Correlation between chronic inflammation, immunostaining and parasite load in the genital system of female dogs naturally infected with Leishmania infantum

Correlação entre inflamação crônica, imunomarcação e carga parasitária no sistema genital de cadelas naturalmente infectadas com Leishmania infantum

Vinícius Vasconcelos Gomes de Oliveira Simone Regina Barros de Macedo Flábio Ribeiro de Araújo Carlos Alberto do Nascimento Ramos Rafael Antonio Nascimento Ramos Frederico Celso Lyra Maia Leucio Câmara Alves Valdemiro Amaro da Silva JuniorAbout the authors

ABSTRACT:

The aim of the present study was to investigate the correlations among chronic inflammatory reaction, immunostaining and parasite load in the genital system of female dogs naturally infected with Leishmania infantum . Animals (n = 10) used in this study were from the Department of Vector Control and Animal Surveillance of the municipality of Caruaru, state of Pernambuco, Brazil. Fragments of the vulva, vagina, cervix, uterine body, uterine horns and ovaries were submitted to histopathological analysis, immunohistochemistry (IHC) and DNA detection of amastigotes by qPCR. Correlations were found between the IHC findings and chronic inflammatory infiltrate related toL. Infantum only in the vulva and vagina; whereas, the same inflammatory reactions without immunostaining were observed in all organs, except the ovaries. L. Infantum DNA was detected in all organs of genital system, with no difference in parasite load observed among the different organs. No correlation was reported between parasite load and inflammatory lesions in the organs evaluated, except for the uterine body, in which an inverse correlation was detected. In conclusion, the vulva and vagina were the major sites of lesions and immunostaining forL. Infantum amastigotes in the genital system of female dogs. Moreover, parasite load exerted no influence on the intensity of the lesions in the organs evaluated.

Key words:
canine visceral leishmaniasis; genital pathology; immunohistochemistry; qPCR

RESUMO:

Considerando a falta de estudos sobre lesões nos órgãos genitais de cadelas naturalmente infectadas porLeishmania infantum , o objetivo do presente estudo foi investigar a correlação entre reação inflamatória crônica, imunomarcação e carga parasitária, no sistema genital. Dez animais foram fornecidos pelo Departamento de Controle de Vetores e Vigilância Animal do município de Caruaru, Estado de Pernambuco, Brasil. Fragmentos de vulva, vagina, cérvix, corpo do útero, corno do útero e ovários foram avaliados por descrição histopatológica, imuno-histoquímica (IHQ) e detecção de DNA de formas amastigotas por qPCR. A relação entre IHQ e infiltrado inflamatório crônico relacionado comL. infantum foi observada apenas na vulva e vagina, enquanto as mesmas reações sem imunomarcação foram observadas em todos os órgãos, exceto nos ovários. DNA deL. infantum foi detectado em todos os órgãos do sistema genital, porém, sem diferença de carga parasitária entre eles. Não houve correlação entre a carga parasitária e lesões inflamatórias nos órgãos avaliados, com exceção do corpo do útero, em que foi encontrada uma correlação inversa. Em conclusão, a vulva e a vagina foram os principais locais de lesões e imunomarcação para formas amastigotasL. infantum no sistema genital de cadelas. A carga parasitária não influenciou a intensidade das lesões nos órgãos avaliados.

Palavras-chave:
leishmaniose visceral canina; patologia genital; imunohistoquímica; qPCR

INTRODUCTION:

