Geographical distribution, molecular and toxin diversity of the dinoflagellate species Gambierdiscus honu in the Pacific region.
Stuart, J
Smith, KF
Rhodes, L
Murray, JS
Viallon, J
Henry, K
Darius, HT
Murray, SA
De Azevedo, CD
Argyle, P
Chinain, M
- Publisher:
- ELSEVIER
- Publication Type:
- Journal Article
- Citation:
- Harmful Algae, 2022, 118, pp. 102308
- Issue Date:
- 2022-10
Closed Access
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1-s2.0-S1568988322001366-main.pdf | 1.9 MB | Adobe PDF |
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Full metadata record
Field | Value | Language |
---|---|---|
dc.contributor.author | Stuart, J | |
dc.contributor.author | Smith, KF | |
dc.contributor.author | Rhodes, L | |
dc.contributor.author | Murray, JS | |
dc.contributor.author | Viallon, J | |
dc.contributor.author | Henry, K | |
dc.contributor.author | Darius, HT | |
dc.contributor.author | Murray, SA | |
dc.contributor.author | De Azevedo, CD | |
dc.contributor.author |
Argyle, P https://orcid.org/0000-0002-7933-7241 |
|
dc.contributor.author | Chinain, M | |
dc.date.accessioned | 2023-02-08T03:17:43Z | |
dc.date.available | 2022-08-07 | |
dc.date.available | 2023-02-08T03:17:43Z | |
dc.date.issued | 2022-10 | |
dc.identifier.citation | Harmful Algae, 2022, 118, pp. 102308 | |
dc.identifier.issn | 1568-9883 | |
dc.identifier.issn | 1878-1470 | |
dc.identifier.uri | http://hdl.handle.net/10453/165999 | |
dc.description.abstract | An increase in cases of ciguatera poisoning (CP) and expansion of the causative species in the South Pacific region highlight the need for baseline data on toxic microalgal species to help identify new areas of risk and manage known hot spots. Gambierdiscus honu is a toxin producing and potential CP causing dinoflagellate species, first described in 2017. Currently no high-resolution geographical distribution, intraspecific genetic variation or toxin production diversity data is available for G. honu. This research aimed to further characterize G. honu by investigating its distribution using species-specific real-time polymerase chain reaction assays at 25 sites in an area spanning ∼8000 km of the Coral Sea/Pacific Ocean, and assessing intraspecific genetic variation, toxicity and toxin production of isolated strains. Assessment of genetic variation of the partial rRNA operon of isolates demonstrated no significant intraspecific population structure, in addition to a lack of adherence to isolation by distance (IBD) model of evolution. The detected distribution of G. honu in the Pacific region was within the expected tropical to temperate latitudinal ranges of 10° to -30° and extended from Australia to French Polynesia. In the lipophilic fractions, the neuroblastoma cell-based assay (CBA-N2a) showed no ciguatoxin (CTX)-like activity for nine of the 10 isolates, and an atypical pattern for CAWD233 isolate which showed cytotoxic activity in OV- and OV+ conditions. In the same way, liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis confirmed no Pacific-CTXs (CTX-3B, CTX-3C, CTX-4A, CTX-4B) were produced by the ten strains. The CBA-N2a assessment of the hydrophilic fractions showed moderate to high cytotoxicity in both OV- and OV+ condition for all the strains showing a cytotoxic profile similar to that of gambierone. Indeed, this study is the first to show the cytotoxic activity of gambierone on mouse neuroblastoma cells while no cytotoxicity was observed when 44-MG was analysed at the same concentrations using the CBA-N2a. Analysis of the hydrophilic via LC-MS/MS confirmed production of gambierone in all isolates, ranging from 2.1 to 38.1 pg/cell, with 44-methylgambierone (44-MG) also produced by eight of the isolates, ranging from 0.3 to 42.9 pg/cell. No maitotoxin-1 was detected in any of the isolates. Classification of the G. honu strains according to the quantities of gambierone produced aligned with the classification of their cytotoxicity using the CBA-N2a. Finally, no maitotoxin-1 (MTX) was detected in any of the isolates. This study shows G. honu is widely distributed within the Pacific region with no significant intraspecific population structure present. This aligns with the view of microalgal populations as global metapopulations, however more in-depth assessment with other genetic markers could detect further structure. Toxicity diversity across 10 isolates assessed did not display any geographical patterns. | |
dc.format | Print-Electronic | |
dc.language | eng | |
dc.publisher | ELSEVIER | |
dc.relation | http://purl.org/au-research/grants/arc/LP180100001 | |
dc.relation.ispartof | Harmful Algae | |
dc.relation.isbasedon | 10.1016/j.hal.2022.102308 | |
dc.rights | info:eu-repo/semantics/closedAccess | |
dc.subject | 05 Environmental Sciences, 06 Biological Sciences | |
dc.subject.classification | Marine Biology & Hydrobiology | |
dc.subject.mesh | Animals | |
dc.subject.mesh | Chromatography, Liquid | |
dc.subject.mesh | Ciguatera Poisoning | |
dc.subject.mesh | Dinoflagellida | |
