Addendum to the checklist of the helminth parasites of vertebrates in Costa Rica

In this work, we present an addendum to the "Checklist of the helminth parasites of vertebrates in Costa Rica" with a parasite-host list as well as a host-parasite list. This addendum updates the available information on this group of parasites in Costa Rica, since very recently a new input has been made to describe the helminth fauna of vertebrates, particularly at the Area de Conservación de Guanacaste. In this paper, we add 33 records, representing 23 species. This raises the number of helminth species described in vertebrates from Costa Rica to 325, represented by 89 species of digeneans, 23 of monogeneans. 63 of cestodes, 13 of acanthocephalans, and 137 of nematodes. In total, 133 species of vertebrates have been studied for helminths in Costa Rica (31 species of fishes. 7 amphibians, 18 reptiles, 40 birds, and 37 mammals). Currently, 67 species (20.6 %) have been recorded as new species from Costa Rica and most of them are endemic to particular regions. The Colecci6n de Helmintos de Costa Rica, housed at the Universidad de Costa Rica (UCR), San José, is the depositary of only 23% of the species recorded so far; however this situation is changing and people recognizes.

Checklist of the helminth parasites of vertebrates in Costa Rica

Helminth parasites of vertebrates have been studied in Costa Rica for more than 50 years. Survey work on this group of parasites is far from complete. We assembled a database with all the records of helminth parasites of wild and domestic vertebrates in Costa Rica. Information was obtained from different sources such as literature search (all published accounts) and parasite collections. Here we present a checklist with a parasite-host list as well as a host-parasite list. Up to now, 303 species have been recorded, including 81 species of digeneans, 23 monogeneans, 63 cestodes, 12 acanthocephalans, and 124 nematodes. In total, 108 species of vertebrates have been studied for helminths in Costa Rica (31 species of fishes, 7 amphibians, 14 reptiles, 20 birds, and 36 mammals). This represents only 3.8% of the vertebrate fauna of Costa Rica since about 2,855 species of vertebrates occur in the country. Interestingly, 58 species (19.1%) were recorded as new species from Costa Rica and most of them are endemic to particular regions. Considering the valuable information that parasites provide because it is synergistic with all the information about the natural history of the hosts, helminth parasites of vertebrates in Costa Rica should be considered within any initiatives to accomplish the national inventory of biological resources. Starting with this compilation work, the Colección de Helmintos de Costa Rica (CHCR), hosted at the Facultad de Microbiología, Universidad de Costa Rica, has re-emerged and it is our hope that it will have the standards of quality to assure that it will become the national depository of helminths in the country.

Role of parasite surface glycoconjugates on induction/regulation of immune responses and inflammation, elicited during Trypanosoma cruzi infection: potential implications on pathophysiology of Chagas" disease

To understand the interaction of Trypanosoma cruzi and the immune system of the vertebrate host, and therefore the pathophysiology of Chagas' disease, different research groups have focused their attention on the identification and characterization of parasite molecules involved in the activation of either innate or adaptive immune responses. The parasite surface molecules that serve as targets of the vertebrate host immune system have also been studied and identified. These studies have revealed that the quatitatively dominant complex of glycosylphosphatidylinositol (GPI)-anchored molecules (GIPLs, mucins and TS) present on the surface of T. cruzi trypomastigotes are essential to control activation of the innate immune system and promote initiation of acquired immune responses in the vertebrate host. Two major families of surface glycoproteins (mucin-like glycoproteins and transialidases) have also been shown to be important targets of parasite specific humoral and cellular immune responses. They are, thus, important candidates for vaccine development as determined in studies using experimental models. Studies regarding the molecular cloning and/or biochemical characterization of the above mentioned T. cruzi surface molecules, and their ability to influence the outcome of T. cruzi infection in the vertebrate host through the stimulation and/or control of the immune system are presently reviewed. A proposition is made that such molecules may have evolved and been selectively conserved to establish an equilibrium between the parasite and its vertebrate host, limiting parasite replication, but allowing parasite persistence and host survival, thus favoring the maintenance of T. cruzi life cycle.

Criptosporidiosis experimental en la escala de vertebrados: I infecciones experimentales, II estudio histopatológico / Experimental cryptosporidiosis in the vertebrates scale: I experimental infections, II histopathological study

A partir de una cepa de cryptosporodium parvum aislada de un caso clínico de un niño, se infectaron experimentalmente especies representativas de la escala de vertebrados (mamíferos, aves, reptiles, batracios y peces). Se logró la infección en todas ellas. Al mismo tiempo las infecciones cruzadas desde los vertebrados a ratones de laboratorio, permitieron la infección heteróloga. Se hizo un estudio histopatológico en cada uno de esos hospedadores, encontrándose todos los estadios del ciclo de vida de cryptosporodium, en heces y visceras (ooquistes maduros, esporozoitos, trofozoitos, esquizontes, gamontes, cigotos, ooquistes inmaduros). Nuestros resultados demuestran y confirman la poca especificidad del parásito con respecto a esos diversos hospedadores

Immunological aspects of host-schistosome relationships

The complex immunological relationships between schistosomes and their vertebrate hosts are considered to be conveniently divisible into four distinct, though interrelated categories: the parasite's vulnerability to, its evasion of, and its exploitation of the host's immune response, and its stimulation of the host's immune response to produce immunopathology. Some significant recent advances in the first three categories are discussed, as well as their relationships to the fourth category of immunopathology.