Abstract

Phlebotominae is a subfamily of Psychodidae that is widely distributed with greater diversity in the tropical and subtropical regions.¹1. WHO - World Health Organization. Control of the leishmaniases: report of a meeting of the WHO Expert Commitee on the Control of Leishmaniases. World Health Organization Technical Report Series. 2010; 949: 22-6. Until 2004, the southernmost distribution limit of Phlebotominae was 31º35′S-60º17′W, Entre Ríos Province, Argentina.²2. Salomón OD, Rosa JR, Stein M, Quintana MG, Fernández MS, Visintin AM, et al. Phlebotominae (Diptera: Psychodidae) fauna in the Chaco region and Cutaneous Leishmaniasis transmission patterns in Argentina. Mem Inst Oswaldo Cruz. 2008; 103(6): 578-84.^,33. Salomón OD, Quintana MG, Rosa JR. Ecoepidemiología de la Leishmaniasis cutánea en la Argentina. Salud(i)Ciencia. 2008; 16(5): 514-20. Since then, several new records began to provide evidences regarding the expanding range of distribution of Phlebotominae to higher latitudes in Córdoba Province, Argentina. Salomón et al.³3. Salomón OD, Quintana MG, Rosa JR. Ecoepidemiología de la Leishmaniasis cutánea en la Argentina. Salud(i)Ciencia. 2008; 16(5): 514-20. recorded the specimens of Migonemyia migonei at 30º54′S-62º18′W in 2004. Visintin et al.⁴4. Visintin AM, Beranek MD, Amieva MJ, Rosa JR, Almirón WR, Salomón OD. Spread of Phlebotominae in temperate climates: province of Córdoba, Argentina. Mem Inst Oswaldo Cruz. 2016; 111(1): 75-8. reported specimens of the Cortelezzii complex at 30º51′S-62º56′W in 2012 and Ontivero et al.⁵5. Ontivero IM, Beranek MD, Rosa JR, Ludueña-Almeida FF, Almirón WR. Seasonal distribution of phlebotomine sandfly in a vulnerable area for tegumentary leishmaniasis transmission in Córdoba, Argentina. Acta Trop. 2018; 178: 81-5. detected the southernmost record of both species in Córdoba City at 31º23′S-64º04′W during 2015-2016. The first autochthonous and the most southerly case of Tegumentary Leishmaniasis (TL) has been reported from the Córdoba Province in 2014.⁵5. Ontivero IM, Beranek MD, Rosa JR, Ludueña-Almeida FF, Almirón WR. Seasonal distribution of phlebotomine sandfly in a vulnerable area for tegumentary leishmaniasis transmission in Córdoba, Argentina. Acta Trop. 2018; 178: 81-5.

As not all sand fly species are vectors for pathogens, the accurate species identification during an entomological surveillance is needed to predict possible transmission foci. The use of morphological keys for the identification of Phlebotomine species depends on the expertise of the taxonomist. To accurately identify females of Mg. migonei, e.g. dissection of the last abdominal segments must be done to see the stalk-shaped spermathecal.⁶6. Galati EAB. Morfologia, terminologia de adultos e identificação dos táxons da América. In: Rangel EF, Lainson R, orgs. Flebotomíneos do Brazil. Rio de Janeiro: Fiocruz; 2003. 53-175. The subtle morphological differences between females or males and the occurrence of species complexes also make species identification difficult. In the Cortelezzii complex⁷7. Szelag EA, Rosa JR, Galati EA, Andrade Filho JD, Salomón OD. Considerations on the species complex of the Cortelezzii series (Diptera: Psychodidae) and description of Evandromyia chacuensis sp. nov., a new Phlebotomine species of the Chaco Region, Argentina. J Med Entomol. 2018; 55(4): 902-9. females of Evandromyia cortelezzii and Ev. sallesi are difficult to differentiate because they share diagnostic features of the length of the clypeus and the spermathecal duct. The species can only be distinguished using male characters: Ev. cortelezzii has a hood-shaped paramere and a gonocoxite with a basal tuft of four long setae, and Ev. sallesi has the paramere without an apical hood-shaped structure and the gonocoxite has a basal tuft of five long setae.⁶6. Galati EAB. Morfologia, terminologia de adultos e identificação dos táxons da América. In: Rangel EF, Lainson R, orgs. Flebotomíneos do Brazil. Rio de Janeiro: Fiocruz; 2003. 53-175. A fragment of the cytochrome c oxidase subunit I (COI) mitochondrial gene has been widely used in molecular taxonomy to resolve these kinds of issues.⁸8. Hebert PDN, Cywinska A, Ball SL, de Waard JR. Biological identifications through DNA barcodes. Proc R Soc Lond B Biol Sci. 2003; 270(1512): 313-21. Even if several studies have employed COI barcode sequences to identify Phlebotominae species and revealed species complexes in America,⁹9. Hoyos-López R, Uribe S, Vélez I. [Typification of Colombian specimens of Lutzomyia longipalpis (Diptera: Psychodidae) by "Barcoding"]. Rev Colomb Entomol. 2012; 38(1): 134-40.^,1010. Pinto IDS, Chagas BD, Rodrigues AAF, Ferreira AL, Rezende HR, Bruno RV, et al. DNA barcoding of neotropical sand flies (Diptera, Psychodidae, Phlebotominae): species identification and discovery within Brazil. PLoS One. 2015; 10(10): e0140636.^,1111. Rodrigues BL, Carvalho-Costa LF, Pinto IDS, Rebêlo JMM. DNA barcoding reveals hidden diversity of sand flies (Diptera: Psychodidae) at fine and broad spatial scales in Brazilian endemic regions for leishmaniasis. J Med Entomol. 2018; 55(4): 893-901. (among others) its use can be problematic in closely related species because of incomplete lineage sorting and introgression events.¹²12. Beeble NW. DNA barcoding mosquitoes: advice for potential prospectors. Parasitology. 2018; 145(5): 622-33. The strategies designed to delimit species boundaries have been developed, among them is clustering, which does not require a priori definitions of species.¹³13. Puillandre N, Lambert A, Brouillet S, Achaz G. ABGD, automated barcode gap discovery for primary species delimitation. Mol Ecol. 2012; 21: 1864-77. Even if more than 220 sand fly species with barcode sequences are available in digital repositories, additional sequences are needed to enhance the efficiency of molecular identification. The present study incorporates, for the first time, barcode sequences of Ev. cortelezzii and the first sequence for Mg. migonei from Argentina and validates COI as an effective marker for taxonomic identification in sandflies because it shows consistent differences between closely related species.