dc.subject.mesh | Ethers | |
dc.subject.mesh | Genetic Markers | |
dc.subject.mesh | Marine Toxins | |
dc.subject.mesh | Mice | |
dc.subject.mesh | Mice, Inbred CBA | |
dc.subject.mesh | Neuroblastoma | |
dc.subject.mesh | Oxocins | |
dc.subject.mesh | Tandem Mass Spectrometry | |
dc.subject.mesh | Animals | |
dc.subject.mesh | Mice, Inbred CBA | |
dc.subject.mesh | Mice | |
dc.subject.mesh | Dinoflagellida | |
dc.subject.mesh | Neuroblastoma | |
dc.subject.mesh | Ciguatera Poisoning | |
dc.subject.mesh | Ethers | |
dc.subject.mesh | Oxocins | |
dc.subject.mesh | Genetic Markers | |
dc.subject.mesh | Marine Toxins | |
dc.subject.mesh | Chromatography, Liquid | |
dc.subject.mesh | Tandem Mass Spectrometry | |
dc.subject.mesh | Animals | |
dc.subject.mesh | Chromatography, Liquid | |
dc.subject.mesh | Ciguatera Poisoning | |
dc.subject.mesh | Dinoflagellida | |
dc.subject.mesh | Ethers | |
dc.subject.mesh | Genetic Markers | |
dc.subject.mesh | Marine Toxins | |
dc.subject.mesh | Mice | |
dc.subject.mesh | Mice, Inbred CBA | |
dc.subject.mesh | Neuroblastoma | |
dc.subject.mesh | Oxocins | |
dc.subject.mesh | Tandem Mass Spectrometry | |
dc.title | Geographical distribution, molecular and toxin diversity of the dinoflagellate species Gambierdiscus honu in the Pacific region. | |
dc.type | Journal Article | |
utslib.citation.volume | 118 | |
utslib.location.activity | Netherlands | |
utslib.for | 05 Environmental Sciences | |
utslib.for | 06 Biological Sciences | |
pubs.organisational-group | /University of Technology Sydney | |
pubs.organisational-group | /University of Technology Sydney/Faculty of Science | |
pubs.organisational-group | /University of Technology Sydney/Strength - C3 - Climate Change Cluster | |
pubs.organisational-group | /University of Technology Sydney/Faculty of Science/School of Life Sciences | |
utslib.copyright.status | closed_access | * |
dc.date.updated | 2023-02-08T03:17:42Z | |
pubs.publication-status | Published | |
pubs.volume | 118 |
Abstract:
An increase in cases of ciguatera poisoning (CP) and expansion of the causative species in the South Pacific region highlight the need for baseline data on toxic microalgal species to help identify new areas of risk and manage known hot spots. Gambierdiscus honu is a toxin producing and potential CP causing dinoflagellate species, first described in 2017. Currently no high-resolution geographical distribution, intraspecific genetic variation or toxin production diversity data is available for G. honu. This research aimed to further characterize G. honu by investigating its distribution using species-specific real-time polymerase chain reaction assays at 25 sites in an area spanning ∼8000 km of the Coral Sea/Pacific Ocean, and assessing intraspecific genetic variation, toxicity and toxin production of isolated strains. Assessment of genetic variation of the partial rRNA operon of isolates demonstrated no significant intraspecific population structure, in addition to a lack of adherence to isolation by distance (IBD) model of evolution. The detected distribution of G. honu in the Pacific region was within the expected tropical to temperate latitudinal ranges of 10° to -30° and extended from Australia to French Polynesia. In the lipophilic fractions, the neuroblastoma cell-based assay (CBA-N2a) showed no ciguatoxin (CTX)-like activity for nine of the 10 isolates, and an atypical pattern for CAWD233 isolate which showed cytotoxic activity in OV- and OV+ conditions. In the same way, liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis confirmed no Pacific-CTXs (CTX-3B, CTX-3C, CTX-4A, CTX-4B) were produced by the ten strains. The CBA-N2a assessment of the hydrophilic fractions showed moderate to high cytotoxicity in both OV- and OV+ condition for all the strains showing a cytotoxic profile similar to that of gambierone. Indeed, this study is the first to show the cytotoxic activity of gambierone on mouse neuroblastoma cells while no cytotoxicity was observed when 44-MG was analysed at the same concentrations using the CBA-N2a. Analysis of the hydrophilic via LC-MS/MS confirmed production of gambierone in all isolates, ranging from 2.1 to 38.1 pg/cell, with 44-methylgambierone (44-MG) also produced by eight of the isolates, ranging from 0.3 to 42.9 pg/cell. No maitotoxin-1 was detected in any of the isolates. Classification of the G. honu strains according to the quantities of gambierone produced aligned with the classification of their cytotoxicity using the CBA-N2a. Finally, no maitotoxin-1 (MTX) was detected in any of the isolates. This study shows G. honu is widely distributed within the Pacific region with no significant intraspecific population structure present. This aligns with the view of microalgal populations as global metapopulations, however more in-depth assessment with other genetic markers could detect further structure. Toxicity diversity across 10 isolates assessed did not display any geographical patterns.
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