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Main Authors: Ma, Kevin C K, Gao, Fei, Hamel, Jean-François, Mercier, Annie
Format: Artículo científico
Language:en
Published: Royal Society open science 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/40969692/
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author Ma, Kevin C K
Gao, Fei
Hamel, Jean-François
Mercier, Annie
author_facet Ma, Kevin C K
Gao, Fei
Hamel, Jean-François
Mercier, Annie
Ma, Kevin C K
Gao, Fei
Hamel, Jean-François
Mercier, Annie
collection PubMed - marine biology
contents Diversity and distribution of extracellular microcrystals in holothuroid echinoderms. Ma, Kevin C K Gao, Fei Hamel, Jean-François Mercier, Annie Biomineralization research in echinoderms has been focused on skeletal structures, which provide strength and protection. Other minerals, specifically extracellular microcrystals, are described here for the first time in echinoderms. Six morphotypes were isolated from a holothuroid and classified into three chemical compounds. Uric acid crystals were associated with fluids from the hydrovascular system, perivisceral coelom and respiratory tree, while calcium carbonate crystals were detected in the epithelium of the respiratory tree and calcium oxalate dihydrate crystals were found in tissues of the cloaca, integument, Polian vesicle and tentacle. Uric acid crystals were mostly non-encapsulated in tissues, whereas, in fluids, they were often encapsulated by phagocytes, alone or in groups, suggesting that they are waste products. Calcium carbonate crystals in the respiratory tree and calcium oxalate dihydrate crystals in the cloaca suggest that they are being expelled from the body. Insofar as calcium oxalate dihydrate crystals could be involved in calcium regulation, we speculate that they might be crystallized and retained in ossicle-associated integumentary tissues and tentacles, which are susceptible to damage and could use them as a calcium reserve to synthesize and repair ossicles. Observations of microcrystals in different holothuroid species examined suggest their ubiquity in the class Holothuroidea and more generally, deuterostomes.
format Artículo científico
id pubmed_40969692
institution PubMed
language en
publishDate 2025
publisher Royal Society open science
record_format pubmed
spellingShingle Diversity and distribution of extracellular microcrystals in holothuroid echinoderms.
Ma, Kevin C K
Gao, Fei
Hamel, Jean-François
Mercier, Annie
Diversity and distribution of extracellular microcrystals in holothuroid echinoderms. Ma, Kevin C K Gao, Fei Hamel, Jean-François Mercier, Annie Biomineralization research in echinoderms has been focused on skeletal structures, which provide strength and protection. Other minerals, specifically extracellular microcrystals, are described here for the first time in echinoderms. Six morphotypes were isolated from a holothuroid and classified into three chemical compounds. Uric acid crystals were associated with fluids from the hydrovascular system, perivisceral coelom and respiratory tree, while calcium carbonate crystals were detected in the epithelium of the respiratory tree and calcium oxalate dihydrate crystals were found in tissues of the cloaca, integument, Polian vesicle and tentacle. Uric acid crystals were mostly non-encapsulated in tissues, whereas, in fluids, they were often encapsulated by phagocytes, alone or in groups, suggesting that they are waste products. Calcium carbonate crystals in the respiratory tree and calcium oxalate dihydrate crystals in the cloaca suggest that they are being expelled from the body. Insofar as calcium oxalate dihydrate crystals could be involved in calcium regulation, we speculate that they might be crystallized and retained in ossicle-associated integumentary tissues and tentacles, which are susceptible to damage and could use them as a calcium reserve to synthesize and repair ossicles. Observations of microcrystals in different holothuroid species examined suggest their ubiquity in the class Holothuroidea and more generally, deuterostomes.
title Diversity and distribution of extracellular microcrystals in holothuroid echinoderms.
url https://pubmed.ncbi.nlm.nih.gov/40969692/