Sand fly adults were captured with mini CDC light traps located at three sites: the Bajo Grande sewage treatment plant (31º23′38″S-64º04′36″W), the San Martín Urban Natural Reserve (31º21′44″S-64º15′47″W), and the Zoo Garden (31º25′34″S-64º10′33″W), once a week actively from 5 pm to 10 am, during March and April, 2018. The sand flies collected were killed by freezing and were stored at -20ºC in 80% ethanol until processed. Species identification was based on the structures of the head and internal and external genitalia of females and males, respectively, which were mounted on the microscope slides using the taxonomic key of Galati.⁶6. Galati EAB. Morfologia, terminologia de adultos e identificação dos táxons da América. In: Rangel EF, Lainson R, orgs. Flebotomíneos do Brazil. Rio de Janeiro: Fiocruz; 2003. 53-175. Male sand fly legs (between two and six, according to availability), thorax, and abdomen were separated before morphological preparations for subsequent molecular procedures. Voucher specimens were deposited in the collection of the Centro de Investigaciones Entomológicas de Córdoba, Argentina. The abbreviation of the generic names were according to Marcondes.¹⁴14. Marcondes CB. A proposal of generic and subgeneric abbreviations for phlebotomine sandflies (Diptera: Psychodidae: Phlebotominae) of the world. Entomol News. 2007; 118(4): 351-7. DNA extractions were obtained from five male specimens of Ev. cortelezzii and one of Mg. migonei. The genomic DNA was extracted using the rapid method described by Pinto et al.¹⁰10. Pinto IDS, Chagas BD, Rodrigues AAF, Ferreira AL, Rezende HR, Bruno RV, et al. DNA barcoding of neotropical sand flies (Diptera, Psychodidae, Phlebotominae): species identification and discovery within Brazil. PLoS One. 2015; 10(10): e0140636. The DNA obtained was used as the template to amplify the ~658 bp fragment of the COI barcode region and the amplification was performed as described in Folmer et al.¹⁵15. Folmer O, Black M, Hoeh W, Lutz R, Vrijenhoek R. DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Mol Mar Biol Biotechnol. 1994: 3: 294-9. The polymerase chain reaction (PCR) products were electrophoresed in 1% TAE agarose gel stained with GelRed (Biotium Inc, Hayward, USA). All sequencing reactions were carried out in both directions using an ABI3730XL automatic sequencer (Macrogen Inc., Korea) with the same set of PCR primers. The sequences were edited using BioEdit v. 7.2¹⁶16. Hall TA. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucleic Acids Symposium Series. 1999; 41(41): 95-8. The primer regions were removed from the sequences. Comparisons with available sequences were performed using Basic Local Alignment Search Tool (BLAST) to check for sequence homology and species identification of Mg. migonei. The COI gene sequences were aligned by nucleotides using the Muscle algorithm.¹⁷17. Edgar RC. MUSCLE: multiple sequence alignment with high accuracy and high throughput. Nucleic Acids Res. 2004; 32(5): 1792-7. The barcode sequences obtained in this study are deposited in GenBank under accession numbers: MN432906 (Cba1828M); MN432907 (Cba1825M); MN432908 (Cba1829F); MN432909 (Cba1837M); MN432910 (Cba1839M); MN432911 (Cba1856M). Pairwise nucleotide sequence divergences and the mean intra- and interspecific distances were estimated using Kimura two-parameter (K2P) distance¹⁸18. Kimura M. A simple method for estimating evolutionary rates of base substitutions through comparative studies of nucleotide sequences. J Mol Evol. 1980; 16(2): 111-20. implemented in Mega v7.¹⁹19. Kumar S, Stecher G, Tamura K. MEGA7: molecular evolutionary genetics analysis version 7.0 for bigger datasets. Mol Biol Evol. 2016; 33(7): 1870-4. Subsequently, the divergences obtained were used to generate a neighbour-joining (NJ) tree, using Mega v7 to evaluate the clustering pattern among species. The statistical support for the clusters was estimated using the Bootstrap support value (BSV) obtained from 1,000 replicates. Two mosquito sequences of Culex bidens (Diptera: Culicidae) were used as outgroup (GenBank numbers: KY581209 and KY581211). The automatic barcode gap discovery (ABGD) approach¹³13. Puillandre N, Lambert A, Brouillet S, Achaz G. ABGD, automated barcode gap discovery for primary species delimitation. Mol Ecol. 2012; 21: 1864-77. was employed to find barcode gaps for the primary species or OTUs delimitation, and to corroborate results obtained in the NJ topology. In this study, the default range of intraspecific divergence was limited between 0.001 and 0.1. Sequences from GenBank were obtained as references in the species delimitation analysis: Ev. evandroi (2), Ev. termitophila (4), Expapillata firmatoi (2), Lutzomyia longipalpis (6), Mg. migonei (5), Pintomyia bianchigalatiae (2), Pi. fischeri (4), Pi. misionensis (2), Pi. monticola (4), and Sciopemyia sordellii (2) from Brazil; Colombia, and Perú. These species were selected because they were recorded from Argentina and belong to the subtribe Lutzomyiina, as Ev. cortelezzii and Mg. migonei. We attempted to assess the degree of divergence of the first barcode sequences for Ev. cortelezzii and Mg. migonei for the science and Argentina, respectively.

