MEM INST OSWALDO CRUZ, RIO DE JANEIRO, 97(6) September 2002
PAGES: 829-834 DOI: Full paper
Triatoma rubrovaria (Blanchard, 1843) (Hemiptera: Reduviidae) I: Isoenzymatic and Chromatic Patterns of Five Populations from the State of Rio Grande do Sul, Brazil

Carlos Eduardo AlmeidaI +, Raquel S PachecoII, François NoireauIII IV, Jane Costa

Núcleo de Informatização, Coleção Entomológica
INúcleo Avançado de Estudos de Artrópodes Peçonhentos e Vetores, Centro Universitário de Barra Mansa, Barra Mansa, RJ, Brasil
IILaboratório de Sistemática Bioquímica, Departamento de Bioquímica e Biologia Molecular, Instituto Oswaldo Cruz-Fiocruz, Av. Brasil 4365, 21045-900 Rio de Janeiro, RJ, Brasil
IIIInstitut de Recherche pour le Développement, UR016, Paris, France

IVLaboratório Nacional e Internacional de Referência em Taxonomia de Triatomíneos, Departamento de Entomologia

Abstract

Triatoma rubrovaria has become the most frequently captured triatomine species since the control of T. infestans in the State of Rio Grande do Sul (RS), BrazilIn order to evaluate the genetic variability of this species, field collections were performed in four municipalities where it has been reported and distant from 75 to 322 km. Specimens were analyzed by color pattern and isoenzymes. Nine enzymatic loci were interpreted from nine enzymatic systems. The Santiago population was isolated from the others with chromatic monomorphism and diagnostic alleles at Idh and Pgm loci. The study shows the existence of, at least, two distinct populations of T. rubrovaria in RS with different phenotypic and genetic pattern.

Triatoma rubrovaria (Blanchard, 1843) is widespread in Uruguay and parts of Northeastern Argentina. In Brazil, its presence has been confirmed only in the southern States of Paraná (PR) and Rio Grande do Sul (RS). This species is mainly found among rocks known as `pedregales' and is considered generalist, feeding on a wide variety of vertebrate and invertebrate hosts (Salvatella et al. 1994, 1995). Salvatella et al. (1994) demonstrated that it does feed on humans and Silva and Silva (1993) showed its high competency as vector of Trypanosoma cruzi, the causative agent of Chagas disease.

Lent (1942) mentioned T. rubrovaria (cited as Eutriatoma rubrovaria) as an exclusively sylvatic species found in stone piles and peridomestic habitat in RS, but rarely encountered in human dwellings. However, subsequent authors have also mentioned the finding of this species in domiciliary habitats, but with no sign of successful colonization (Di Primo 1957, Lucena 1959, Correa 1968, Lent & Wygodzinsky 1979). More recently, its potential for colonizing human dwellings was emphasized by Silveira and Rezende (1994).

Surveillance data gathered by the Brazilian National Health Foundation (Funasa) during the Chagas Disease Control Program (PCDCH) over the last 20 years show that the presence of T. rubrovaria in human dwellings has increased in Southern Brazil. However, there are no consistent clues of intradomiciliary colonization by T. rubrovaria. This species seems to present preadaptive characteristics for anthropic ecotopes, and should be kept under constant epidemiologic surveillance (Almeida et al. 2000).

Previous study on isoenzymatic and chromatic patterns of four T. brasiliensis populationsfromNortheastern Brazil has shown high genetic distances among them (Costa et al. 1997). Detailed study of these distinct populations will improve the understanding of the role of these "distinct melanic forms" in the transmission of Chagas disease (Costa et al. 1998). A chromatic polymorphism of pronotum has also been observed for T. rubrovaria populations from Uruguay and Southern Brazil (Lent 1942). The aim of this work was to investigate by multilocus enzyme electrophoresis and color patternthe genetic and phenotypic variability of T. rubrovaria populations issued from different localities in RS.

