Shenkar N and Gordon T (2015), Gut-spilling in chordates: evisceration in the ...

ECB-ART-43926

Sci Rep 2015 Apr 16;5:9614. doi: 10.1038/srep09614.

Show Gene links Show Anatomy links

Gut-spilling in chordates: evisceration in the tropical ascidian Polycarpa mytiligera.

Shenkar N , Gordon T .

???displayArticle.abstract???
The ejection of internal organs, i.e., evisceration, is a well-known phenomenon in sea-cucumbers. We report the ability of a member of the Chordate phyla, the tropical ascidian Polycarpa mytiligera, to eviscerate and regenerate its gut within 12 days, and to rebuild its branchial sac within 19 days. Evisceration occurred within 4-43 seconds of gentle mechanical pressure exerted on the tunic in 47% of the tested P. mytiligera. Individuals were able to discard up to 3/4 of their digestive tract via the incurrent siphon by rupture of the branchial sac in this area. Although chemical analysis revealed no significant levels of toxic compounds, the eviscerated guts were unpalatable to the triggerfish and pufferfish on which they were tested, suggesting evisceration as a defense mechanism. Given the close affinity of ascidians to vertebrates, the regeneration pathway of the viscera and branchial sac of ascidians suggests its potential beneficial application in soft tissue regeneration research.

???displayArticle.pubmedLink??? 25880620
???displayArticle.pmcLink??? PMC5381747
???displayArticle.link??? Sci Rep

Species referenced: Echinodermata
Genes referenced: adcy10 LOC100887844

???attribute.lit??? ???displayArticles.show???

References [+] :

Addad, Isolation, characterization and biological evaluation of jellyfish collagen for use in biomedical applications. 2011, Pubmed

Addad, Isolation, characterization and biological evaluation of jellyfish collagen for use in biomedical applications. 2011, Pubmed
Bermueller, Marine collagen scaffolds for nasal cartilage repair: prevention of nasal septal perforations in a new orthotopic rat model using tissue engineering techniques. 2013, Pubmed
Carlisle, Vanadium and other metals in ascidians. 1968, Pubmed
Delsuc, Tunicates and not cephalochordates are the closest living relatives of vertebrates. 2006, Pubmed , Echinobase
Freestone, Stronger predation in the tropics shapes species richness patterns in marine communities. 2011, Pubmed
García-Arrarás, Cellular mechanisms of intestine regeneration in the sea cucumber, Holothuria glaberrima Selenka (Holothuroidea:Echinodermata). 1998, Pubmed , Echinobase
Jeffery, Closing the wounds: one hundred and twenty five years of regenerative biology in the ascidian Ciona intestinalis. 2015, Pubmed
Kürn, Asexual propagation and regeneration in colonial ascidians. 2011, Pubmed
Manni, Cell reorganisation during epithelial fusion and perforation: the case of ascidian branchial fissures. 2002, Pubmed
Mariottini, Cytotoxic and cytolytic cnidarian venoms. A review on health implications and possible therapeutic applications. 2013, Pubmed
Mashanov, Gut regeneration in holothurians: a snapshot of recent developments. 2011, Pubmed , Echinobase
Mashanov, Visceral regeneration in a sea cucumber involves extensive expression of survivin and mortalin homologs in the mesothelium. 2010, Pubmed , Echinobase
Mashanov, Postembryonic organogenesis of the digestive tube: why does it occur in worms and sea cucumbers but fail in humans? 2014, Pubmed , Echinobase
Mashanov, Expression of Wnt9, TCTP, and Bmp1/Tll in sea cucumber visceral regeneration. 2012, Pubmed , Echinobase
Pasten, Characterization of proteolytic activities during intestinal regeneration of the sea cucumber, Holothuria glaberrima. 2012, Pubmed , Echinobase
Schneider, NIH Image to ImageJ: 25 years of image analysis. 2012, Pubmed
Shimazaki, Gene expression profiles in Ciona intestinalis stigmatal cells: insight into formation of the ascidian branchial fissures. 2006, Pubmed
Smith, Models and mechanisms of regenerative biology across phylogeny: introduction to a virtual symposium in The Biological Bulletin. 2011, Pubmed
Sun, RNA-Seq reveals dynamic changes of gene expression in key stages of intestine regeneration in the sea cucumber Apostichopus japonicus. [corrected]. 2013, Pubmed , Echinobase
Swan, Seasonal Evisceration in the Sea Cucumber, Parastichopus californicus (Stimpson). 1961, Pubmed , Echinobase

	Figure 1. Evisceration in the solitary ascidian Polycarpa mytiligera, Gulf of Aqaba, Red Sea.(a) Evisceration in the field, arrow pointing to the gut expelled through the oral siphon (OS). CS- cloacal siphon. Scale bar 1 cm. (b) Eviscerated gut, including the stomach (St), intestine (Int), endocarp (Ec, a projection of the body wall into the atrial cavity), and part of the rectum (Re). Scale bar 1 mm. Photo: G. Koplovitz, T. Gordon.
	Figure 2. Polycarpa mytiligera digestive tract comparisons.(a) Complete digestive tract of an undisturbed animal. Voucher specimen AS25769 (b) digestive tract region following evisceration. Voucher specimen AS25770 (c) regenerated digestive tract 12 days post-evisceration, arrow pointing to the area of amputation of the old gut. Scale bar 5 mm. Stomach (St), intestine (Int), endocarps (Ec), rectum (Re), anus (An), membrane connecting the rectum to the body wall (Me), polycarps (Po, gonads), endostyle (Es). Voucher specimen AS25771. Photo: N. Shenkar.
	Figure 3. Polycarpa mytiligera regeneration of the branchial sac.Arrows pointing to the area of new tissue formation five days post-evisceration. Scale bar 1 mm, Voucher specimen AS25772. Photo: N. Shenkar.