Brandi Lantz scite author profile

Brandi Lantz

2Publications

29Citation Statements Received

107Citation Statements Given

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Affiliations

University of Pittsburgh, The Ohio State University

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Prickle1 regulates differentiation of frontal bone osteoblasts

Wan

Lantz

Cusack

et al. 2018

Sci Rep

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Enlarged fontanelles and smaller frontal bones result in a mechanically compromised skull. Both phenotypes could develop from defective migration and differentiation of osteoblasts in the skull bone primordia. The Wnt/Planar cell polarity (Wnt/PCP) signaling pathway regulates cell migration and movement in other tissues and led us to test the role of Prickle1, a core component of the Wnt/PCP pathway, in the skull. For these studies, we used the missense allele of Prickle1 named Prickle1Beetlejuice (Prickle1Bj). The Prickle1Bj/Bj mutants are microcephalic and develop enlarged fontanelles between insufficient frontal bones, while the parietal bones are normal. Prickle1Bj/Bj mutants have several other craniofacial defects including a midline cleft lip, incompletely penetrant cleft palate, and decreased proximal-distal growth of the head. We observed decreased Wnt/β-catenin and Hedgehog signaling in the frontal bone condensations of the Prickle1Bj/Bj mutants. Surprisingly, the smaller frontal bones do not result from defects in cell proliferation or death, but rather significantly delayed differentiation and decreased expression of migratory markers in the frontal bone osteoblast precursors. Our data suggests that Prickle1 protein function contributes to both the migration and differentiation of osteoblast precursors in the frontal bone.

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Finding the Unicorn, a New Mouse Model of Midfacial Clefting

Lantz

White

Liu

et al. 2020

Genes

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Human midfacial clefting is a rare subset of orofacial clefting and in severe cases, the cleft separates the nostrils splitting the nose into two independent structures. To begin to understand the morphological and genetic causes of midfacial clefting we recovered the Unicorn mouse line. Unicorn embryos develop a complete midfacial cleft through the lip, and snout closely modelling human midfacial clefting. The Unicorn mouse line has ethylnitrosourea (ENU)-induced missense mutations in Raldh2 and Leo1. The mutations segregate with the cleft face phenotype. Importantly, the nasal cartilages and surrounding bones are patterned and develop normal morphology, except for the lateral displacement because of the cleft. We conclude that the midfacial cleft arises from the failure of the medial convergence of the paired medial nasal prominences between E10.5 to E11.5 rather than defective cell proliferation and death. Our work uncovers a novel mouse model and mechanism for the etiology of midfacial clefting.

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Brandi Lantz

Prickle1 regulates differentiation of frontal bone osteoblasts

Finding the Unicorn, a New Mouse Model of Midfacial Clefting

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