Infection by L. infantum causes visceral leishmaniasis (VL), which is a chronic disease with a variety of forms and lesions due to complex host-parasite interactions and immune responses in dogs (NAUCKE & LORENTZ, 2012NAUCKE, T.J.; LORENTZ, S. First report of venereal and vertical transmission of canine leishmaniosis from naturally infected dogs in Germany. Parasites & Vectors, v.5, p.67, 2012. Available from: http://www.parasitesandvectors.com/content/5/1/67>. Accessed: Jul. 13, 2016. doi: 10.1186/1756-3305-5-67.
http://www.parasitesandvectors.com/conte...
). Transmission occurs through the bite of sandflies infected with this protozoon (BARATA et al., 2004BARATA, R.A. et al. Phlebotomine sandflies in Porteirinha, an area of American visceral leishmaniasis transmission in the state of Minas Gerais, Brazil. Memórias do Instituto Oswaldo Cruz, v.99, n.5, p.481-487, 2004. Available from: http://www.scielo.br/scielo.php?pid=s0074-02762004000500004&script=sci_arttext>. Accessed: Jul. 13, 2016. doi: 10.1590/S0074-02762004000500004.
http://www.scielo.br/scielo.php?pid=s007...
). However, vertical transmission (DUBEY et al., 2005DUBEY, J.P. et al. Placentitis associated with leishmaniasis in a dog. Journal of the American Veterinary Medical Association, v.227, p.1266-1269, 2005. Available from: http://www.researchgate.net/publication/7502033_Placentitis_associated_with_leishmaniasis_in_a_dog>. Accessed: Jul. 13, 2016. doi: 10.2460/javma.2005.227.1266.
http://www.researchgate.net/publication/...
; ROSYPAL et al., 2005ROSYPAL, A.C. et al. Transplacental transmission of a North American isolate of Leishmania infantum in a experimentally infected beagle. Journal of Parasitolology, v.91, p.970-972, 2005. Available from: http://www.journalofparasitology.org/doi/abs/10.1645/GE-483R.1?journalCode=para>. Accessed: Jul. 13, 2016. doi: 10.1645/GE-483R.1.
http://www.journalofparasitology.org/doi...
; PANGRAZIO et al., 2009PANGRAZIO, K.K. et al. Tissue distribution of Leishmania chagasi and lesions in transplacentally infected fetuses from symptomatic and asymptomatic naturally infected bitches. Veterinary Parasitology , v.165, p.327-331, 2009. Available from: http://www.ncbi.nlm.nih.gov/pubmed/19647368>. Accessed: Jul. 13, 2016. doi: 10.1016/j.vetpar.2009.07.013.
http://www.ncbi.nlm.nih.gov/pubmed/19647...
) and venereal transmission (NAUCKE & LORENTZ, 2012NAUCKE, T.J.; LORENTZ, S. First report of venereal and vertical transmission of canine leishmaniosis from naturally infected dogs in Germany. Parasites & Vectors, v.5, p.67, 2012. Available from: http://www.parasitesandvectors.com/content/5/1/67>. Accessed: Jul. 13, 2016. doi: 10.1186/1756-3305-5-67.
http://www.parasitesandvectors.com/conte...
) should also be considered.

