Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2023.07.18.549463v1?rss=1
Authors: de Jaime Soguero, A., Hattemer, J., Haas, A., Bufe, A., Di Marco, B., Bohly, N., Landry, J. J. M., Schoell, B., Rosa, V. S., Villacorta, L., Baskan, Y., Androulaki, S., Trapp, M., Benes, V., Das, B., Shahbazi, M., Jauch, A., Engel, U., Patrizi, A., Sotillo, R., Bageritz, J., Alfonso, J., Bastians, H., Acebron, S. P.
Abstract:
The development and homeostasis of organisms rely on the correct replication, maintenance and segregation of their genetic blueprints. How these intracellular processes are monitored across generations of different human cellular lineages, and why the spatio-temporal distribution of mosaicism varies during development remain unknown. Here, we identify several lineage specification signals that regulate chromosome segregation fidelity in both human and mouse pluripotent stem cells. Through epistatic analyses, we find that that WNT, BMP and FGF form a signalling rheostat upstream of ATM that monitors replication fork velocity, origin firing and DNA damage during S-phase in pluripotency, which in turn controls spindle polymerisation dynamics and faithful chromosome segregation in the following mitosis. Cell signalling control of chromosome segregation fidelity declines together with ATM activity after pluripotency exit and specification into the three human germ layers, or further differentiation into meso- and endoderm lineages, but re-emerges during neuronal lineage specification. In particular, we reveal that a tug-of-war between FGF and WNT signalling in neural progenitor cells results in DNA damage and chromosome missegregation during cortical neurogenesis, which could provide a rationale for the high levels of mosaicism in the human brain. Our results highlight a moonlighting role of morphogens, patterning signals and growth factors in genome maintenance during pluripotency and lineage specification, which could have important implications for our understanding on how mutations and aneuploidy arise during human development and disease.
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