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Main Authors: Smith, Zacharias J, Arlinghaus, Kandis M, Boyer, Gregory L, Hapeman, Cathleen J
Format: Artículo científico
Language:en
Published: Marine drugs 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40710496/
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author Smith, Zacharias J
Arlinghaus, Kandis M
Boyer, Gregory L
Hapeman, Cathleen J
author_facet Smith, Zacharias J
Arlinghaus, Kandis M
Boyer, Gregory L
Hapeman, Cathleen J
Smith, Zacharias J
Arlinghaus, Kandis M
Boyer, Gregory L
Hapeman, Cathleen J
collection PubMed - marine biology
contents A Fresh Perspective on Cyanobacterial Paralytic Shellfish Poisoning Toxins: History, Methodology, and Toxicology. Smith, Zacharias J Arlinghaus, Kandis M Boyer, Gregory L Hapeman, Cathleen J Animals Shellfish Poisoning Humans Marine Toxins Cyanobacteria Fresh Water Risk Assessment Mice Bacterial Toxins Cyanobacteria Toxins Shellfish Paralytic shellfish poisoning toxins (PSPTs) are a class of neurotoxins most known for causing illness from consuming contaminated shellfish. These toxins are also present in freshwater systems with the concern that they contaminate drinking and recreational waters. This review provides (1) a complete list of the 84+ known PSPTs and important chemical features; (2) a complete list of all environmental freshwater PSPT detections; (3) an outline of the certified PSPT methods and their inherent weaknesses; and (4) a discussion of PSPT toxicology, the weaknesses in existing data, and existing freshwater regulatory limits. We show ample evidence of production of freshwater PSPTs by cyanobacteria worldwide, but data and method uncertainties limit a proper risk assessment. One impediment is the poor understanding of freshwater PSPT profiles and lack of commercially available standards needed to identify and quantify freshwater PSPTs. Further constraints are the limitations of toxicological data derived from human and animal model exposures. Unassessed mouse toxicity data from 1978 allowed us to calculate and propose toxicity equivalency factors (TEF) for 11-hydroxysaxitoxin (11-OH STX; M2) and 11-OH dcSTX (dcM2). TEFs for the 11-OH STX epimers were calculated to be 0.4 and 0.6 for 11α-OH STX (M2α) and 11β-OH STX (M2β), while we estimate that TEFs for 11α-OH dcSTX (dcM2α) and 11β-OH dcSTX (dcM2β) congeners would be 0.16 and 0.23, respectively. Future needs for freshwater PSPTs include increasing the number of reference materials for environmental detection and toxicity evaluation, developing a better understanding of PSPT profiles and important environmental drivers, incorporating safety factors into exposure guidelines, and evaluating the accuracy of the established no-observed-adverse-effect level.
format Artículo científico
id pubmed_40710496
institution PubMed
language en
publishDate 2025
publisher Marine drugs
record_format pubmed
spellingShingle A Fresh Perspective on Cyanobacterial Paralytic Shellfish Poisoning Toxins: History, Methodology, and Toxicology.
Smith, Zacharias J
Arlinghaus, Kandis M
Boyer, Gregory L
Hapeman, Cathleen J
Animals
Shellfish Poisoning
Humans
Marine Toxins
Cyanobacteria
Fresh Water
Risk Assessment
Mice
Bacterial Toxins
Cyanobacteria Toxins
Shellfish
A Fresh Perspective on Cyanobacterial Paralytic Shellfish Poisoning Toxins: History, Methodology, and Toxicology. Smith, Zacharias J Arlinghaus, Kandis M Boyer, Gregory L Hapeman, Cathleen J Animals Shellfish Poisoning Humans Marine Toxins Cyanobacteria Fresh Water Risk Assessment Mice Bacterial Toxins Cyanobacteria Toxins Shellfish Paralytic shellfish poisoning toxins (PSPTs) are a class of neurotoxins most known for causing illness from consuming contaminated shellfish. These toxins are also present in freshwater systems with the concern that they contaminate drinking and recreational waters. This review provides (1) a complete list of the 84+ known PSPTs and important chemical features; (2) a complete list of all environmental freshwater PSPT detections; (3) an outline of the certified PSPT methods and their inherent weaknesses; and (4) a discussion of PSPT toxicology, the weaknesses in existing data, and existing freshwater regulatory limits. We show ample evidence of production of freshwater PSPTs by cyanobacteria worldwide, but data and method uncertainties limit a proper risk assessment. One impediment is the poor understanding of freshwater PSPT profiles and lack of commercially available standards needed to identify and quantify freshwater PSPTs. Further constraints are the limitations of toxicological data derived from human and animal model exposures. Unassessed mouse toxicity data from 1978 allowed us to calculate and propose toxicity equivalency factors (TEF) for 11-hydroxysaxitoxin (11-OH STX; M2) and 11-OH dcSTX (dcM2). TEFs for the 11-OH STX epimers were calculated to be 0.4 and 0.6 for 11α-OH STX (M2α) and 11β-OH STX (M2β), while we estimate that TEFs for 11α-OH dcSTX (dcM2α) and 11β-OH dcSTX (dcM2β) congeners would be 0.16 and 0.23, respectively. Future needs for freshwater PSPTs include increasing the number of reference materials for environmental detection and toxicity evaluation, developing a better understanding of PSPT profiles and important environmental drivers, incorporating safety factors into exposure guidelines, and evaluating the accuracy of the established no-observed-adverse-effect level.
title A Fresh Perspective on Cyanobacterial Paralytic Shellfish Poisoning Toxins: History, Methodology, and Toxicology.
topic Animals
Shellfish Poisoning
Humans
Marine Toxins
Cyanobacteria
Fresh Water
Risk Assessment
Mice
Bacterial Toxins
Cyanobacteria Toxins
Shellfish
url https://pubmed.ncbi.nlm.nih.gov/40710496/