Sniffing out how stem cells become olfactory neurons in living animals

Applying multiple techniques, including high-resolution imaging of live zebrafish embryos, quantitative tracking of cell fate and single-cell RNA sequencing, researchers identified a unique bistable toggle switch that assigns divergent cell fates to progenitor cells and drives their assembly into cellular “neighborhoods.” In doing so, they showed how signaling that guides continuous neural development is integrated at multiple scales—single cells, small clusters of cells and between entire organs.

The study describes “a previously unknown paradigm of cellular neighborhood assembly through which the olfactory epithelium integrates fluctuating, stochastic signals to streamline fate commitment, differentiation and integration into the olfactory neuronal rosette,” wrote lead author Sriivatsan Govinda Rajan, Ph.D., and corresponding author Ankur Saxena, Ph.D., UAB Department of Cell, Developmental and Integrative Biology. “These findings reveal how stochastic signaling networks spatiotemporally regulate a balance between progenitors and derivatives, driving sustained neurogenesis in an intricate organ system.”

“Remarkably, the human nose turns over its neurons every couple of months or so throughout our lifetimes,” Saxena said. “Given this unusual neuroregeneration, we wanted to answer a fundamental question: How do stem cells funnel fluctuating signals to make new neurons over and over again?

“Now, we’re building on our molecular ‘answers’ from the zebrafish model system by asking if the identified molecular pathways can be applied in other contexts to shape the nervous system across vertebrates. Long-term, our hope is to discover new therapeutic avenues for patients with neurodevelopmental or neurodegenerative disorders.”

Co-authors with Rajan and Saxena in the study, “Progenitor neighborhoods function as transient niches to sustain olfactory neurogenesis,” are Lynne M. Nacke, UAB Department of Cell, Developmental and Integrative Biology; and Joseph N. Lombardo, Farid Manuchehrfar, Kaelan Wong, Pinal Kanabar, Elizabeth A. Somodji, Jocelyn Garcia, Mark Maienschein-Cline and Jie Liang, University of Illinois Chicago.