Micro-computed tomography and histology to explore internal morphology in decapod larvae

Castejón, Diego; Alba‐Tercedor, Javier; Rotllant, Guiomar; Ribes, Eva; Durfort, Mercè; Guerao, Guillermo

doi:10.1038/s41598-018-32709-3

Cited by 26 publications

(30 citation statements)

References 50 publications

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“…In both cases, the emergence of new tubules can be explained if the MGl contains basal cells; i.e., a cell type that remains dormant in the tubule walls, which when stimulated by physiological processes differentiates into E-cells that will form a new tubule from the walls of an existing tubule. In addition, at the ultrastructural level, M-cells share numerous similarities with the basal cells of the midgut tract and midgut caeca of M. brachydactyla such as small size, rounded shape, and cytoplasm poor in organelles (Castejón et al, 2018), and with the basal cells of the midgut tract and midgut caeca of other decapods (Pugh, 1962;Komuro and Yamamoto, 1968).…”

Section: Discussionmentioning

confidence: 95%

“…This study investigated the gross morphology and ultrastructure of the midgut gland of a brachyuran species at various stages of development. Micro-CT is a reliable technique for studying the anatomy of crustacean larvae because it reveals the threedimensional morphology of the internal anatomy, including the MGl and other organs (Castejón et al, 2018;Spitzner et al, 2018). In the larval stages, the gross morphology of the MGl of M. brachydactyla comprises14 blind-end tubules.…”

Section: Discussionmentioning

confidence: 99%

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Morphology and ultrastructure of the midgut gland ("hepatopancreas") during ontogeny in the common spider crab Maja brachydactyla Balss, 1922 (Brachyura, Majidae)

Castejón

Rotllant

Alba‐Tercedor

et al. 2019

Arthropod Structure & Development

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We studied the anatomy and cytology of the midgut gland (MGl) of the common spider crab Maja brachydactyla Balss 1922 at several life stages (zoea, megalopa, first juvenile, and adult) using dissection, histology, electron microscopy, computed tomography, and micro-computed tomography (micro-CT). In newly hatched larvae, 14 blind-end tubules formed the MGl. The length of the tubules increases during the larval development. In the late megalopa, the number of tubules also increases. In adults, 35,000 to 60,000 blind-end tubules comprise the MGl. In all life stages, a square-net network of muscle fibers surround the tubules. We describe five cell types in the MGl in all larval stages, which have a similar location, histology, and ultrastructure in larvae and adults: embryonary (E-) cells, resorptive (R-) cells, fibrillar (F-) cells, blister-like (B-) cells, and midget (M-) cells. Major difference between larval and adult cells is the larger size of the adult cells. Microapocrine secretion occurs from the microvilli of the B-cells. No ultrastructural changes were observed, which suggests that the function of each cell type might be similar in all life stages. The role of each epithelial cell type in larvae and adults is discussed.

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Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 99%

Morphology and ultrastructure of the midgut gland ("hepatopancreas") during ontogeny in the common spider crab Maja brachydactyla Balss, 1922 (Brachyura, Majidae)

Castejón

Rotllant

Alba‐Tercedor

et al. 2019

Arthropod Structure & Development

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“…The hepatopancreass originates from the midgut anlage near its junction with the stomach (Figure a,b). The morphogenesis of the hepatopancreas has been described for species from various higher taxa including the penaeid shrimps Penaeus setiferus (Linnaeus, 1767) (Lovett & Felder, ), Penaeus vannamei Boone, 1931 (Muhammad, Zhang, Shao, Dong, & Muhammad, ), and Ploeticus muelleri (Spence Bate, 1888) (Díaz, Fernandez Gimenez, Velurtas, & Fenucci, ), the caridean shrimp Lysmata amboinensis (de Man, 1888) (Tziouveli, Bastos‐Gomez, & Bellwood, ), the lobster Homarus americanus H. Milne Edwards, 1837 (Biesiot & McDowell, ; Factor, ), the spiny lobsters Palinurus ornatus (Fabricius, 1798) (Smith et al, ) and Jasus edwardsii (Hutton, 1875) (Nishida, Takahashi, & Kittaka, ) and the brachyuran crabs Carcinus maenas (Linnaeus, 1758) (Spitzner et al, ), Paralithodes camtschaticus (Tilesius, 1815) (Abrunhosa & Kittaka, ), and Maja brachydactyla Balss, 1922 (Castejón et al, ).…”

Section: Morphogenesis Of the Hepatopancreasmentioning

confidence: 99%

“…Paraffin section, H&E‐staining. Scale bar: 200 μm (from Castejón et al, ). (c) Whole mount of phyllosom 3 larva of slipper lobster Palinurus ornatus showing ramification of hepatopancreas tubules (arrowheads) from hepatopancreas lobe (HL).…”

