# ﻿Architecture of microtubule cytoskeleton in the hindgut cells of Porcellioscaber

**Authors:** Urban Bogataj, Polona Mrak, Jasna Štrus, Nada Žnidaršič

PMC · DOI: 10.3897/zookeys.1225.116717 · ZooKeys · 2025-02-05

## TL;DR

This study examines the organization of microtubules in hindgut cells of Porcellioscaber and how they relate to cell shape and development.

## Contribution

The paper reveals how microtubule architecture varies with cell shape and function in different hindgut regions and during development.

## Key findings

- Apico-basal microtubule bundles are abundant in all adult hindgut cells but vary in architecture.
- Microtubule bundles in the papillate region help stabilize the apical labyrinth and position mitochondria.
- Microtubule organization during hindgut morphogenesis correlates with changes in cell shape.

## Abstract

The distribution and orientation of microtubules were investigated in cells of distinct shapes from different hindgut regions of adult Porcellioscaber Latreille, 1804 and during hindgut morphogenesis in late embryonic and early postembryonic development. All hindgut cells of adult P.scaber contain abundant apico-basal microtubules organized in extensive bundles, but the architecture of bundles is specific for distinct cells. In the anterior chamber the architecture of microtubule bundles closely coincides with different shapes of the cells in this hindgut region and are most prominent in hindgut cells associated with extensive muscles. The shape of cells that form the typhlosole and typhlosole channels is particularly complex. In the papillate region the microtubule bundles protrude between the infoldings of apical plasma membrane and the mitochondria are closely aligned along the microtubules, thus the microtubule bundles in the papillate region are likely involved in the stabilization of the apical labyrinth and positioning of mitochondria. During hindgut morphogenesis the apico-basal microtubule bundles are established relatively late, mainly during early postembryonic development. Morphogenesis of the typhlosole is characterized by coinciding changes in cell shape and microtubule arrangement.

## Linked entities

- **Species:** Porcellio scaber (taxon 64697)

## Full-text entities

- **Genes:** LIPC (lipase C, hepatic type) [NCBI Gene 3990] {aka HDLCQ12, HL, HTGL}, MYH14 (myosin heavy chain 14) [NCBI Gene 79784] {aka DFNA4, DFNA4A, FP17425, MHC16, MYH17, NMHC II-C}
- **Diseases:** dehydration (MESH:D003681), water loss (MESH:D000069578)
- **Chemicals:** alcohol (MESH:D000438), LR-White (MESH:C048707), 11C (MESH:C000615233), TC (MESH:D013667), water (MESH:D014867), T (MESH:D014316), HEPES (MESH:D006531), CUT (-), AlexaFluor 488 (MESH:C000711379), ethanol (MESH:D000431), DAPI (MESH:C007293), acrylic resin (MESH:D000180), epoxy resin (MESH:D004853), silicone (MESH:D012828), glutaraldehyde (MESH:D005976), paraformaldehyde (MESH:C003043), paraffin (MESH:D010232), resin (MESH:D012116), copper (MESH:D003300), diethyl ether (MESH:D004986), acetone (MESH:D000096), propanol (MESH:D000433), uranyl acetate (MESH:C005460), formaldehyde (MESH:D005557), LR (MESH:D007852), xylene (MESH:D014992)
- **Species:** Drosophila melanogaster (fruit fly, species) [taxon 7227], Porcellio scaber (species) [taxon 64697], Dynamene bidentata (species) [taxon 2461553], Armadillidium vulgare (common pillbug, species) [taxon 13347], Petrachloros mirabilis (species) [taxon 2918835], Oniscus asellus (species) [taxon 96861], Mus musculus (house mouse, species) [taxon 10090]
- **Mutations:** S18 A
- **Cell lines:** SJ — Mus musculus (Mouse), Conditionally immortalized cell line (CVCL_B463), HE — Homo sapiens (Human), Finite cell line (CVCL_2922), T9026 — Homo sapiens (Human), Esophageal squamous cell carcinoma, Cancer cell line (CVCL_3174), HL — Homo sapiens (Human), Finite cell line (CVCL_2492), M — Homo sapiens (Human), Prostate carcinoma, Cancer cell line (CVCL_M133)

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC11822370/full.md

## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11822370/full.md

## References

59 references — full list in the complete paper: https://tomesphere.com/paper/PMC11822370/full.md

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Source: https://tomesphere.com/paper/PMC11822370