Cytological and morphological analyses reveal distinct features of intestinal development during Xenopus tropicalis metamorphosis

Cytological and morphological analyses reveal distinct features of intestinal development during Xenopus tropicalis metamorphosis

The formation and/or maturation of adult organs in vertebrates often takes place during postembryonic development, a period around birth in mammals when thyroid hormone (T3) levels are high. The T3-dependent anuran metamorphosis serves as a model to study postembryonic development. Studies on the re...

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Published in:PloS one Vol. 7; no. 10; p. e47407
Main Authors: Sterling, Job, Fu, Liezhen, Matsuura, Kazuo, Shi, Yun-Bo
Format: Journal Article
Language:English
Published: United States Public Library of Science 10-10-2012
Public Library of Science (PLoS)
Subjects:
Adult Stem Cells - metabolism
Analysis
Animals
Apoptosis
Biology
Childrens health
Connective tissues
Developmental biology
DNA Primers - genetics
Epithelial cells
Epithelium
Fatty acids
Genes
Genetic engineering
Genomes
Genomics
Intestines - anatomy & histology
Intestines - growth & development
Life cycle engineering
Life cycles
Mammals
Metabolism
Metamorphosis
Metamorphosis, Biological - physiology
Methyl Green
Morphogenesis
Morphology
Muscles
Nucleotide sequence
Organogenesis
Organogenesis - physiology
Organs
Proteins
Pyronine
Reptiles & amphibians
Reverse Transcriptase Polymerase Chain Reaction
Small intestine
Species Specificity
Stem cells
Thyroid
Thyroid gland
Triiodothyronine
Triiodothyronine - metabolism
Vertebrates
Xenopus
Xenopus - anatomy & histology
Xenopus - physiology
Xenopus laevis
United States > US
Maryland
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Summary:The formation and/or maturation of adult organs in vertebrates often takes place during postembryonic development, a period around birth in mammals when thyroid hormone (T3) levels are high. The T3-dependent anuran metamorphosis serves as a model to study postembryonic development. Studies on the remodeling of the intestine during Xenopus (X.) laevis metamorphosis have shown that the development of the adult intestine involves de novo formation of adult stem cells in a process controlled by T3. On the other hand, X. tropicalis, highly related to X. laevis, offers a number of advantages for studying developmental mechanisms, especially at genome-wide level, over X. laevis, largely due to its shorter life cycle and sequenced genome. To establish X. tropicalis intestinal metamorphosis as a model for adult organogenesis, we analyzed the morphological and cytological changes in X. tropicalis intestine during metamorphosis. We observed that in X. tropicalis, the premetamorphic intestine was made of mainly a monolayer of larval epithelial cells surrounded by little connective tissue except in the single epithelial fold, the typhlosole. During metamorphosis, the larval epithelium degenerates and adult epithelium develops to form a multi-folded structure with elaborate connective tissue and muscles. Interestingly, typhlosole, which is likely critical for adult epithelial development, is present along the entire length of the small intestine in premetamorphic tadpoles, in contrast to X. laevis, where it is present only in the anterior 1/3. T3-treatment induces intestinal remodeling, including the shortening of the intestine and the typhlosole, just like in X. laevis. Our observations indicate that the intestine undergoes similar metamorphic changes in X. laevis and X. tropicalis, making it possible to use the large amount of information available on X. laevis intestinal metamorphosis and the genome sequence information and genetic advantages of X. tropicalis to dissect the pathways governing adult intestinal development.
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Conceived and designed the experiments: JS LF KM YS. Performed the experiments: JS LF KM. Analyzed the data: JS LF. Wrote the paper: LF YS.
Competing Interests: The authors have declared that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0047407