Etiologías asociadas con neoplasias diseminadas en moluscos bivalvos
DOI:
https://doi.org/10.33936/at.v4i1.4308Palabras clave:
Neoplasia diseminada, Moluscos, Diagnóstico, EtiologíaResumen
Se presenta una revisión sobre las neoplasias diseminadas descritas en los moluscos bivalvos, así como las etiologías asociadas a ellas. Se analiza y discute sobre los argumentos y razones por las cuales no ha sido posible identificar un agente causal único. Estas etiologías incluyen a los contaminantes antropogénicos, las biotoxinas, las alteraciones y factores genéticos tales como transposones, a agentes infecciosos, particularmente retrovirus y a la participación de linajes clonales de células transformadas y transmisibles. Se describen, además, las principales características histopatológicas desarrolladas por los animales afectados por esta patología y se exponen las principales técnicas diagnósticas.
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Arriagada G., Metzger M J., Muttray A F., Sherry M, Reinisch C., Street C., Lipkin W I., Goff S P. (2014). Activation of transcription and retrotransposition of a novel retroelement, Steamer, in neoplastic hemocytes of the mollusk Mya arenaria. PNAS, 111(39): 14175–14180.
Barber B J. (2004). Neoplastic diseases of commercially important marine bivalves. Aquatic Living Resources, 17: (2004) 449-466
Barker C M., Calvert R J., Walker C W., Reinisch C L. (1997). Detection of mutant p53 in clam leukemia cells. Experimental Cell Research 232: 240-245.
Brousseau D J., Baglivo J A. (1991). Disease progression and mortality in neoplastic Mya arenaria in the field. Marine Biology, 110: 249 - 252.
Brown R S. (1980). The value of the multidisciplinary approach to research on marine pollution effects as evidenced in a three-year study to determine the etiology and pathogenesis of neoplasia in the soft-shell clam, Mya arenaria. Rapp. P.-v. Réun. Cons. int. Explor. Mer 179: 125-128
Carballar M., Barber B., Iglesias D., Villalba A (2015). Neoplastic diseases of marine bivalves. Journal of Invertebrate Pathology, 131: 83-106.
Carella F., Feist S W., Bignell J P., de Vico G. (2015). Comparative pathology in bivalves: Aetiological agents and disease processes. Journal of Invertebrate Pathology, 131:107-120
Collins C M., Mulcahy M F. (2003). Cell-free transmission of a haemic neoplasm in the cockle Cerastoderma edule. Diseases of Aquatic Organisms, 54: 61-67
da Silva P M., Farias N D., Ramos F., Hégaret H., Soudant P. (2018). Disseminated neoplasia in cultured Crassostrea gasar oysters from northeast Brazil. Journal of Invertebrate Pathology, https://doi.org/10.1016/j.jip.2018.11.00
de Montaudouin X., Arzul I., Cao A., Carballal M J., Chollet B., Correia S., Cuesta J., Culloty S., Daffe G., Darriba S., Díaz S., Engelsma M., Freitas R., Garcia C., Goedknegt A., Gonzalez P., Grade A., Groves E., Iglesias D., Jensen K T., Joaquim S., Lynch S., Magalhães L., Mahony K., Maia F., Malham S., Matias D., Nowaczyk A., Ruano F., Thieltges D., Villalba A. (2021). Catalogue of parasites and diseases of the common cockle Cerastoderma edule. UA Editora – Universidade de Aveiro
de Vera A Z., Mcgladdery S E., Herrera A A., Stephenson M F., Maillet M., Bourque D. (2005). Occurrence of Hemic Neoplasia in Slipper Oyster, Crassostrea iredalei (Faustino, 1928), in Dagupan City, Philippines. In Walker P, Lester R, Bondad-Reantaso M G. (eds). Diseases in Asian Aquaculture V, pp. 321-325 Fish Health Section, Asian Fisheries Society, Manila.
Dairain A, Engelsma M Y, Drent J, Dekker R, Thieltges D W. (2020). High prevalences of disseminated neoplasia in the Baltic tellin Limecola balthica in the Wadden Sea. Diseases of Aquatic Organisms, 2020 Feb 27; 138:89-96. DOI: 10.3354/dao03448.
Díaz S., Iglesias D., Villalba A., Carballal M J. (2016). Long-term epidemiological study of Disseminated neoplasia of cockles in Galicia (NW Spain): temporal patterns at individual and population levels, influence of environmental and cockle-based factors and lethality. Journal of Fish Diseases 2016 doi:10.1111/jfd.12436.
