BMC Genomics (Jun 2009)

Gene expression profiling of intestinal regeneration in the sea cucumber

  • Méndez-Merced Ana T,
  • Tossas Karen,
  • Suárez-Castillo Edna C,
  • Rojas-Cartagena Carmencita,
  • Del Valle-Avila Cristina,
  • Hernández-Pasos Josue,
  • Santiago-De Jesús Francisco,
  • González-Díaz Sebastián,
  • Pérez-Ortiz Judit,
  • Ramírez-Gómez Francisco,
  • Ortiz-Pineda Pablo A,
  • Roig-López José L,
  • Ortiz-Zuazaga Humberto,
  • García-Arrarás José E

DOI
https://doi.org/10.1186/1471-2164-10-262
Journal volume & issue
Vol. 10, no. 1
p. 262

Abstract

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Abstract Background Among deuterostomes, the regenerative potential is maximally expressed in echinoderms, animals that can quickly replace most injured organs. In particular, sea cucumbers are excellent models for studying organ regeneration since they regenerate their digestive tract after evisceration. However, echinoderms have been sidelined in modern regeneration studies partially because of the lack of genome-wide profiling approaches afforded by modern genomic tools. For the last decade, our laboratory has been using the sea cucumber Holothuria glaberrima to dissect the cellular and molecular events that allow for such amazing regenerative processes. We have already established an EST database obtained from cDNA libraries of normal and regenerating intestine at two different regeneration stages. This database now has over 7000 sequences. Results In the present work we used a custom-made microchip from Agilent with 60-mer probes for these ESTs, to determine the gene expression profile during intestinal regeneration. Here we compared the expression profile of animals at three different intestinal regeneration stages (3-, 7- and 14-days post evisceration) against the profile from normal (uneviscerated) intestines. The number of differentially expressed probes ranged from 70% at p actins, and developmental genes, such as Wnt and Hox genes, show interesting expression profiles during regeneration. Conclusion Our findings set the base for future studies into the molecular basis of intestinal regeneration. Moreover, it advances the use of echinoderms in regenerative biology, animals that because of their amazing properties and their key evolutionary position, might provide important clues to the genetic basis of regenerative processes.