Blankaartia sinnamaryi ( Trombidiformes : Trombiculidae ) parasitizing birds in southeastern Brazil , with notes on Rickettsia detection

The larvae of the family Trombiculidae are ectoparasites of vertebrates, including birds. The bite of some species can cause deep lesions and severe skin reactions in the host, these can lead to dermatitis, popularly known as trombiculiasis. A morphological study of chiggers collected on birds from the state of Minas Gerais in Southeastern Brazil discovered Blankaartia sinnamaryi-infestation on Passeriformes birds. Molecular studies of the disclosed the 18S rDNA sequences of the mite, and the detection of a Rickettsia sp. in this chigger mite species.

species of the order Struthioniformes (ORNELAS-ALMEIDA et al., 2007); A. tigipioensis and Eutrombicula tinami Oudemans, 1910 were found parasitizing species of the order Tinamiformes (ORNELAS-ALMEIDA et al., 2007;OUDEMANS, 1910); and only one species, Blankaartia shatrovi Bassini-Silva & Barros-Battesti, 2017, was collected on an unidentified bird (BASSINI-SILVA et al., 2017).Some larvae species of the family Trombiculidae can cause deep lesions and severe skin reactions in the host because of bites (HASE et al., 1978), which can lead to dermatitis, popularly known as trombiculiasis (STEKOLNIKOV et al., 2014).One of the first cases of trombiculiasis documented on birds was reported by TORRES & BRAGA (1938) in Pernambuco, Brazil, who described chiggers of A. tigipioensis causing nodular lesions on the quill of domestic chickens.SPALDING et al. (1997), reported the species B. sinnamaryi caused dermatitis similar to A. tigipioensis in domestic chickens from the state of Florida, USA.Recently, MAKOL & KORNILUK (2017), reported the species Blankaartia acuscutellaris (Walch, 1923) causing lesions, when in large quantity, in the species Gallinago media (Charadriiformes: Scolopacidae), in Poland.They even noticed that the parasitized regions had a thick epidermis and no plumage.As is well known, chiggers are not host-specific, and several cases of human bites have also been reported (HEYNE et al., 2001;TAKAHASHI et al., 2004;RIPKA & STEKOLNIKOV, 2006;BURNS, 2010;SHATROV & STEKOLNIKOV, 2011).
Birds are known spreaders of ectoparasites including ornithophylic chigger mites.When mites are attached, their hosts can transport them remarkable distances, and eventually move infected chiggers from one place to another, which directly contributes to the dissemination of associated bacteria (VARMA, 1964).In the past, public health departments were faced with the need for cataloging and understanding the biology of these mites due to their potential role as Rickettsia vectors (WHARTON & FULLER, 1952).Recently in Slovakia, Rickettsia monacensis and Rickettsia helvetica were molecularly detected in Hirsutiella zachvatkini (Schluger, 1948), and in addition, R. monacensis was found associated with Kepkatrombicula storkani (Daniel) (MIŤKOVÁ et al., 2015).In particular, the current role of chigger mites in the epidemiology of rickettsiosis is still unknown in the Neotropics (AZAD & BEARD, 1998;POINAR & POINAR, 1998).Recently WEITZEL et al. (2016) found the presence of the bacterium, Orientia tsutsugamushi, in humans, suggesting the possible transfer by a bite from chiggers in these patients.In Brazil, FONSECA (1932) emphasized the importance of bloodsucking mites as potential vectors in the epidemiological cycle of rickettsial diseases.Nevertheless, the role of trombiculid mites as vectors has never been confirmed.
The purpose of this study is to conduct morphological and molecular studies of chiggers collected on birds from the state of Minas Gerais in Southeastern Brazil and determine if Rickettsia could be present in these chiggers.

Collection of mites
Thirty-four field trips, each lasting five days, were made during March 2013 and December 2015 at the Botanical Garden of the Universidade Federal de Juiz de Fora, Juiz de Fora, Minas Gerais (21° 43'S, 43° 22' W, elevation 852 m), with the authorization of the System of Authorization and Information on Biodiversity (SISBIO, protocol number 29268) and The National Center for Bird Conservation (CEMAVE, protocol number 3954).Birds were captured using 10 ornithological mist nets (12 m long × 3 m wide, 16 mm mesh) between 06.00 h and 16.00 h each day.Trapped birds were weighed, measured and photographed, with identifications established following (RIDGELY & TUDOR, 2009).Birds were examined for the presence of mites by checking their entire body.In the laboratory, the specimens were counted and separated for slide-mounting for morphological studies using a microscope, scanning electron microscopy studies, and DNA extraction with the help of a stereomicroscope Nikon SMZ745T (Sao Paulo, Brazil).

