AI Article Synopsis
- Planarians have the unique ability to regenerate any missing body part thanks to neoblasts, a type of stem cell involved in this process.
- Most research has viewed neoblasts as a uniform population, but recent studies reveal a more complex picture at the single-cell level, showing significant heterogeneity among neoblasts.
- Analysis suggests that certain transcription factors within specific neoblast subsets guide the development of various cell types during regeneration, indicating that these neoblasts are not only diverse but also play a crucial role in determining the fate of cells in the regeneration process.
Article Abstract
Planarians can regenerate any missing body part in a process requiring dividing cells called neoblasts. Historically, neoblasts have largely been considered a homogeneous stem cell population. Most studies, however, analyzed neoblasts at the population rather than the single-cell level, leaving the degree of heterogeneity in this population unresolved. We combined RNA sequencing of neoblasts from wounded planarians with expression screening and identified 33 transcription factors transcribed in specific differentiated cells and in small fractions of neoblasts during regeneration. Many neoblast subsets expressing distinct tissue-associated transcription factors were present, suggesting candidate specification into many lineages. Consistent with this possibility, klf, pax3/7, and FoxA were required for the differentiation of cintillo-expressing sensory neurons, dopamine-β-hydroxylase-expressing neurons, and the pharynx, respectively. Together, these results suggest that specification of cell fate for most-to-all regenerative lineages occurs within neoblasts, with regenerative cells of blastemas being generated from a highly heterogeneous collection of lineage-specified neoblasts.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4176530 | PMC |
| http://dx.doi.org/10.1016/j.stemcr.2014.06.001 | DOI Listing |
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