Díaz S., Villalba A., Carballal M J. (2017). Assessment of transmissibility of the disseminated neoplasia affecting cockles Cerastoderma edule in Galicia (NW Spain) Bulletin of the European Association of Fish Pathologists, 37(1) 2017, 5
Elston R A., Kent M L., Drum A S. (1988). Transmission of hemic neoplasia in the bay mussel, Mytilus edulis, using whole cells and cell homogenate. Developmental and Comparative Immunology 12, 719-727.
Elston R A., Moore J D., Brooks K M. (1992). Disseminated neoplasia of bivalve molluscs. Reviews in Aquatic Science, 6: 405-466.
Farley C A. (1969). Probable neoplastic disease of the hematopoietic system in oysters, Crassostrea virginica and Crassostrea gigas. National Cancer Institute. Monographs. 31: 541-555.
Farley C A., Plutschak D L., Scott R F. (1991) Epizootiology and distribution of transmissible sarcoma Maryland soft shell clams, Mya arenaria, 1984-1988. Environ. Health. Perspect. 90: 35-41
Figueras A., Novoa B. (2011). Enfermedades de moluscos bivalvos de interés en Acuicultura. Fundación Observatorio Español de Acuicultura - Consejo Superior de Investigaciones Científicas- Ministerio de Medio Ambiente y Medio Rural y Marino: España.
House M L., Kim C H., Reno P W. (1988). Soft shell clams Mya arenaria with disseminated neoplasia demonstrate reverse transcriptase activity. Diseases of Aquatic Organisms. 34: 187-192.
Karunasagar I., Karunasagar I., Bondad Reantaso M G. (2020). Complexities involved in source attribution of antimicrobial resistance genes found in aquaculture products. Asian Fisheries Science 33(S1):16–2
Kent M L., Elston R A., Wilkinson M T., Drum A S. (1991). Failure of transmission of hemic neoplasia of bay mussels, Mytilus trossulus, to other bivalve species. Journal of Invertebrate Pathology, 57: 435 -436.
Landsberg J H. (1996). Neoplasia and biotoxins in bivalves: is there a connection? Journal of Shellfish Research, 15(2): 203-230
Luque J., Herráez A. (2001). Biología molecular e ingeniería genética. Conceptos, técnicas y aplicaciones en ciencias de la salud. Elsevier. España. ISBN: 84-8174-505-7. 466pp.
Metzger M J., Paynter A N., Siddall M E., Goff S P. (2018). Horizontal transfer of retrotransposons between bivalves and other aquatic species of multiple phyla. PNAS. 115(18) E4227–E4235
Metzger M J., Reinisch C., Sherry J., Goff S P. (2015). Horizontal transmission of clonal cancer cells causes leukemia in soft-shell clams. Cell. 161(2): 255–263. DOI: 10.1016/j.cell.2015.02.042.
Metzger M J., Villalba A., Carballal M J., Iglesias D., Sherry F., Reinisch C., Muttray A F., Baldwin S A., Goff S P. (2016). Widespread transmission of independent cancer lineages within multiple bivalve species. Nature. 534(7609): 705–709.
Oprandy J J., Chang P W., Pronovost A D., Cooper K R., Brown R S., Yates V J. (1981). Isolation of a viral agent causing hematopoietic neoplasia in the soft-shell clam, Mya arenaria. Journal of Invertebrate Pathology. 38, 38-45.
Paynter A N., Metzger M J., Sessa J A., Siddall M E. (2017). Evidence of horizontal transmission of the cancer-associated Steamer retrotransposon among ecological cohort bivalve species. Diseases of Aquatic Organisms, 124: 165–168
Peters E C. (1988). Recent investigations on the disseminated sarcomas of marine bivalves molluscs. American Fisheries Society Special Publication, 18,74-92
Smolarz K. (2005). Recent trends in the prevalence of neoplasia in the Baltic clam Macoma balthica (L.) from the Gulf of Gdańsk (Baltic Sea) Oceanologia, 47 (1): 61–74
Sparks A K. (1985). Synopsis of Invertebrate Pathology Exclusive of Insects, Elsevier, Amsterdam.