 

MATERIALS AND METHODS

Study areas - Specimens were collected in four mu-nicipalities of RS: Santana do Livramento (30º53'27"S; 55º31'58"W), Santiago (29º11'30"S; 54º52'02"W), Canguçu (31º23'42"S; 52º40'32"W) and Encruzilhada do Sul (30º32'38"S; 52º31'19"W). Savanna-like or steppe-like subtropical mixed prairies are the predominant environmental characteristics (IBGE 1997). The distances (in km) among the collection sites are given inFig. 1. Chickens, dogs, pigs, cattle and sheeps are the most frequent domestic animals in the region when sylvatic animals are not common. The capture of insects was carried out in warm season, from October to March (1998-1999) in domiciliary, peridomiciliary and sylvatic-like ecotopes. Peridomiciliary habitat was considered 5-10 m from houses and was frequently delimited by stone walls, a type of construction made of overlapping rocks. They are used as shelter by small animals and arthropods. The sylvatic-like environment, characterized by grass pastures for cattle and sheep feeding and called as "ruderale", is located more than 10 m far from houses. In this environment, triatomines were found in overlapping rocks on the ground and in the dry stonewalls used as fences between pieces of land.

Processing of insects - Insects were placed in plastic bottles containing filter paper and transported to the laboratory. Identification of adults was performed according to Lent and Wygodzinsky (1979).

Isoenzyme electrophoresis - A total of 141 live adult specimens were used. The technique was performed on agarose gel as described for anophelines by Rosa-Freitas et al. (1992) and modified for triatomines by Costa et al. (1997). The analysis was performed in wild collected insects, except for Santana do Livramento population where F1 was used. The localities where T. rubrovaria specimens were collected, their coordinates, the ecotopes, number of founder individuals (for Santana do Livramento population only), and number of insects studied are given in Table I. Thirty one specimens of T. infestans were used as an outgroup. Those specimens were issued from a colony (20 males and 20 females founders) collected in the State of Bahia, Brazil, in October 1981. The insects were cut between the prothorax and mesothorax. Prothorax and head were ground in 200 µl of lysis buffer (500 mM Tris HCl, 26 mM EDTA, 10 mM DTT and 10 mM E-amino-caproic acid) and 4 µl of each homogenate was loaded in each track for electrophoresis. Fifteen enzymatic systems were tested: 6PGD - 6-Phosphogluconate dehydrogenase (E.C. 1.1.1.43), ACON - Aconitase (E.C. 4.2.1.3), FUM - Fumarase (E.C. 4.2.1.2), G-6-PDH - Glucose-6-phosphate dehydrogenase (EC 1.1.1.49), GPI - Glucose phosphate isomerase (EC 5.3.1.9), HK - Hexokinase (E.C. 2.7.1.1), HBDH - ß-hydroxybutyrate dehydrogenase (E.C. 1.1.1.30), IDH - Isocitrate dehydrogenase (E.C. 1.1.1.42), MDH - Malate dehydrogenase (E.C. 1.1.1.37), ME - Malic enzyme (E.C. 1.1.1.40), MPI - Manose-6-phosphate isomerase (E.C. 5.3.1.8), PEP2 - Aminopeptidase (E.C. 3.4.11, leucine1-L-alanina substrate), PEP3 - Aminopeptidase (E.C. 3.4.11, leucina1-leucina1 substrate), PEPD - Proline dipeptidase (E.C. 3.4.13.9) and PGM - Phosphoglucomutase (E.C. 2.7.5.1).

Statistical methods applied to isoenzyme analysis - Genotype frequencies were obtained by direct interpretation of bands on the gels. Genetic variability was estimated by the rate of polymorphism (P), the mean number of alleles per locus (A) and the expected mean heterozygosity He (Nei 1987). Departures from panmixia were looked for using the fixation index (F). For the latter calculation, only two possible alleles were taken into account: the most frequent one, and all other ones plotted together as a unique allele. The standard genetic distance (Ds) of Nei (1987) was used to compare gene frequency differences between the geographic populations, and converted into an unweighted pair group method arithmetical average (UPGMA) dendrogram.

Analysis of chromatic pattern - Field specimens were utilized for the observation of the chromatic variation. Pronotum of each specimen was examined by using a stereoscopic microscope and typed according to the morphotypes described by Lent (1942). The distinct color patterns were illustrated using a digital camera.

