Localization of the Heptapeptide GFSKLYFamide in the Sea Cucumber Holothuria Glaberrima (Echinodermata): a Light and Electron Microscopic Study

Overview

Journal J Comp Neurol

Specialty Neurology

Date 1995 Feb 20

PMID 7722004

Citations 21

Authors

L Diaz-Miranda

R E Blanco

J E Garcia-Arraras

Affiliations

Soon will be listed here.

Abstract

Two peptides, Gly-Phe-Ser-Lys-Leu-Tyr-Phe-NH2 (GFSKLYFamide) and Ser-Gly-Tyr-Ser-Val-Leu-Tyr-Phe-NH2 (SGYSVLYFamide), recently isolated from the sea cucumber Holothuria glaberrima [Díaz-Miranda et al. (1992) Biol. Bull. 182:241-247] represent the first neuropeptides isolated from holothurians. Using an antibody against GFSKLYFa, we describe here the localization and distribution pattern of GFSKLYFa-like immunoreactivity in H. glaberrima, where immunoreactive fibers form a prominent and extensive peptidergic nervous system component. Neuron-like cells and nerve fibers expressing GFSKLYFa-like immunoreactivity are found in the ectoneural and hyponeural divisions of the radial nerve cords as well as in the digestive, haemal, respiratory, and reproductive systems; in the tentacles; and in tube feet. Neuroendocrine-like cells are found in the mucosal layer of the intestine. Ultrastructure immunocytochemical analysis revealed that, in nerve cells and fibers in the serosal layer of the intestine, the immunoreactivity is concentrated in vesicles. The immunoreactive nerve fibers are found mainly within a dense nerve plexus overlying and in close contact with smooth muscle cells of the intestine. The exclusive expression of GFSKLYFa-like immunoreactivity in neuronal or neuroendocrine tissue together with the close apposition of some fibers to muscle cells suggests that GFSKLYFa acts as a neuromuscular transmitter or neuromodulator in H. glaberrima. The wide occurrence of GFSKLYFa-like immunoreactivity throughout the nervous system of the sea cucumber suggests that GFSKLYFa plays an important role in the control of multiple action systems, including digestion, respiration, circulation, reproduction, and locomotion.

Citing Articles

Molecular characterization of nervous system organization in the hemichordate acorn worm Saccoglossus kowalevskii.

Andrade Lopez J, Pani A, Wu M, Gerhart J, Lowe C PLoS Biol. 2023; 21(9):e3002242.

PMID: 37725784 PMC: 10508912. DOI: 10.1371/journal.pbio.3002242.

Intestine Explants in Organ Culture: A Tool to Broaden the Regenerative Studies in Echinoderms.

Bello S, Garcia-Arraras J J Mar Sci Eng. 2022; 10(2).

PMID: 36284610 PMC: 9592059. DOI: 10.3390/jmse10020244.

A subterminal growth zone at arm tip likely underlies life-long indeterminate growth in brittle stars.

Mashanov V, Whaley L, Davis K, Heinzeller T, Jacob Machado D, Reid R Front Zool. 2022; 19(1):15.

PMID: 35413857 PMC: 9004015. DOI: 10.1186/s12983-022-00461-0.

Dedifferentiation of radial glia-like cells is observed in in vitro explants of holothurian radial nerve cord.

Quesada-Diaz E, Figueroa-Delgado P, Garcia-Rosario R, Sirfa A, Garcia-Arraras J J Neurosci Methods. 2021; 364:109358.

PMID: 34537226 PMC: 8561615. DOI: 10.1016/j.jneumeth.2021.109358.

The nervous system component of the mesentery of the sea cucumber Holothuria glaberrima in normal and regenerating animals.

Nieves-Rios C, Alvarez-Falcon S, Malavez S, Rodriguez-Otero J, Garcia-Arraras J Cell Tissue Res. 2019; 380(1):67-77.

PMID: 31865468 PMC: 7073298. DOI: 10.1007/s00441-019-03142-3.