Jiali Ru scite author profile

Mao

et al. 2020

In terrestrial animals, the lacrimal drainage apparatus evolved to serve as conduits for tear flow; however, little is known about the ontogenesis of this system. Here, we defined the anatomy of the fully formed tear duct (TD) in mice, characterized crucial morphogenetic events for the development of tear duct components, and identified the site for primordial tear duct (PTD) initiation. We report that the PTD originates from the orbital lacrimal lamina (LL), a junction formed by the epithelia of the maxillary (mxp) and lateral nasal processes (lnp). We demonstrate that Prickle 1, a key component of planar cell polarity (PCP) signaling, is expressed in progenitors of the PTD and throughout tear duct morphogenesis. Disruption of Prickle 1 stalls tear duct elongation; in particular, the loss of basement membrane (BM) deposition and aberrant cytoplasmic accumulation of laminin are salient. Altered cell adhesion, cytoskeletal and vesicular transport systems, and cell axis orientation in Prickle 1 mutants support the role of Prickle 1 in PCP. Taken together, we highlight a crucial role of Prickle 1-mediated polarized BM secretion and deposition in PTD elongation.

A Spatiotemporal Requirement for Prickle 1-Mediated PCP Signaling in Eyelid Morphogenesis and Homeostasis

Invest. Ophthalmol. Vis. Sci.

Yuan

et al. 2018

Tmem138 is localized to the connecting cilium essential for rhodopsin localization and outer segment biogenesis

Proc. Natl. Acad. Sci. U.S.A.

Xie

et al. 2022

Significance The connecting cilium (CC) of the photoreceptor provides the only route for the trafficking of the outer segment (OS) proteins. Failure of OS protein transport causes degenerative photoreceptor diseases, including retinitis pigmentosa. We demonstrate that Tmem138, a protein linked to ciliopathy, is localized to the photoreceptor CC. Germline deletion of Tmem138 abolished OS morphogenesis, followed by rapid photoreceptor degeneration. Tmem138 interacts with rhodopsin and two additional CC compartment proteins, Ahi1 and Tmem231, likely forming a membrane complex to facilitate trafficking of rhodopsin and other OS-bound proteins across the CC. The study thus implicates a new line of regulation on the delivery of OS proteins through interactions with CC membrane complex(es) and provides insights into photoreceptor ciliopathy diseases.

Malformation of Tear Ducts Underlies the Epiphora and Precocious Eyelid Opening inPrickle 1Mutant Mice: Genetic Implications for Tear Duct Genesis

Invest. Ophthalmol. Vis. Sci.

Fan

et al. 2020

Purpose Obstruction of the tear drainage causes a range of ocular surface disorders. Hitherto, the genetics of tear duct development and obstruction has been scarcely explored, and related animal models are lacking. This study aims to study the potential role of the Wnt/PCP pathway mediated by Prickle 1 in tear duct development and diseases. Methods A severe hypomorphic Prickle 1 mutant was generated. Histology and immunohistochemistry were performed to compare wild type, Prickle 1 hypomorphic, and null mutant tear ducts. In situ hybridization was conducted to identify the signaling components in the developing tear ducts. Three-dimensional (3D) reconstruction was used to detect the human embryonic tear duct. Results Here, we report that a severe Prickle 1 hypomorph mouse line exhibited epiphora. This phenotype was due to the blockage of the tear drainage by incompletely formed nasolacrimal duct (NLD) and lacrimal canaliculi (LC), which also causes precocious eyelid opening. We observed a dose-dependent requirement of Prickle 1 for tear duct outgrowth. An investigation of the expression of Wnt/PCP core genes demonstrated a subset of PCP signaling components expressed in the developing tear duct. Furthermore, Prickle 1 is not required for the expression of Fgfr2/Fgf10 and p63 genes, which are associated with the NLD and LC hypoplasia in humans. Last, we showed that Prickle 1 expression in the developing tear drainage system is conserved between mice and humans. Conclusions The study suggests that malformed tear ducts caused by disruption of Prickle 1 underlies the epiphora and precocious eyelid opening.

Ontogenesis of the tear drainage system requires Prickle 1-controlled polarized basement membrane (BM) deposition

Liu

et al. 2020

Preprint

In terrestrial animals, lacrimal drainage apparatus evolved to serve as conduits for tear flow. Little is known about the ontogenesis of this system. Here, we investigated tear duct origin, developmental course, genetic and cellular determinants in mouse. We report that primordial tear duct (PTD) originates from junction epithelium of the joining maxillary and lateral nasal processes, which reshapes into future tear duct branches. We identified Prickle 1 as a hallmark for tear duct outgrowth, ablation of which stalled duct elongation. In particular, the disruption of basement membrane (BM) with cytoplasmic accumulation of laminin suggests aberrant protein trafficking. Mutant embryoid bodies (EBs) derived from iPSCs recapitulate BM phenotype of the PTD exhibiting defective visceral endoderm (VE), which normally expresses high level of Prickle 1. Furthermore, replenishing mutant VE with Prickle 1 completely rescued BM but not cell polarity. Taken together, our results reveal a distinct role of Prickle 1 in regulating polarized BM secretion and deposition in precedently uncharacterized tear drainage system and VE, which is independent of apicobasal polarity establishment.