Abstract
Cell proliferation underlying tissue growth and homeostasis, requires high levels of metabolites such as deoxynucleotides (dNTPs). The dNTP pool is known to be tightly cell-autonomously regulated via de novo synthesis and salvage pathways. Here, we reveal that nucleotides can also be provided to cells non-autonomously by surrounding cells within a tissue. Using Drosophila epithelial tissues as models, we find that adult intestinal stem cells are highly sensitive to nucleotide depletion whereas wing progenitor cells are not. Wing progenitor cells share nucleotides through gap junction connections, allowing buffering of replication stress induced by nucleotide pool depletion. Adult intestinal stem cells, however, lack gap junctions and cannot receive dNTPs from neighbors. Collectively, our data suggest that gap junction-dependent sharing between cells can contribute to dNTP pool homeostasis in vivo. We propose that inherent differences in cellular gap junction permeability can influence sensitivity to fluctuations of intracellular dNTP levels.
One-Sentence Summary The nucleotide pool can be shared between adjacent cells through gap junctions allowing tissue-level buffering of replication stress.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
↵4 Lead contact. Email: allison.bardin{at}curie.fr
We have added several, addition important experiments including a full characterization of location all of the fly Innexin proteins in the midgut and an assessment of EdU uptake into ISCs with expression dnk RNAi. In addition, we have extended our introduction and discussion.