Talk:Lecture - Limb Development
|RAHMS Rural Appreciation Weekend 2016 (September 12th-16th)
|RAW16 will be held in Tarcutta Village, NSW and is an event which brings over 150 allied health, nursing and medical university students from across Australia together to have a positive experience in a rural location. This event was the first of its kind, and acts to entice health students to take up rural and remote health careers. This exciting initiative brings together many of Australia’s finest young leaders studying medicine, nursing and allied health degrees – as well as those aspiring to in the future.
How the embryo makes a limb: determination, polarity and identity
J Anat. 2015 Oct;227(4):418-30. doi: 10.1111/joa.12361. Epub 2015 Aug 7.
Abstract The vertebrate limb with its complex anatomy develops from a small bud of undifferentiated mesoderm cells encased in ectoderm. The bud has its own intrinsic polarity and can develop autonomously into a limb without reference to the rest of the embryo. In this review, recent advances are integrated with classical embryology, carried out mainly in chick embryos, to present an overview of how the embryo makes a limb bud. We will focus on how mesoderm cells in precise locations in the embryo become determined to form a limb and express the key transcription factors Tbx4 (leg/hindlimb) or Tbx5 (wing/forelimb). These Tbx transcription factors have equivalent functions in the control of bud formation by initiating a signalling cascade involving Wnts and fibroblast growth factors (FGFs) and by regulating recruitment of mesenchymal cells from the coelomic epithelium into the bud. The mesoderm that will form limb buds and the polarity of the buds is determined with respect to both antero-posterior and dorso-ventral axes of the body. The position in which a bud develops along the antero-posterior axis of the body will also determine its identity - wing/forelimb or leg/hindlimb. Hox gene activity, under the influence of retinoic acid signalling, is directly linked with the initiation of Tbx5 gene expression in the region along the antero-posterior axis of the body that will form wings/forelimbs and determines antero-posterior polarity of the buds. In contrast, Tbx4 expression in the regions that will form legs/hindlimbs is regulated by the homeoprotein Pitx1 and there is no evidence that Hox genes determine antero-posterior polarity of the buds. Bone morphogenetic protein (BMP) signalling determines the region along the dorso-ventral axis of the body in which both wings/forelimbs and legs/hindlimbs develop and dorso-ventral polarity of the buds. The polarity of the buds leads to the establishment of signalling regions - the dorsal and ventral ectoderm, producing Wnts and BMPs, respectively, the apical ectodermal ridge producing fibroblast growth factors and the polarizing region, Sonic hedgehog (Shh). These signals are the same in both wings/forelimbs and legs/hindlimbs and control growth and pattern formation by providing the mesoderm cells of the limb bud as it develops with positional information. The precise anatomy of the limb depends on the mesoderm cells in the developing bud interpreting positional information according to their identity - determined by Pitx1 in hindlimbs - and genotype. The competence to form a limb extends along the entire antero-posterior axis of the trunk - with Hox gene activity inhibiting the formation of forelimbs in the interlimb region - and also along the dorso-ventral axis. © 2015 Anatomical Society. KEYWORDS: Hox genes; Pitx1; Sonic hedgehog; Tbx4/5; Wnts; antero-posterior polarity; apical ectodermal ridge; bone morphogenetic proteins; dorso-ventral polarity; embryo; fibroblast growth factors; lateral plate mesoderm; limb; limb bud; polarizing region; retinoic acid
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2013 Lecture Slides Lecture Date: 2013-09-17 Lecture Time: 16:00 Venue: BioMed E Speaker: Steve Palmer