Renault T., Ford S. (2017). Disseminated neoplasms in bivalves. ICES Identification Leaflets for Diseases and Parasites of Fish and Shellfish. No. 67. 6 pp. DOI: 10.17895/ices.pub.2098
Varela A., Barbosa W. (2020) Captura, selección e ingestión de partículas en Ostreidae (Bivalvia): Crassostrea spp. AquaTechnica 2(3):161-181. DOI: https://doi.org/10.33936/at.v2i3.3091 https://doi.org/10.5281/zenodo.5194197
Webb S C., Duncan J. (2019). New Zealand shellfish health monitoring 2007 to 2017: insights and projections. Prepared for the Ministry of Business, Innovation and Employment (MBIE). Cawthron Report No. 2568. 67 p
Barber B J. (2004). Neoplastic diseases of commercially important marine bivalves. Aquatic Living Resources, 17: (2004) 449-466
Barker C M., Calvert R J., Walker C W., Reinisch C L. (1997). Detection of mutant p53 in clam leukemia cells. Experimental Cell Research 232: 240-245.
Brousseau D J., Baglivo J A. (1991). Disease progression and mortality in neoplastic Mya arenaria in the field. Marine Biology, 110: 249 - 252.
Brown R S. (1980). The value of the multidisciplinary approach to research on marine pollution effects as evidenced in a three-year study to determine the etiology and pathogenesis of neoplasia in the soft-shell clam, Mya arenaria. Rapp. P.-v. Réun. Cons. int. Explor. Mer 179: 125-128
Carballar M., Barber B., Iglesias D., Villalba A (2015). Neoplastic diseases of marine bivalves. Journal of Invertebrate Pathology, 131: 83-106.
Carella F., Feist S W., Bignell J P., de Vico G. (2015). Comparative pathology in bivalves: Aetiological agents and disease processes. Journal of Invertebrate Pathology, 131:107-120
Collins C M., Mulcahy M F. (2003). Cell-free transmission of a haemic neoplasm in the cockle Cerastoderma edule. Diseases of Aquatic Organisms, 54: 61-67
da Silva P M., Farias N D., Ramos F., Hégaret H., Soudant P. (2018). Disseminated neoplasia in cultured Crassostrea gasar oysters from northeast Brazil. Journal of Invertebrate Pathology, https://doi.org/10.1016/j.jip.2018.11.00
de Montaudouin X., Arzul I., Cao A., Carballal M J., Chollet B., Correia S., Cuesta J., Culloty S., Daffe G., Darriba S., Díaz S., Engelsma M., Freitas R., Garcia C., Goedknegt A., Gonzalez P., Grade A., Groves E., Iglesias D., Jensen K T., Joaquim S., Lynch S., Magalhães L., Mahony K., Maia F., Malham S., Matias D., Nowaczyk A., Ruano F., Thieltges D., Villalba A. (2021). Catalogue of parasites and diseases of the common cockle Cerastoderma edule. UA Editora – Universidade de Aveiro
de Vera A Z., Mcgladdery S E., Herrera A A., Stephenson M F., Maillet M., Bourque D. (2005). Occurrence of Hemic Neoplasia in Slipper Oyster, Crassostrea iredalei (Faustino, 1928), in Dagupan City, Philippines. In Walker P, Lester R, Bondad-Reantaso M G. (eds). Diseases in Asian Aquaculture V, pp. 321-325 Fish Health Section, Asian Fisheries Society, Manila.
Dairain A, Engelsma M Y, Drent J, Dekker R, Thieltges D W. (2020). High prevalences of disseminated neoplasia in the Baltic tellin Limecola balthica in the Wadden Sea. Diseases of Aquatic Organisms, 2020 Feb 27; 138:89-96. DOI: 10.3354/dao03448.
Díaz S., Iglesias D., Villalba A., Carballal M J. (2016). Long-term epidemiological study of Disseminated neoplasia of cockles in Galicia (NW Spain): temporal patterns at individual and population levels, influence of environmental and cockle-based factors and lethality. Journal of Fish Diseases 2016 doi:10.1111/jfd.12436.
Díaz S., Villalba A., Carballal M J. (2017). Assessment of transmissibility of the disseminated neoplasia affecting cockles Cerastoderma edule in Galicia (NW Spain) Bulletin of the European Association of Fish Pathologists, 37(1) 2017, 5
Elston R A., Kent M L., Drum A S. (1988). Transmission of hemic neoplasia in the bay mussel, Mytilus edulis, using whole cells and cell homogenate. Developmental and Comparative Immunology 12, 719-727.
Elston R A., Moore J D., Brooks K M. (1992). Disseminated neoplasia of bivalve molluscs. Reviews in Aquatic Science, 6: 405-466.