 

RESULTS

In Santana do Livramento, T. rubrovaria specimens were collected in two sites, Ponte and Brigada, 10 km distant from each other and located in ruderale environment. In Ponte, specimens were collected in natural ecotopes (overlapping rocks - `Ln' population) and in Brigada in artificial ones (stone walls - `La' population). In Canguçu, triatomines were found only in stonewalls in the peridomicile and designated as `C' population. In Santiago and Encruzilhada do Sul, the specimens were collected only in natural ecotope located in ruderale environment (populations `S' and `E', respectively) (Table I).

For the isoenzymatic analysis, nine out of the 15 systems tested gave readable results for the four populations of T. rubrovaria. The enzymes ACON, G-6-PDH, HK, HBDH, PEP2 and PEPD showed no activity or weak bands and were discarded from the analysis. Thus, the nine interpreted enzymes were 6PGD, FUM, GPI, IDH, MDH, ME, MPI, PEP3 and PGM. Among the nine analyzed loci, intra-populational polymorphism was only found for Pgm and Mpi loci. The Pgm locus was polymorphic only for the `S' population, showing three alleles (Pgm-2Pgm-3 and Pgm-4) under six possible combinations for homozygotes and heterozygotes. In this same locus, other T. rubrovaria populations were monomorphic with the Pgm-2 allele. Mpi locus was polymorphic for `Ln', `C' and `E' populations. For Idh, the `S' population presented a monomorphic diagnostic allele (Idh-1) while the other T. rubrovaria populations presented the Idh-2 allele (Table II).

Within T. rubrovaria samples from each locality, departure from Hardy-Weinberg equilibrium was tested by the fixation index. Observed genotype frequencies for all alleles were consistent with random mating expectations (Table III). The greatest mean number of alleles per locus (A) and expected mean heterozygosity (He) were observed in `S' population. Except for `La' population monomorphic in all loci, other populations showed the same rate of polymorphism (Table II).

A mean genetic distance of 1.11 was registered between the out-group and T. rubrovaria populations. The distances encountered between four T. rubrovaria populations (`Ln', `C', `La' and `E') were very low (Ds £ 0.004) when higher distances were observed between them and `S' population (from 0.172 to 0.180) (Figs 34).

Four chromatic patterns according to the pronotum colors were found (Fig. 2): morphotype I with the anterior part black and the posterior extremity red; morphotype II with red spots in the laterals; morphotype III with three red spots in the posterior part; and morphotype IV with the pronotum entirely black without red spots. The frequency of the chromatic pattern according to the population is shown in Table IV.

 

DISCUSSION

The Santiago population (`S') showed heterozygosis only in Pgm locus (61.3%) and homozygosis was detected in 38.7%. The Pgm-2 allele was observed only in 3.2% of the total homozygotes for `S' population when it was the only expressed by all other populations. The `S' population was the most genetically variable, showing both the largest mean number of alleles per locus and the expected mean heterozygosity (Table II).

The phenogam based on Nei's distance suggests that `Ln', `La', `C' and `E' populations are very closely related and `S' is undoubtedly the most external population of the group. The genetic distance evidenced between `S' and all other populations is two times lower than the interspecific distance observed betweenT. platensis and T. infestans by Garcia et al. (1995b), which had analyzed 14 loci. However, the distance obtained in our study between the `S' population and other T. rubrovaria populations was higher than the one registered by Pereira et al. (1996) between T. platensis and T. infestans (0.09 < Ds < 0.12) with 24 loci.

Isoenzymatic and chromatic analyses suggest that the `S' population is reproductively isolated. One diagnostic allele at the Idh locus and two at the Pgm were found. `La' population collected in artificial ecotope displayed the lowest variability, with homozygosis in all studied loci.

The geographic distances between the municipalities do not vary according to the genetic distances. `La', `Ln', `C' and `E' populations are distant from 75 to 282 km and they presented a very low genetic distance (Ds £ 0.004). `Ln' and `La' are the two closest populations in geographic term (10 km). They represent different samples of the same municipality (Santana do Livramento), were collected in distinct ecotopes, and the genetic distance found was 0.002. However `C' and `E', which are 75 km distant, present a distance equal to 0. Excluding `S' population, the highest geographic distance was found between `C' and `Ln'/`La' (282 km) and the genetic distances are 0.000 and 0.004, respectively. `S' population is far from these localities from 220 to 322 km and shows a Ds ³ 0.172. This value is much higher than ever verified for T. infestans populations collected in different South-American countries (Dujardin et al. 1987, Garcia et al. 1995a). It might indicate the existence of reproductive barrier for the `S' population. For T. sordidapopulationscollected in different sites in Bolivia,genetic distances were in accordance to the geographic ones (Noireau et al. 1999). On the basis of our allozyme data, genetic distances between T. rubrovariapopulations were not found to be correlated with geographic distance.