Section: Morphogenesis Of the Hepatopancreasmentioning

confidence: 99%

Functional cytology of the hepatopancreas of decapod crustaceans

Vogt

2019

Journal of Morphology

176

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This article reviews the morphogenesis, morphology, histology, ultrastructure, and structural-functional relationships of the hepatopancreas, the main metabolic organ of the Decapoda. The hepatopancreas develops in early larval stages from a pair of lateral lobes of the midgut anlage. In adults, it consists of hundreds of blindly ending tubules that are enveloped by a muscle net consisting of longitudinal and circular fibers. Stem cells at the distal ends of the tubules give rise to three ultrastructurally different epithelial cell types, the R-, F-, and B-cells. Histochemistry, immunohistochemistry, in situ hybridization, and monitoring of ultrastructural changes under different experimental conditions allowed the attribution of functions to these cell types. R-cells serve for the absorption and metabolization of nutrients, storage of energy reserves and minerals, synthesis of lipoproteins for export to other organs, detoxification of heavy metals, and excretion of uric acid. F-cells synthesize digestive enzymes and blood proteins involved in oxygen transport and immune defense. They also detoxify some heavy metals and probably organic xenobiotics. B-cells are assumed to produce and recycle fat emulsifiers. The hepatopancreas tubules lack nerves. The presence of scattered M-cells with putative endocrine function in the epithelium suggests that the hepatopancreas is mainly hormonally controlled. M-cells probably represent a self-perpetuating cell lineage independent from E-cells. The interstitium between the tubules contains connective tissue, arterioles, hemolymph with circulating hemocytes, and fixed phagocytes that eliminate pathogens.The hepatopancreas is histologically and ultrastructurally uniform throughout the Decapoda, despite their broad variety in body size, morphology, life style, and ecology.However, in a few cavernicolous and deep-sea shrimps parts of the hepatopancreas are transformed into large oil storing and bioluminescent compartments. Within the malacostracan crustaceans, the hepatopancreas of the Decapoda is most similar to the digestive gland of the Euphausiacea, supporting close taxonomic relationship of these two taxa.

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“…As a non-destructive technique, micro-CT is usually used to provide specific architectural information on biological materials or synthetic scaffolds [ 35 ]. Micro-CT was also employed by other research groups to evaluate the efficiency of the mineralization process on the polymeric coatings [ 36 , 37 ], but as far as the authors of this study are aware, this technique has never been used to image a thin layer of natural protein coating on a synthetic polymer, probably due to the difficulties of separating two materials with similar X-ray absorbance [ 38 ]. Here, we elaborated a protocol which allowed the visualization of the natural polymer coating on the PP mesh, using a staining agent frequently used in histology—silver nitrate.…”

Section: Discussionmentioning

confidence: 99%

Bioinspired Hydrogel Coating Based on Methacryloyl Gelatin Bioactivates Polypropylene Meshes for Abdominal Wall Repair

et al. 2020

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Considering the potential of hydrogels to mimic the cellular microenvironment, methacryloyl gelatin (GelMA) and methacryloyl mucin (MuMA) were selected and compared as bioinspired coatings for commercially available polypropylene (PP) meshes for ventral hernia repair. Thin, elastic hydrated hydrogel layers were obtained through network-forming photo-polymerization, after immobilization of derivatives on the surface of the PP fibers. Fourier transform infrared spectroscopy (FTIR) proved the successful coating while the surface morphology and homogeneity were investigated by scanning electron microscopy (SEM) and micro-computed tomography (micro-CT). The stability of the hydrogel layers was evaluated through biodynamic tests performed on the coated meshes for seven days, followed by inspection of surface morphology through SEM and micro-CT. Taking into account that platelet-rich plasma (PRP) may improve healing due to its high concentration of growth factors, this extract was used as pre-treatment for the hydrogel coating to additionally stimulate cell interactions. The performed advanced characterization proved that GelMA and MuMA coatings can modulate fibroblasts response on PP meshes, either as such or supplemented with PRP extract as a blood-derived bioactivator. GelMA supported the best cellular response. These findings may extend the applicative potential of functionalized gelatin opening a new path on the research and engineering of a new generation of bioactive meshes.

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Micro-computed tomography and histology to explore internal morphology in decapod larvae

Cited by 26 publications

References 50 publications

Morphology and ultrastructure of the midgut gland ("hepatopancreas") during ontogeny in the common spider crab Maja brachydactyla Balss, 1922 (Brachyura, Majidae)

Morphology and ultrastructure of the midgut gland ("hepatopancreas") during ontogeny in the common spider crab Maja brachydactyla Balss, 1922 (Brachyura, Majidae)

Functional cytology of the hepatopancreas of decapod crustaceans

Bioinspired Hydrogel Coating Based on Methacryloyl Gelatin Bioactivates Polypropylene Meshes for Abdominal Wall Repair

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