Farley C A. (1969). Probable neoplastic disease of the hematopoietic system in oysters, Crassostrea virginica and Crassostrea gigas. National Cancer Institute. Monographs. 31: 541-555.
Farley C A., Plutschak D L., Scott R F. (1991) Epizootiology and distribution of transmissible sarcoma Maryland soft shell clams, Mya arenaria, 1984-1988. Environ. Health. Perspect. 90: 35-41
Figueras A., Novoa B. (2011). Enfermedades de moluscos bivalvos de interés en Acuicultura. Fundación Observatorio Español de Acuicultura - Consejo Superior de Investigaciones Científicas- Ministerio de Medio Ambiente y Medio Rural y Marino: España.
House M L., Kim C H., Reno P W. (1988). Soft shell clams Mya arenaria with disseminated neoplasia demonstrate reverse transcriptase activity. Diseases of Aquatic Organisms. 34: 187-192.
Karunasagar I., Karunasagar I., Bondad Reantaso M G. (2020). Complexities involved in source attribution of antimicrobial resistance genes found in aquaculture products. Asian Fisheries Science 33(S1):16–2
Kent M L., Elston R A., Wilkinson M T., Drum A S. (1991). Failure of transmission of hemic neoplasia of bay mussels, Mytilus trossulus, to other bivalve species. Journal of Invertebrate Pathology, 57: 435 -436.
Landsberg J H. (1996). Neoplasia and biotoxins in bivalves: is there a connection? Journal of Shellfish Research, 15(2): 203-230
Luque J., Herráez A. (2001). Biología molecular e ingeniería genética. Conceptos, técnicas y aplicaciones en ciencias de la salud. Elsevier. España. ISBN: 84-8174-505-7. 466pp.
Metzger M J., Paynter A N., Siddall M E., Goff S P. (2018). Horizontal transfer of retrotransposons between bivalves and other aquatic species of multiple phyla. PNAS. 115(18) E4227–E4235
Metzger M J., Reinisch C., Sherry J., Goff S P. (2015). Horizontal transmission of clonal cancer cells causes leukemia in soft-shell clams. Cell. 161(2): 255–263. DOI: 10.1016/j.cell.2015.02.042.
Metzger M J., Villalba A., Carballal M J., Iglesias D., Sherry F., Reinisch C., Muttray A F., Baldwin S A., Goff S P. (2016). Widespread transmission of independent cancer lineages within multiple bivalve species. Nature. 534(7609): 705–709.
Oprandy J J., Chang P W., Pronovost A D., Cooper K R., Brown R S., Yates V J. (1981). Isolation of a viral agent causing hematopoietic neoplasia in the soft-shell clam, Mya arenaria. Journal of Invertebrate Pathology. 38, 38-45.
Paynter A N., Metzger M J., Sessa J A., Siddall M E. (2017). Evidence of horizontal transmission of the cancer-associated Steamer retrotransposon among ecological cohort bivalve species. Diseases of Aquatic Organisms, 124: 165–168
Peters E C. (1988). Recent investigations on the disseminated sarcomas of marine bivalves molluscs. American Fisheries Society Special Publication, 18,74-92
Smolarz K. (2005). Recent trends in the prevalence of neoplasia in the Baltic clam Macoma balthica (L.) from the Gulf of Gdańsk (Baltic Sea) Oceanologia, 47 (1): 61–74
Sparks A K. (1985). Synopsis of Invertebrate Pathology Exclusive of Insects, Elsevier, Amsterdam.
Renault T., Ford S. (2017). Disseminated neoplasms in bivalves. ICES Identification Leaflets for Diseases and Parasites of Fish and Shellfish. No. 67. 6 pp. DOI: 10.17895/ices.pub.2098
Varela A., Barbosa W. (2020) Captura, selección e ingestión de partículas en Ostreidae (Bivalvia): Crassostrea spp. AquaTechnica 2(3):161-181. DOI: https://doi.org/10.33936/at.v2i3.3091 https://doi.org/10.5281/zenodo.5194197
Webb S C., Duncan J. (2019). New Zealand shellfish health monitoring 2007 to 2017: insights and projections. Prepared for the Ministry of Business, Innovation and Employment (MBIE). Cawthron Report No. 2568. 67 p
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2022-03-22
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Derechos de autor 2022 Alexander Varela, Carolina Elizondo Ovares
Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-CompartirIgual 4.0.