DNA extraction
Forty field-collected larvae (Table 1) were individually subjected to DNA extraction using the Guanidine Isothocianate (GT) lysis protocol following CHOMCZYNSKI (1993).Each mite was placed in an Eppendorf microtube, and punctured in the idiosomal region with a sterile needle (1.20*40-18G).After DNA extraction, exoskeletons of the specimens were recovered and slide-mounted for observations in a microscope in order to perform morphological identifications.PCR PCR technology was used initially performed following OTTO & WILSON (2001), SIMON et al. (1994) andNAVAJAS et al. (1994) to target a partial fragment of the mite 18S ribosomal gene and two PCR protocols were used to amplify a section of the mite mitochondrial cytochrome oxidase I (COI) gene.All the reactions were performed using DNA extracted from the trombiculid Quadraseta brasiliensis Goff & Gettinger (1989) as positive and DNA-free Milli-Q water as negative controls.18S gene PCR was used as endogenous control, and negative samples were excluded from further analyses.The presence of Rickettsia DNA was detected by, through the use of PCR, targeting partial fragments of the rickettsial genes gltA (LABRUNA et al., 2004), ompA (REGNERY et al., 1991), and ompB (ROUX & RAOULT, 2000) genes.Primers used in the reactions are listed in Table 2. Reactions yielding amplicons of expected size were purified using the Qiagen (Sao Paulo, Brazil) MinElute kit following the manufacturer instructions.Sanger sequencing of the samples was performed at the "Centro de pesquisa sobre Genoma Humano e Células Tronco do Instituto de Biociências da USP".Sequences that were obtained were assembled and the primer trimmed with Geneious R9 (KEARSE et al., 2012), and then submitted to a BLAST analysis (www.ncbi.nlm.nih.gov/blast) in order to infer closest similarities with other homologous sequences (ALTSCHUL et al., 1990).

Bird captures and collection of mites
A total of 95 mites were collected on six bird species (Table 1).Two specimens of the species Chiroxiphia caudata (Passeriformes: Pipridae) were captured and four chiggers were collected in these hosts; five specimens of the species Tachyphonus coronatus (Passeriformes: Thraupidae) were captured and twenty seven chiggers were collected in these hosts; two specimens of the species Troglodytes musculus (Passeriformes: Troglodytidae) were captured and fifty six chiggers were collected in these hosts; one specimen of the species Manacus manacus (Passeriformes: Pipridae), Turdus rufiventris (Passeriformes: Turdidae), and Lathrotriccus euleri (Passeriformes: Tyrannidae) were captured and two mites were collected in each of these hosts species.
The chiggers were identified as Blankaartia sinnamaryi (FLOCH & FAURAN, 1956) by the following combination of external characters: genu of the leg I with three sigma, tarsus of the leg III with one mastisetae, on the C row of dorsal idiosomal setae with eight setae, palp tarsus with seven branched setae, galealae branched, odontus trifurcated (Figure 1).These mites were collected from different regions of the birds, including the flank and upper body, which exhibited a deep skin lesion in the area where mites were attached (Figure 2).

Molecular tools
Only 29 of 40 samples were positive to the 18S gene via PCR and attempts to sequencing expected size amplicons were successful only for three samples that yielded an identical haplotype of 456-bp (GenBank accession numbers: MG783391).Attempts to amplify fragments of the COI gene were unsuccessful.After a BLAST analysis, the consensus of these three 18S sequences was 98.9% (451/456-bp) identical to the corresponding sequence of Eutrombicula splendens (Ewing, 1913) (KP325057), and 98.7% (450/456-bp) identical to Quadraseta brasiliensis Goff & Gettinger, 1989 (KY934464, MF113412, and MF113413).Three out of the 29 18S-positive samples were positive for rickettsial gltA gene; however only one of them yielded a clean (but short) sequence after sequencing attempts.After a BLAST analysis, the sequence shown to be 100% (1011/1011-bp) identical with Rickettsia felis (JQ674484, JN375498 and CP000053).Attempts to amplify fragments of the ompA and ompB genes were unsuccessful.The Rickettsia sp.sequence obtained in this study has been deposited in GenBank under accession number MG783574.