Lesions related to VL have been described less frequently in the genital system of dogs in comparison to other organs (DUBEY et al., 2005DUBEY, J.P. et al. Placentitis associated with leishmaniasis in a dog. Journal of the American Veterinary Medical Association, v.227, p.1266-1269, 2005. Available from: http://www.researchgate.net/publication/7502033_Placentitis_associated_with_leishmaniasis_in_a_dog>. Accessed: Jul. 13, 2016. doi: 10.2460/javma.2005.227.1266.
http://www.researchgate.net/publication/...
; ROSYPAL et al., 2005ROSYPAL, A.C. et al. Transplacental transmission of a North American isolate of Leishmania infantum in a experimentally infected beagle. Journal of Parasitolology, v.91, p.970-972, 2005. Available from: http://www.journalofparasitology.org/doi/abs/10.1645/GE-483R.1?journalCode=para>. Accessed: Jul. 13, 2016. doi: 10.1645/GE-483R.1.
http://www.journalofparasitology.org/doi...
; OLIVEIRA et al., 2012OLIVEIRA, V.V.G. et al. Genital pathologies associated with canine visceral leishmaniasis. Ciencia Ruralv.42, p.1614-1620, 2012. Available from: http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-84782012000900016>. Accessed: Jul. 13, 2016. doi: 10.1590/S0103-84782012000900016.
http://www.scielo.br/scielo.php?script=s...
). L. infantum amastigotes have been described in the uterus (ROSYPAL et al., 2005ROSYPAL, A.C. et al. Transplacental transmission of a North American isolate of Leishmania infantum in a experimentally infected beagle. Journal of Parasitolology, v.91, p.970-972, 2005. Available from: http://www.journalofparasitology.org/doi/abs/10.1645/GE-483R.1?journalCode=para>. Accessed: Jul. 13, 2016. doi: 10.1645/GE-483R.1.
http://www.journalofparasitology.org/doi...
), placenta (DUBEY et al., 2005DUBEY, J.P. et al. Placentitis associated with leishmaniasis in a dog. Journal of the American Veterinary Medical Association, v.227, p.1266-1269, 2005. Available from: http://www.researchgate.net/publication/7502033_Placentitis_associated_with_leishmaniasis_in_a_dog>. Accessed: Jul. 13, 2016. doi: 10.2460/javma.2005.227.1266.
http://www.researchgate.net/publication/...
), vulva and vaginal mucosa. The presence of the parasite in the vulva and vaginal mucosa is related to multifocal chronic inflammatory infiltrate within macrophages, lymphocytes and plasma cells (SILVA et al., 2008SILVA, F.L. et al. Genital lesions and distribution of amastigotes in bitches naturally infected with Leishmania chagasi. Veterinary Parasitology , v.151, n.1, p.86-90, 2008. Available from: http://journals.ohiolink.edu/ejc/article.cgi?issn=03044017&issue=v151i0001&article=86_gladoabniwlc&search_term=%28refkey%3D%28Silva%232008%2386%23*%29volkey%3D%2803044017%23151%2386%231%29%29 >. Accessed: Jul. 13, 2016. doi: 10.1016/j.vetpar.2007.09.032.
http://journals.ohiolink.edu/ejc/article...
; OLIVEIRA et al., 2012OLIVEIRA, V.V.G. et al. Genital pathologies associated with canine visceral leishmaniasis. Ciencia Ruralv.42, p.1614-1620, 2012. Available from: http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-84782012000900016>. Accessed: Jul. 13, 2016. doi: 10.1590/S0103-84782012000900016.
http://www.scielo.br/scielo.php?script=s...
). However, SILVA et al. (2008SILVA, F.L. et al. Genital lesions and distribution of amastigotes in bitches naturally infected with Leishmania chagasi. Veterinary Parasitology , v.151, n.1, p.86-90, 2008. Available from: http://journals.ohiolink.edu/ejc/article.cgi?issn=03044017&issue=v151i0001&article=86_gladoabniwlc&search_term=%28refkey%3D%28Silva%232008%2386%23*%29volkey%3D%2803044017%23151%2386%231%29%29 >. Accessed: Jul. 13, 2016. doi: 10.1016/j.vetpar.2007.09.032.
http://journals.ohiolink.edu/ejc/article...
) detected no L. infantum amastigotes or lesions related to VL in the cervix, uterine body, uterine horn, uterine tubes and ovaries of naturally infected female dogs.

Various methods are currently used to diagnose infection byL. infantum in dogs. Detection can be performed by parasitological (BARROUIN-MELO et al., 2006BARROUIN-MELO, S.M. et al. Can spleen aspirations be safely used for the parasitological diagnosis of canine visceral leishmaniasis? A study on asymptomatic and polysymptomatic animals. Veterinary Journal v.171, p.331-339, 2006. Available from: http://www.repositorio.ufba.br:8080/ri/bitstream/ri/5262/1/S1090023304002412-main.pdf>. Accessed: Jul. 13, 2016. doi: 10.1016/j.tvjl.2004.11.010.
http://www.repositorio.ufba.br:8080/ri/b...
) and immunological tests, such as indirect immunofluorescence antibody test or enzyme-linked immunosorbent assay (ELISA). However, both methods are subjected to false-negative results as well as cross-reactions with other pathogens, such as Anaplasma sp. and Ehrlichia sp. (MOREIRA et al., 2007MOREIRA, M.A. et al. Comparison of parasitological, immunological and molecular methods for the diagnosis of Leishmaniasis in dogs with different clinical signs. Veterinary Parasitology , v.145, p.245-252, 2007. Available from: http://www.ncbi.nlm.nih.gov/pubmed/17257764>. Accessed: Jul. 13, 2016. doi: 10.1016/j.vetpar.2006.12.012.
http://www.ncbi.nlm.nih.gov/pubmed/17257...
). Immunohistochemistry (IHC) (TAFURI et al., 2004TAFURI, W.L. et al. An alternative immunohistochemical method for detecting Leishmania amastigotes in paraffin-embedded canine tissues. Journal of Immunological Methods, v.292, n.1-2, p.17-23, 2004. Available from: http://www.ncbi.nlm.nih.gov/pubmed/15350508>. Accessed: Jul. 13, 2016. doi: 10.1016/j.jim.2004.05.009.
http://www.ncbi.nlm.nih.gov/pubmed/15350...
), polymerase chain reaction (PCR) and real-time PCR (qPCR) (QUEIROZ et al., 2010QUEIROZ, M.G.P. et al. Diagnóstico da leishmaniose visceral canina pelas técnicas de imunohistoquímica e PCR em tecidos cutâneos em associação com a RIFI e ELISA-teste. Revista Brasileira de Parasitologia Veterinária, v.19, p.34-40, 2010. Available from: http://scielo.iec.pa.gov.br/pdf/rpas/v3n2/v3n2a07.pdf>. Accessed: Jul. 13, 2016. doi: 10.5123/S2176-62232012000200007.
http://scielo.iec.pa.gov.br/pdf/rpas/v3n...
) are currently the most specific tests for the detection of L. infantum .