Sixty-two specimens were captured and were morphologically identified as follows (Table): Ev. cortelezzii s.s. (n = 12), Cortelezzii complex (n = 49), and Mg. migonei (n = 1). Five males of Ev. cortelezzii and one of Mg. migonei were sequenced. The mean K2P sequence distance within the 13 nominal species was 1.03%. The frequency histogram of mean COI K2P sequence intra- and interspecific divergences may be seen in Fig. 1, showing that a clear barcoding gap was established. The NJ tree was built using the K2P distances between the specimens, and the primary species delimitation from the strict partition obtained from the ABGD analysis, as shown in Fig. 2. The ABGD analysis provided ten possible partitions for these specimens (Fig. 3). The most conservative partitioning (strict partitioning) identified 14 OTUs (Fig. 2) with values of prior intraspecific divergence between 0.17% and 3.5% because values below 0.17% or above 3.5% can over- or underestimate the number of species, respectively. The 14 OTUs mentioned were identified from 13 morphological species because one of the original groups, Pi. fischeri, was split into two barcode groups (Fig. 2), showing a deep intraspecific variation. The clusters enclosing Pi. fischeri, provisional species (PS)1 and PS2, showed group sequences from Brazil and Perú, separately. A plausible explanation is related to the historical events of vicariance, which can reduce gene flow between subpopulations of the same species, leading to speciation.²⁰20. Avise JC. Phylogeography: the history and formation of species. Cambridge: Harvard University Press; 2000. Over time, morphological differentiation tends to take longer because changes in the morphological traits require changes in the multiple genes.²¹21. Coyne JA, Orr HA. Speciation. Sunderland: Sinauer Associates, Inc; 2004. The sequences of Lutzomyia longipalpis from Brazil and Colombia were considered a priori as the two provisional species because the species in Brazil showed a deep intraspecific variation between the regions of the country, as evidenced by Pinto et al.¹⁰10. Pinto IDS, Chagas BD, Rodrigues AAF, Ferreira AL, Rezende HR, Bruno RV, et al. DNA barcoding of neotropical sand flies (Diptera, Psychodidae, Phlebotominae): species identification and discovery within Brazil. PLoS One. 2015; 10(10): e0140636. The previously mentioned concept has been supported by the outcomes. The sequences of Pi. monticola were also treated as the two provisional species (PS1 and PS2) because they belong to a cryptic species complex.¹⁰10. Pinto IDS, Chagas BD, Rodrigues AAF, Ferreira AL, Rezende HR, Bruno RV, et al. DNA barcoding of neotropical sand flies (Diptera, Psychodidae, Phlebotominae): species identification and discovery within Brazil. PLoS One. 2015; 10(10): e0140636. The sequences of the nominal species Mg. migonei formed a well-supported cluster (100% BSV), with a mean intraspecific K2P distance of 2.24% and was recognised as an OTU by the ABGD partitioning (Fig. 2). It is important to note that Mg. migonei sequences belonging to Argentina differ from those found in Brazil and Colombia (Fig. 2). Novel sequences of Ev. cortelezzii were grouped in a well-supported cluster (100% BSV) and diagnosed as the primary species by the ABGD algorithm (Fig. 2). Even though all the Ev. cortelezzii specimens that were sequenced had been collected in Córdoba Province in Argentina, it is worth noting that they were not clustered with other congeneric species that were also considered, as shown by Pinto et al.¹⁰10. Pinto IDS, Chagas BD, Rodrigues AAF, Ferreira AL, Rezende HR, Bruno RV, et al. DNA barcoding of neotropical sand flies (Diptera, Psychodidae, Phlebotominae): species identification and discovery within Brazil. PLoS One. 2015; 10(10): e0140636. In the latter, sequences of Ev. carmelioni were grouped with Ev. lenti, from specimens collected in the distant states of Espírito Santo and Mato Grosso in Brazil and were not recognised as species by the ABGD partitioning. In our analyses, three species of the genus Evandromyia from Argentina and Brazil were diagnosed as different OTUs.

