Julio Vicente Figueroa Millán scite author profile

The genetic diversity displayed by Plasmodium falciparum field isolates, the occurrence of variant forms of the parasite at different frequencies in different geographic areas, and the complexity of the infections represent major obstacles for the development of effective malaria control measures. However, since most of the existing studies have been performed in regions where P. falciparum transmission is high, little is known about the diversity and complexity of parasite populations circulating in areas of low malaria endemicity. We investigated the extent of genetic polymorphism in P. falciparum field isolates from Honduras, a region where its transmission is low and seasonal. Allelic diversity was analyzed in the highly polymorphic parasite genes encoding the merozoite surface proteins-1 (MSP-1) and-2 (MSP-2) and the glutamate-rich protein (GLURP) by the polymerase chain reaction. Gene polymorphism was also assessed in the EB200 region derived from the highly size polymorphic Pf332 gene. Limited size polymorphism was detected in all genes analyzed, with four and three variants for the MSP-1 and MSP-2 alleles, respectively, and two size variants for the GLURP and Pf332 genes. Moreover, based on the studied genetic markers, most infections consisted of only a few genetically distinct parasite clones. These results suggest that the P. falciparum parasite populations circulating in this region are genetically homogeneous and point to an association between the extent of parasite genetic diversity and the intensity of malaria transmission.

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Diagnostic Tools for the Identification of Babesia sp. in Persistently Infected Cattle

Alvarez

Rojas

Millán

2019

Pathogens

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Bovine babesiosis is a tick-borne disease of cattle caused by the protozoan parasites of the genus Babesia. Babesia bovis, Babesia bigemina and Babesia divergens are considered by International health authorities (OIE) as the principal species of Babesia that cause bovine babesiosis. Animals that recover from a babesial primo infection may remain as persistent carriers with no clinical signs of disease and can be the source of infection for ticks that are able to acquire Babesia parasites from infected cattle and to transmit Babesia parasites to susceptible cattle. Several procedures that have been developed for parasite detection and diagnosis of this infectious carrier state constitute the basis for this review: A brief description of the direct microscopic detection of Babesia-infected erytrocytes; PCR-based diagnostic assays, which are very sensitive particularly in detecting Babesia in carrier cattle; in-vitro culture methods, used to demonstrate presence of carrier infections of Babesia sp.; animal inoculation, particularly for B. divergens isolation are discussed. Alternatively, persistently infected animals can be tested for specific antibabesial antibodies by using indirect serological assays. Serological procedures are not necessarily consistent in identifying persistently infected animals and have the disadvantage of presenting with cross reactions between antibodies to Babesia sp.

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Babesia bigemina sexual stages are induced in vitro and are specifically recognized by antibodies in the midgut of infected Boophilus microplus ticks

Mosqueda¹,

Falcón

Alvarez

et al. 2004

International Journal for Parasitology

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Detection of Babesia bigemina-infected carriers by polymerase chain reaction amplification

et al. 1992

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A SpeI-AvaI fragment (0.3 kbp) from pBbil6 (a pBR322 derivative containing a 6.3-kbp Babesia bigemina DNA insert) was subcloned into the pBluescript phagemid vector and was sequenced by the dideoxy-mediated chain termination method. Two sets of primers were designed for the polymerase chain reaction (PCR) assay. Primer set IA-IB was used to amplify a 278-bp DNA fragment, and primer set IAN-IBN was used to prepare a probe directed to a site within the PCR-amplified target DNA. Digoxigenin-dUTP was incorporated into the probe during the amplification reaction. PCR amplification of target DNA obtained from in vitro-cultured B. bigemina and nucleic acid hybridization of amplified product with the nonradioactive DNA probe showed that a 278-bp fragment could be detected when as little as 100 fg of parasite genomic DNA was used in the assay. A fragment of similar size was amplified from genomic DNAs from several B. bigemina isolates but not from DNAs from Babesia bovis, Anaplasma marginale, or six species of bacteria or bovine leukocytes. Similarly, the PCR product could be detected in DNA samples purified from 200 IL1 of blood with a parasitemia of as low as 1 in 108 cells and which contained an estimated 30 B. bigemina-infected erythrocytes. By a direct PCR method, B. bigemina DNA was amplified from 20 ,ul of packed erythrocytes with a calculated parasitemia of 1 in 109 cells. With the analytical sensitivity level of the PCR-DNA probe assay, six cattle with inapparent, 11-month chronic B. bigemina infection were found to be positive. No PCR product was observed in bovine blood samples collected from a splenectomized, A. marginale-infected bovine, a 4-year chronic B. bovis-infected animal, or 20 uninfected cattle from Missouri which were subjected to amplification. The PCR-DNA probe assay was shown to be sensitive in detecting latently infected cattle. The specificity and high analytical sensitivity of the test provide valuable tools for performing large-scale epidemiological studies. Babesia bigemina is one of several Babesia species known to cause bovine babesiosis. The disease is clinically manifested by anemia, fever, hemoglobinuria, and the presence of parasites in the host erythrocytes (20). Recovery from babesiosis is followed by the apparent elimination of parasites from the peripheral blood. However, subclinical infection may last for several years (14). The serological techniques used to diagnose bovine babesiosis do not consistently detect carrier animals and do not specifically eliminate cross-reactions between B. bigemina and Babesia bovis, another important hemoparasite (10). Subclinically infected cattle can be proved to be carriers by subinoculation of blood into susceptible splenectomized calves (14). The use of specific DNA probes and nucleic acid hybridization to detect B. bigemina directly in blood from carrier cattle has several advantages over conventional microscopic, serologic, and subinoculation techniques. Although a radioactively labeled probe derived from cloned segments of genomic B. bigemi...

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