Rosalee M. Hamilton scite author profile

Declining Chesapeake Bay harvests of softshell clams, together with historical and emerging reports of epizootic diseases in Mya arenaria, prompted a survey in summer 2000 of the health status of selected commercial clam populations. All sampled populations (8 M. arenaria softshell clam, 2 Tagelus plebeius razor clam) were infected by Perkinsus sp. protozoans at prevalences ranging from 30 to 100% of sampled clams. Nucleotide sequences for the internal transcribed spacer (ITS) region of the rRNA gene complex were determined for clonal in vitro Perkinsus sp. isolates propagated from both M. arenaria and T. plebeius. Multiple polymorphic sequences were amplified from each isolate, but phylogenetic analysis placed all sequences into 2 clades of a monophyletic group, which included both recently described clam parasites P. chesapeaki and P. andrewsi. Sequences amplified from each clonal isolate were found in both sister clades, one containing P. andrewsi and the other P. chesapeaki. Most (7 of 8) M. arenaria samples were also affected with disseminated neoplasia (DN), at prevalences of 3 to 37%, but neither T. plebeius sample showed DN disease. Disease mortalities projected for sampled clam populations, especially those affected by both diseases, may further deplete subtidal commercial clam populations in mesohaline portions of Chesapeake Bay. KEY WORDS: Mollusc neoplasia · Disseminated neoplasia · Hemic neoplasia · Dermo disease · Perkinsus chesapeaki · Perkinsus andrewsi · Softshell clam · Razor clam Resale or republication not permitted without written consent of the publisherDis Aquat Org 50: [67][68][69][70][71][72][73][74][75][76][77][78] 2002 circulatory systems of affected clams, displacing normal hemocyte cells and their critical physiological functions. DN disease pathogenesis has been compared to that of vertebrate leukemia (Smolowitz et al. 1989), and it is fatal within 9 mo of experimental transmission (House et al. 1998). With prevalences of up to 58% reported in some Chesapeake Bay clam populations (Farley et al. 1991), mortalities from DN disease are estimated to be significant.Although the etiology and natural transmission mechanisms of DN disease remain unknown, it is mechanically transplantable between affected and healthy Mya arenaria, and is experimentally transmitted through the water column. However, it is not transmitted by injection of healthy clams with cell-free filtrates of affected clam hemolymph, or of filtered hemolymph cell lysates. Despite one report of wholesale DN disease transmission by injection of 0.45 µm-filtered DN cell lysates into healthy clams (Oprandy et al. 1981), consistent failure by later investigators to transmit the disease with cell-free filtrates has been interpreted as refuting the possibility of a viral agent (McLaughlin et al. 1992). Recent detection of retroviral reverse transcriptase activity in filtrates of tissue homogenates only from DN-affected clams suggests that a retroviral agent is present. However, the failure of reverse transcriptase-pos...

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Ultrastructural Characteristics of the In Vitro Cell Cycle of the Protozoan Pathogen of Oysters, Perkinsus marinus

Sunila

Hamilton

Dungan

2001

J Eukaryotic Microbiology

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Ultrastructural characteristics of vegetative and zoosporangial stages of cultured Perkinsus marinus, a pathogen of the eastern oyster, Crassostrea virginica, were examined by transmission electron microscopy. An axenic cell culture was propagated from infected Chesapeake Bay oyster hemolymph. Different stages of the in vitro cell cycle, including schizonts and different size trophonts, were examined. Trophonts had spherical nuclei with wide perinuclear spaces, mitochondria with tubular cristae, and vacuoles with vacuoplasts. There were micropores on the inside of cell walls. A tubular network in the cytoplasm connected lomasomes to vacuoles, and contained vacuoplast precursor material. Vacuoplasts and precursor material diminished when cell cultures were not fed, suggesting a function in metabolite storage. Cells divided by schizogony or binary fission. Daughter cells in a schizont were not alike, and may specialize for different functions. Some of the daughter cells in a schizont died. Some hypnospores, directly isolated from infected oyster hemolymph enlarged in Ray's fluid thioglycollate medium, and were induced to zoosporulate. Zoosporangia contained varicose, hypha-like structures, whose apical tips gave rise to prezoospores. Ultrastructural characteristics of the vegetative and zoosporangial stages did not resemble any apicomplexan parasites other than members of the genus Perkinsus.

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Perkinsus olseni in vitro Isolates from the New Zealand Clam Austrovenus stutchburyi

Dungan¹,

Reece²,

Moss³

et al. 2007

J Eukaryotic Microbiology

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Perkinsus olseni infections are reported at 10%-84% prevalences among Austrovenus stutchburyi clams (cockles) in northern New Zealand coastal waters. However, P. olseni has not yet been propagated in vitro from New Zealand clams. In our sample of A. stutchburyi clams from Mangemangaroa Stream, New Zealand, 24% (8/34) showed low-intensity Perkinsus sp. infections among mantle and gill tissues incubated in alternative Ray's fluid thioglycollate medium (ARFTM), and 5% (4/79) showed Perkinsus sp. lesions by histological analyses. Among clams that were screened using a polymerase chain reaction (PCR) assay, 16% (3/19) were positive for Perkinsus sp. DNA. Alternative Ray's fluid thioglycollate medium-enlarged hypnospores from tissues of five infected clams yielded three in vitro Perkinsus sp. isolate cultures that were cloned before sequencing internal transcribed spacer (ITS) regions of their rRNA gene complex. For one isolate, ATCC PRA-205, large subunit (LSU) rRNA and actin genes were also sequenced. All nucleotide sequences from all isolates consistently identified them as P. olseni, as did their in vitro cell cycles and zoosporulation characteristics. All in vitro isolate cultures and their respective monoclonal derivative strains were cryopreserved and deposited for archiving and distribution by the American Type Culture Collection (http://www.atcc.org).

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Experimental cross-infections by Perkinsus marinus and P. chesapeaki in three sympatric species of Chesapeake Bay oysters and clams

Dungan¹,

Reece²,

Hamilton³

et al. 2007

Dis. Aquat. Org.

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Apoptosis of the Protozoan Oyster Pathogen Perkinsus Marinus in Vivo and in Vitro in the Chesapeake Bay and the Long Island Sound

Yee

Dungan

Hamilton

et al. 2005

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