesodermal cells are formed and positioned along the anteriorposterior (AP) axis during gastrulation. At each successive axial level, the earlier ingressing cells will become the LPM whereas the later ingressing cells will become the more medial presomitic, or paraxial, mesoderm. Somites formed by segmentation of the paraxial mesoderm, are further divided into the outer dermomyotome/myotome and inner sclerotome [1]. The LPM is subdivided into an outer, more lateral somatopleuric, and inner, more medial splanchnopleuric mesenchyme, which combine respectively, with the surface ectoderm or endoderm to give rise to the somatopleure (SMP) and splanchnopleure (SPP). The SMP cells at abdominal levels delaminate and migrate individually, and the muscle progenitor cells, at least initially, remain locked within the dermomyotomal epithelia as they grow and extend ventrally into the SMP (abdominal wall). The interactions between somites and SMP produce different outcomes, in terms of muscle development, at each axial level
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