Discussion
Blankaartia sinnamaryi has already been collected on birds; however, three new host associations are added by the results of this study: Chiroxiphia caudata, Lathrotriccus euleri and Troglodytes musculus (Table 1).Captured birds were visually examined in search for mites, Figure 2 shows a local dermal lesion by only one mite.Similar injuries caused by trombiculid mites have already been noted by TORRES &BRAGA (1938) andSPALDING et al. (1997).
All collected mites were morphologically identified as B. sinnamaryi and were able to be genetically characterized using the 18S rRNA gene.The nuclear small ribosomal subunit gene has been pointed to be slow evolving, which favors the use of universal primers to amplify sequences in genetically unidentified species (HILLIS & DIXON, 1991).However, this slow rate of evolution precludes a good separation of taxa to the genera level and would be phylogenetically more informative in higher groupings among eukaryotes (HILLIS & DIXON, 1991).Although partial fragments were compared the 18S sequences from B. sinnamaryi are highly similar (<99%) to other trombiculid species (i.e. E. splendens and Q. brasiliensis), which reflects that all three species belong to a same family of mites.Unfortunately, no sequences of less-conserved COI gene were obtained, which in turn would be certainly more informative in separating the morphological identity of B. sinnamaryi from a genetic point of view.2018) and this study was successful in amplifying the 18S gene for chiggers.The same pair of primers for the gene COI used by KAMPEN et al. (2004) was used to amplifying successfully the sequences for the species Neotrombicula autumnalis (SHAW & NODDER, 1790).Because this was successful, it was expected that B. sinnamaryi samples would amplify the COI gene, however none were detected.
The detection of Rickettsia DNA in B. sinnamaryi is not surprising, since bacteria of this genus have already been found in chiggers parasitizing birds and rodents in Europe and Asia (HASE et al., 1978;TAKAHASHI et al., 2004;MIŤKOVÁ et al., 2015).Apart from early suppositions for the American Continent, chiggers infesting rodents would be harboring Rickettsia spp.(FONSECA, 1932), however, no current evidence has been published.The larvae of B. sinnamaryi collected on the bird Tachyphonus coronatus was found to be positive for Rickettsia gltA gene via PCR.Though a BLAST comparison it can be inferred that the obtained sequence perfectly (100%) matched the Rickettsia felis sequence.A cautious presumption should be adopted, and consider the bacterium found in B. sinnamaryi as a R. felis-like agent, because further attempts to amplify ompA and ompB genes were unsuccessful.Notwithstanding, primers used for gltA amplification are specific for the Rickettsia genus (LABRUNA et al., 2004), which confirms that B. sinnamaryi could be indeed carrying a rickettsial agent which would require additional molecular characterization.It is worthy to mention that chiggers were collected which appeared to be engorged, which raises the possibility that the detection of Rickettsia might be the result of a rickettsaemic bird.However, this supposition becomes hardly possible, since current evidence has demonstrated that birds are immune to Rickettsia infection, possibly due to their higher body temperature (>40 °C), since it is practically impossible to grow Rickettsia in such temperature under in vitro conditions (OGRZEWALSKA & PINTER, 2016).

Figure 1 .
Figure 1.Morphological details of Blankaartia sinnamaryi.A -leg I; B -leg III; -dorsal opisthosomal setae; D -palpal genu, tibia and tarsus.The white arrows highlight the specialized setae of the segments of the legs I and III and the striate coxae III; c1-c4= setae of the C row; The Scale bars: A and B 50µm, C 300µm, D 20µm.

Table 1 .
Specimens of Blankaartia sinnamaryi collected on birds from March 2013 to May 2016, in the Botanical Garden of the Universidade Federal de Juiz de Fora, Juiz de Fora, Minas Gerais, Brazil.

Table 2 .
Primers for endogenous control and detection of Rickettsia spp.
*Rickettsia of the Spotted Fever Group.