Rupali Lav scite author profile

Rupali Lav

4Publications

66Citation Statements Received

73Citation Statements Given

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105

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King's College London

Publications

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Molar Bud-to-Cap Transition Is Proliferation Independent

Yamada

Lav

et al. 2019

J Dent Res

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Tooth germs undergo a series of dynamic morphologic changes through bud, cap, and bell stages, in which odontogenic epithelium continuously extends into the underlying mesenchyme. During the transition from the bud stage to the cap stage, the base of the bud flattens and then bends into a cap shape whose edges are referred to as “cervical loops.” Although genetic mechanisms for cap formation have been well described, little is understood about the morphogenetic mechanisms. Computer modeling and cell trajectory tracking have suggested that the epithelial bending is driven purely by differential cell proliferation and adhesion in different parts of the tooth germ. Here, we show that, unexpectedly, inhibition of cell proliferation did not prevent bud-to-cap morphogenesis. We quantified cell shapes and actin and myosin distributions in different parts of the tooth epithelium at the critical stages and found that these are consistent with basal relaxation in the forming cervical loops and basal constriction around enamel knot at the center of the cap. Inhibition of focal adhesion kinase, which is required for basal constriction in other systems, arrested the molar explant morphogenesis at the bud stage. Together, these results show that the bud-to-cap transition is largely proliferation independent, and we propose that it is driven by classic actomyosin-driven cell shape–dependent mechanisms. We discuss how these results can be reconciled with the previous models and data.

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The Impact of the Eda Pathway on Tooth Root Development

et al. 2017

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The Eda pathway ( Eda, Edar, Edaradd) plays an important role in tooth development, determining tooth number, crown shape, and enamel formation. Here we show that the Eda pathway also plays a key role in root development. Edar (the receptor) is expressed in Hertwig's epithelial root sheath (HERS) during root development, with mutant mice showing a high incidence of taurodontism: large pulp chambers lacking or showing delayed bifurcation or trifurcation of the roots. The mouse upper second molars in the Eda pathway mutants show the highest incidence of taurodontism, this enhanced susceptibility being matched in human patients with mutations in EDA-A1. These taurodont teeth form due to defects in the direction of extension of the HERS from the crown, associated with a more extensive area of proliferation of the neighboring root mesenchyme. In those teeth where the angle at which the HERS extends from the crown is very wide and therefore more vertical, the mutant HERSs fail to reach toward the center of the tooth in the normal furcation region, and taurodont teeth are created. The phenotype is variable, however, with milder changes in angle and proliferation leading to normal or delayed furcation. This is the first analysis of the role of Eda in the root, showing a direct role for this pathway during postnatal mouse development, and it suggests that changes in proliferation and angle of HERS may underlie taurodontism in a range of syndromes.

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Wnt signaling from Gli1-expressing apical stem/progenitor cells is essential for the coordination of tooth root development

et al. 2023

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DS_10.1177_0022034519869307 – Supplemental material for Molar Bud-to-Cap Transition Is Proliferation Independent

Yamada¹,

Lav²,

Li³

et al. 2019

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Rupali Lav

Molar Bud-to-Cap Transition Is Proliferation Independent

The Impact of the Eda Pathway on Tooth Root Development

Wnt signaling from Gli1-expressing apical stem/progenitor cells is essential for the coordination of tooth root development

DS_10.1177_0022034519869307 – Supplemental material for Molar Bud-to-Cap Transition Is Proliferation Independent

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