Molecular Mechanisms of Persistence in Protozoan Parasites.

Protozoan parasites are known for their remarkable capacity to persist within the bodies of vertebrate hosts, which frequently results in prolonged infections and the recurrence of diseases. Understanding the molecular mechanisms that underlie the event of persistence is of paramount significance to develop innovative therapeutic approaches, given that these pathways still need to be thoroughly elucidated. The present article provides a comprehensive overview of the latest developments in the investigation of protozoan persistence in vertebrate hosts. The focus is primarily on the function of persisters, their formation within the host, and the specific molecular interactions between host and parasite while they persist. Additionally, we examine the metabolomic, transcriptional, and translational changes that protozoan parasites undergo during persistence within vertebrate hosts, focusing on major parasites such as Plasmodium spp., Trypanosoma spp., Leishmania spp., and Toxoplasma spp. Key findings of our study suggest that protozoan parasites deploy several molecular and physiological strategies to evade the host immune surveillance and sustain their persistence. Furthermore, some parasites undergo stage differentiation, enabling them to acclimate to varying host environments and immune challenges. More often, stressors such as drug exposure were demonstrated to impact the formation of protozoan persisters significantly. Understanding the molecular mechanisms regulating the persistence of protozoan parasites in vertebrate hosts can reinvigorate our current insights into host-parasite interactions and facilitate the development of more efficacious disease therapeutics.

Ribosome Specialization in Protozoa Parasites.

Ribosomes, in general, are viewed as constitutive macromolecular machines where protein synthesis takes place; however, this view has been recently challenged, supporting the hypothesis of ribosome specialization and opening a completely new field of research. Recent studies have demonstrated that ribosomes are heterogenous in their nature and can provide another layer of gene expression control by regulating translation. Heterogeneities in ribosomal RNA and ribosomal proteins that compose them favor the selective translation of different sub-pools of mRNAs and functional specialization. In recent years, the heterogeneity and specialization of ribosomes have been widely reported in different eukaryotic study models; however, few reports on this topic have been made on protozoa and even less on protozoa parasites of medical importance. This review analyzes heterogeneities of ribosomes in protozoa parasites highlighting the specialization in their functions and their importance in parasitism, in the transition between stages in their life cycle, in the change of host and in response to environmental conditions.

Los patrones electroforéticos de proteínas salivales permiten diferenciar los grupos transandino y cisandino de las especies de Rhodnius de Colombia / Salivary proteins electrophoretic patterns enabled differentiating Colombian Rhodnius Trans-Andean and Cis-Andean groups

Introducción. Las especies Rhodnius (Hemiptera: Reduviidae: Triatominae) están conformadas por insectos hematófagos vectores de Trypanosoma cruzi, agente etiológico de la enfermedad de Chagas, y T. rangeli, parásito infectivo pero no patógeno para el vertebrado. El estudio de la diversidad proteica de la saliva de estos insectos permite la obtención de perfiles electroforéticos unidimensionales característicos de algunas especies de triatominos. Sin embargo, el reporte de los patrones electroforéticos de proteínas salivales de las especies de Rhodnius ha sido escaso. Objetivo. Hacer un análisis comparativo de los perfiles electroforéticos unidimensionales de las proteínas salivales de R. colombiensis, R. pallescens, R. pictipes, R. prolixus y R. robustus. Materiales y métodos. Se obtuvieron los perfiles electroforéticos de la saliva de las especies en estudio mediante electroforesis en gel de poliacrilamida con dodecilsulfato sódico (Sodium Dodecyl Sulfate Polyacrylamide Gel Electrophoresis, SDS-PAGE) y se construyó un fenograma mediante el método UPGMA (Unweighted Pair Group Method Using Arithmetic Averages). Resultados. Los perfiles electroforéticos de las proteínas solubles de saliva presentaron bandas en un rango de masa aproximado de 15 a 45 kDa, los cuales permitieron diferenciar las cinco especies estudiadas. El fenograma reveló la existencia de dos grupos principales: uno conformado por los grupos cisandinos Pictipes y Prolixus y otro constituido por el grupo transandino Pallescens. Conclusiones. Existen diferencias en los perfiles electroforéticos de las proteínas salivales entre R. colombiensis, R. pallescens, R. pictipes, R. prolixus y R. robustus, cuya variabilidad permitió construir un fenograma congruente con los grupos del género Rhodnius.

Introduction: Rhodnius (Hemiptera: Reduviidae: Triatominae) species are made up of haematophagous insect vectors for Trypanosoma cruzi (Chagas' disease aetiological agent) and T. rangeli, an infective parasite that is not pathogenic for vertebrate hosts. The study of their salivary protein diversity enables the obtention of characteristic one-dimensional electrophoretic profiles of some triatomine species; however, few reports have dealt with Rhodnius species salivary proteins electrophoretic patterns. Objective: To compare R. colombiensis, R. pallescens, R. pictipes, R. prolixus, and R. robustus' salivary proteins one-dimensional electrophoretic profiles. Materials and methods: SDS-PAGE was used for obtaining electrophoretic profiles of saliva from the species under study. The unweighted pair group method with arithmetic mean (UPGMA) was used for constructing a phenogram. Results: Electrophoretic profiles of soluble saliva had protein bands ranging from 15 to 45 kDa, thereby enabling the five species studied to be differentiated. The phenogram revealed two main groups, one formed by the Pictipes and Prolixus cis-Andean groups and another consisting of the Pallescens trans-Andean group. Conclusion: Differences were revealed regarding R. colombiensis, R. pallescens, R. pictipes, R. prolixus, and R. robustus electrophoretic profiles of salivary proteins; their variability facilitated constructing a phenogram which was taxonomically congruent with the groups from the genus Rhodnius.