Publications [#377720] of Daniel P. Kiehart
search www.ncbi.nlm.nih.gov.Papers Published
- Wopat, S; Adhyapok, P; Daga, B; Crawford, JM; Norman, J; Bagwell, J; Peskin, B; Magre, I; Fogerson, SM; Levic, DS; Di Talia, S; Kiehart, DP; Charbonneau, P; Bagnat, M, Notochord segmentation in zebrafish controlled by iterative mechanical signaling.,
Dev Cell, vol. 59 no. 14
(July, 2024),
pp. 1860-1875.e5 [doi] .
(last updated on 2024/11/03)Abstract:
In bony fishes, patterning of the vertebral column, or spine, is guided by a metameric blueprint established in the notochord sheath. Notochord segmentation begins days after somitogenesis concludes and can occur in its absence. However, somite patterning defects lead to imprecise notochord segmentation, suggesting that these processes are linked. Here, we identify that interactions between the notochord and the axial musculature ensure precise spatiotemporal segmentation of the zebrafish spine. We demonstrate that myoseptum-notochord linkages drive notochord segment initiation by locally deforming the notochord extracellular matrix and recruiting focal adhesion machinery at these contact points. Irregular somite patterning alters this mechanical signaling, causing non-sequential and dysmorphic notochord segmentation, leading to altered spine development. Using a model that captures myoseptum-notochord interactions, we find that a fixed spatial interval is critical for driving sequential segment initiation. Thus, mechanical coupling of axial tissues facilitates spatiotemporal spine patterning.