Jaroslav Fabik scite author profile

Jaroslav Fabik

3Publications

47Citation Statements Received

428Citation Statements Given

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Affiliations

Czech Academy of Sciences, Institute of Experimental Medicine, Charles University, Czech Academy of Sciences

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Neural crest cells require Meis2 for patterning the mandibular arch via the Sonic hedgehog pathway

Fabik

Kovacova

Kozmík

et al. 2020

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Cranial neural crest cells (cNCCs) originate in the anterior neural tube and populate pharyngeal arches in which they contribute to formation of bone and cartilage. This cell population also provides molecular signals for the development of tissues of non-neural crest origin, such as the tongue muscles, teeth enamel or gland epithelium. Here we show that the transcription factor Meis2 is expressed in the oral region of the first pharyngeal arch (PA1) and later in the tongue primordium. Conditional inactivation of Meis2 in cNCCs resulted in loss of Sonic hedgehog signalling in the oropharyngeal epithelium and impaired patterning of PA1 along the lateral–medial and oral–aboral axis. Failure of molecular specification of PA1, illustrated by altered expression of Hand1/2, Dlx5, Barx1, Gsc and other markers, led to hypoplastic tongue and ectopic ossification of the mandible. Meis2-mutant mice thus display craniofacial defects that are reminiscent of several human syndromes and patients with mutations in the Meis2 gene.

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The Mandibular and Hyoid Arches—From Molecular Patterning to Shaping Bone and Cartilage

Fabik

Psutkova

Machoň

2021

IJMS

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The mandibular and hyoid arches collectively make up the facial skeleton, also known as the viscerocranium. Although all three germ layers come together to assemble the pharyngeal arches, the majority of tissue within viscerocranial skeletal components differentiates from the neural crest. Since nearly one third of all birth defects in humans affect the craniofacial region, it is important to understand how signalling pathways and transcription factors govern the embryogenesis and skeletogenesis of the viscerocranium. This review focuses on mouse and zebrafish models of craniofacial development. We highlight gene regulatory networks directing the patterning and osteochondrogenesis of the mandibular and hyoid arches that are actually conserved among all gnathostomes. The first part of this review describes the anatomy and development of mandibular and hyoid arches in both species. The second part analyses cell signalling and transcription factors that ensure the specificity of individual structures along the anatomical axes. The third part discusses the genes and molecules that control the formation of bone and cartilage within mandibular and hyoid arches and how dysregulation of molecular signalling influences the development of skeletal components of the viscerocranium. In conclusion, we notice that mandibular malformations in humans and mice often co-occur with hyoid malformations and pinpoint the similar molecular machinery controlling the development of mandibular and hyoid arches.

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Vermian fossa or median occipital fossa revisited: Prevalence and clinical anatomy

Kunc

Fabik

Kubickova

et al. 2020

Annals of Anatomy - Anatomischer Anzeiger

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Jaroslav Fabik

Neural crest cells require Meis2 for patterning the mandibular arch via the Sonic hedgehog pathway

The Mandibular and Hyoid Arches—From Molecular Patterning to Shaping Bone and Cartilage

Vermian fossa or median occipital fossa revisited: Prevalence and clinical anatomy

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