Fig. 1:
frequency distribution of intraspecific and interspecific pairwise genetic divergence of the specimens belonging to the subtribe Lutzomyiina from Argentina, Brazil, Colombia, and Perú. Pairwise genetic distances were calculated using Kimura’s two parameter (K2P) distance.

Fig. 3:
number of groups among the 39 specimens of sand flies from Argentina, Brazil, Colombia, and Perú based on the values of prior intraspecific divergence found by the automatic barcode gap discovery (ABGD) software as potential barcode gaps using a range of 0.001 to 0.1 for prior intraspecific divergence.

Mg. migonei and Ev. cortelezzii are widely distributed in Argentina,³3. Salomón OD, Quintana MG, Rosa JR. Ecoepidemiología de la Leishmaniasis cutánea en la Argentina. Salud(i)Ciencia. 2008; 16(5): 514-20. both species being important in public health. Mg migonei is associated with the agents of visceral Leishmaniasis (VL) and TL, Leishmania braziliensis, and L. infantum, respectively,²²22. Salomón OD, Quintana MG, Bezzi G, Morán ML, Betbeder E, Valdéz DV. Lutzomyia migonei as putative vector of visceral leishmaniasis in La Banda, Argentina. Acta Trop. 2010; 113(1): 84-7.^,2323. Moya SL, Giuliani MG, Acosta MM, Salomón OD, Liotta DJ. First description of Migonemyia migonei (França) and Nyssomyia whitmani (Antunes & Coutinho) (Psychodidae: Phlebotominae) natural infected by Leishmania infantum in Argentina. Acta Trop. 2015; 152: 181-4. and was considered the putative vector of VL in Santiago del Estero Province.²²22. Salomón OD, Quintana MG, Bezzi G, Morán ML, Betbeder E, Valdéz DV. Lutzomyia migonei as putative vector of visceral leishmaniasis in La Banda, Argentina. Acta Trop. 2010; 113(1): 84-7. Female specimens of the Cortelezzii complex were found naturally infected with L. braziliensis in Chaco Province.²⁴24. Rosa JR, Pereira P, Brazil RP, Andrade Filho JD, Salomón OD, Szelag EA. Natural infection of Cortelezzii complex (Diptera: Psychodidae: Phlebotominae) with Leishmania braziliensis in Chaco, Argentina. Acta Trop. 2012; 123(2): 128-31.

The first sequences of COI barcode region are now available for sand flies for Argentina. The sequence of Mg. migonei in its southernmost known distribution and the sequences of Ev. cortelezzii are the first for the species and allow the molecular identification of the females of the complex. Further studies should be carried out to obtain COI sequences from the males of Ev. sallesi and to solve identification problems of females of the complex. These sequences are useful tools for the future molecular identification of these species in other locations in the New World.

Publication Dates

History