`C' `E' `Ln' and `La' populations would be populations showing a lack of reproductive barrier or would constitute the same recently dispersed population. Among them `C' and `La' populations were collected, respectively in peridomicile and artificial ecotope (stone walls 50 m far from domiciles). As suggested for T. infestans, the existence of geographically distant populations with low genetic distance might indicate recent dispersion of synanthropic subpopulations (Garcia et al. 1995a).

`Ln', `E' and `S' populations were always found in same sort of ecotope characterized by loose and overlapping rocks in dry environments on the prairies. The only detection of `S' population in natural ecotope associated with its highest genetic variability may indicate that the Santiago municipality was the center of T. rubrovaria dispersion in RS. Thus, subpopulations adapted to anthropic ecotopes may have originated from `S' population. Although a detailed study would be necessary to confirm this hypothesis, we should emphasize that it is important to maintain the entomological vigilance to the synanthropic process of these triatomines.

Genetic distance verified for `S' population may represent only a geographic variation in allopatricpopulations, indicating the existence of reproductive isolation due to geographic barriers. According to these analyses, T. rubrovaria is formed by at least two differentiated populations. This may result in different vectorial capacity, susceptibility for T. cruzi strains and insecticide resistance.

Isoenzymatic and chromatic results corroborate each other and favor the hypothesis of a distinct and isolated population. A higher number of enzymatic loci and the use of morphometric and other molecular tools as mitochondrial DNA would be necessary to confirm the reproductive isolation of `S' population.

 

ACKNOWLEDGEMENT

ToDr Maria Goreti Rosa Freitas for critical reading and for important suggestion. To Departamento de Medicina Tropical, Instituto Oswaldo Cruz by providing the Triatoma infestans specimens. To the technicians of National Health Foundation in Brazil for the support in the field captures. To the Centro Universitário de Barra Mansa for support.

 

REFERENCES

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Di Primo P 1957. Atual distribuição geográfica dos triatomídeos e seus índices de infecção no Rio Grande do Sul. An Fac Med Porto Alegre 17: 17-37.

Dujardin JP, Tibayrenc M, Venegas E, Maldonado L, Desjeux P, Ayala FJ 1987. Isoenzyme evidence of lack of speciation between wild and domestic Triatoma infestans (Heteroptera: Reduviidae). J Med Entomol 24: 40-45.

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Garcia BA, Canale DM, Blanco A 1995b. Genetic structure of four species of Triatoma (Hemiptera: Reduviidae) from Argentina. J Med Entomol 32: 134-137.

IBGE-Instituto Brasileiro de Geografia e Estatística 1997. On line datahttp://www.ibge.gov.br.

Lent H 1942. Estudos sobre os triatomíneos do estado do Rio Grande do Sul, com descrição de uma espécie nova. Rev Bras Biol 2: 219-231.

Lent H, Wygodzinsky P 1979. Revision of the Triatominae (Hemiptera, Reduviidae), and their significance as vectors as Chagas' disease. Bul Am Mus Nat Hist 163: 127-520.

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Pereira J, Dujardin JP, Salvatella R, Tibayrenc M 1996. Enzymatic variabity and phylogenetic relatedness among Triatoma infestans, T. platensis, T. delpontei and T. rubrovariaHeredity 77: 47-54.

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Salvatella R, Rosa R, Basmadjian Y, Puime A, Calegari L, Guerrero J, Martinez M, Mendaro G, Briano D, Montero C, Wisnivesky-Colli C 1995. Ecology of Triatoma rubrovaria (Hemiptera, Triatominae) in wild and perido-mestic environments of Uruguay. Mem Inst Oswaldo Cruz 90: 325-328.

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