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1. Septate junction proteins are required for egg elongation and border cell migration during oogenesis in Drosophila

   https://doi.org/10.1093/g3journal/jkab127  

   Alhadyian, Haifa ; Shoaib, Dania ; Ward, Robert E ( April 2021 , G3 Genes|Genomes|Genetics)

   Reed, B H (Ed.)

   Abstract Protein components of the invertebrate occluding junction—known as the septate junction (SJ)—are required for morphogenetic developmental events during embryogenesis in Drosophila melanogaster. In order to determine whether SJ proteins are similarly required for morphogenesis during other developmental stages, we investigated the localization and requirement of four representative SJ proteins during oogenesis: Contactin, Macroglobulin complement-related, Neurexin IV, and Coracle. A number of morphogenetic processes occur during oogenesis, including egg elongation, formation of dorsal appendages, and border cell (BC) migration. We found that all four SJ proteins are expressed in egg chambers throughout oogenesis, with the highest and the most sustained levels in the follicular epithelium (FE). In the FE, SJ proteins localize along the lateral membrane during early and mid-oogenesis, but become enriched in an apical-lateral domain (the presumptive SJ) by stage 11. SJ protein relocalization requires the expression of other SJ proteins, as well as Rab5 and Rab11 like SJ biogenesis in the embryo. Knocking down the expression of these SJ proteins in follicle cells throughout oogenesis results in egg elongation defects and abnormal dorsal appendages. Similarly, reducing the expression of SJ genes in the BC cluster results in BC migration defects. Together, these results demonstrate an essential requirement for SJ genes in morphogenesis during oogenesis, and suggest that SJ proteins may have conserved functions in epithelial morphogenesis across developmental stages. 

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2. Expanding the Junction: New Insights into Non-Occluding Roles for Septate Junction Proteins during Development

   https://doi.org/10.3390/jdb9010011  

   Rice, Clinton ; De, Oindrila ; Alhadyian, Haifa ; Hall, Sonia ; Ward, Robert E. ( March 2021 , Journal of Developmental Biology)

   The septate junction (SJ) provides an occluding function for epithelial tissues in invertebrate organisms. This ability to seal the paracellular route between cells allows internal tissues to create unique compartments for organ function and endows the epidermis with a barrier function to restrict the passage of pathogens. Over the past twenty-five years, numerous investigators have identified more than 30 proteins that are required for the formation or maintenance of the SJs in Drosophila melanogaster, and have determined many of the steps involved in the biogenesis of the junction. Along the way, it has become clear that SJ proteins are also required for a number of developmental events that occur throughout the life of the organism. Many of these developmental events occur prior to the formation of the occluding junction, suggesting that SJ proteins possess non-occluding functions. In this review, we will describe the composition of SJs, taking note of which proteins are core components of the junction versus resident or accessory proteins, and the steps involved in the biogenesis of the junction. We will then elaborate on the functions that core SJ proteins likely play outside of their role in forming the occluding junction and describe studies that provide some cell biological perspectives that are beginning to provide mechanistic understanding of how these proteins function in developmental contexts. 

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3. Enabled/ VASP is required to mediate proper sealing of opposing cardioblasts during Drosophila dorsal vessel formation

   https://doi.org/10.1002/dvdy.317  

   King, Tiffany R. ; Kramer, Joseph ; Cheng, Yi‐Shan ; Swope, David ; Kramer, Sunita G. ( February 2021 , Developmental Dynamics)

   TheDrosophiladorsal vessel (DV) is comprised of two opposing rows of cardioblasts (CBs) that migrate toward the dorsal midline during development. While approaching the midline, CBs change shape, enabling dorsal and ventral attachments with their contralateral partners to create a linear tube with a central lumen. We previously demonstrated DV closure occurs via a “buttoning” mechanism where specific CBs advance ahead of their lateral neighbors, and attach creating transient holes, which eventually seal.

   Here, we investigate the role of the actin‐regulatory protein enabled (Ena) in DV closure. Loss of Ena results in DV cell shape and alignment defects. Live analysis of DV formation inenamutants shows a reduction in CB leading edge protrusion length and gaps in the DV between contralateral CB pairs. These gaps occur primarily between a specific genetic subtype of CBs, which express the transcription factor seven‐up (Svp) and form the ostia inflow tracts of the heart. In WT embryos these gaps between Svp⁺CBs are observed transiently during the final stages of DV closure.

   Our data suggest that Ena modulates the actin cytoskeleton in order to facilitate the complete sealing of the DV during the final stages of cardiac tube formation.

    

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4. Two phases for centripetal migration of Drosophila melanogaster follicle cells: Initial ingression followed by epithelial migration

   https://doi.org/10.1242/dev.200492  

   Parsons, Travis T. ; Mosallaei, Sheila ; Raftery, Laurel A. ( February 2023 , Development)

   During Drosophila oogenesis, somatic follicle cells differentiate to secrete components of the eggshell. Prior to secretion, the epithelium reorganizes to shape eggshell specializations, including border FC collective cell migration and later dorsal formation. These FC movements provide valuable insights into collective cell migration. However, little is known about centripetal migration, which encloses the oocyte after secretion has begun. Centripetal migration begins with apical extension of a few follicle cells (FCs) that move away from the basement membrane to invade between germ cells. We define a timeline of reproducible milestones, using time-lapse imaging of egg chamber explants. Inward migration occurs in two phases. First, leading centripetal FCs ingress, extending apically over the anterior oocyte, and constricting basally. Second, following FCs move collectively toward the anterior, then around the corner to move inward with minimal change in aspect ratio. E-Cadherin was required in leading centripetal FCs for their normal ingression, assessed with homozygous shotgun mutant or RNAi knockdown clones; ingression was influenced non-autonomously by mutant following FCs. This work establishes centripetal migration as an accessible model for biphasic, E-Cadherin-adhesion mediated, collective migration.

    

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5. Par protein localization during the early development of Mnemiopsis leidyi suggests different modes of epithelial organization in the metazoa

   https://doi.org/10.7554/eLife.54927  

   Salinas-Saavedra, Miguel ; Martindale, Mark Q ( July 2020 , eLife)

   null (Ed.)

   In bilaterians and cnidarians, epithelial cell-polarity is regulated by the interactions between Par proteins, Wnt/PCP signaling pathway, and cell-cell adhesion. Par proteins are highly conserved across Metazoa, including ctenophores. But strikingly, ctenophore genomes lack components of the Wnt/PCP pathway and cell-cell adhesion complexes raising the question if ctenophore cells are polarized by mechanisms involving Par proteins. Here, by using immunohistochemistry and live-cell imaging of specific mRNAs, we describe for the first time the subcellular localization of selected Par proteins in blastomeres and epithelial cells during the embryogenesis of the ctenophore Mnemiopsis leidyi . We show that these proteins distribute differently compared to what has been described for other animals, even though they segregate in a host-specific fashion when expressed in cnidarian embryos. This differential localization might be related to the emergence of different junctional complexes during metazoan evolution. 

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