Therefore, the aim of the present study was to investigate correlations among chronic inflammatory reaction, immunostaining and parasite load in the genital system of female dogs naturally infected with Leishmania infantum.

MATERIALS AND METHODS:

Animals and biological samples

All animals were provided by the Department of Vector Control and Animal Surveillance of the municipality of Caruaru, state of Pernambuco, Brazil (Latitude: 08º 17' 00" S; Longitude: 35º 58' 34" W).L. infantum infection was confirmed using the indirect fluorescent antibody test (IFAT≥40), parasitological bone marrow examination, IHC and qPCR of fragments from the liver, spleen, lymph nodes and skin.

Ten stray female dogs positive for L. infantum , as determined by qPCR, were submitted to euthanasia by the Department of Vector Control and Animal Surveillance following the recommendations of the Brazilian Health Ministry for the control of leishmaniasis control. After this procedure, fragments of the vulva, vagina, cervix, uterine body, uterine horns and ovaries were collected. All specimens were submitted to histopathological analysis, immunohistochemistry and qPCR.

Histopathological analysis

Samples were fixed with 10% neutral buffered formalin for 48 hours and routinely processed for embedding in paraffin. Sections (5µm) were mounted on slides and stained with hematoxylin and eosin (HE) (TOLOSA et al., 2003TOLOSA, E.M.C. et al. Manual de técnicas histológicas normal e patológica. São Paulo: Manole, 2003. 331p.). All tissues were evaluated according to the type of inflammatory infiltrate, intensity of the inflammatory reactions (absent=0; mild=1; moderate=2; and intense=3) as well as structural damage.

Immunohistochemistry

Detection of amastigote forms of L. infantum was performed following the method described by TAFURI et al. (2004TAFURI, W.L. et al. An alternative immunohistochemical method for detecting Leishmania amastigotes in paraffin-embedded canine tissues. Journal of Immunological Methods, v.292, n.1-2, p.17-23, 2004. Available from: http://www.ncbi.nlm.nih.gov/pubmed/15350508>. Accessed: Jul. 13, 2016. doi: 10.1016/j.jim.2004.05.009.
http://www.ncbi.nlm.nih.gov/pubmed/15350...
). Heterologous hyperimmune serum from a dog naturally infected with L. infantum (positive results of parasitological examination of bone marrow and immunofluorescence antibody test (IFAT) - title ≥1:40), diluted at 1:100 (0.01M PBS) was used as primary antibody. A commercially available streptavidin-peroxidase complex (LSAB+ kit, Dako USA) was employed as the detection system. Reactions were revealed by diaminobenzidine (DAB) and the slides were counter-stained with hematoxylin. IHC was scored based on the number of amastigotes observed in a high magnification microscopic field (0 = no amastigotes; 1 = one to three amastigotes; 2 = four to ten amastigotes; 3 = > ten amastigotes).

Molecular diagnosis

Genomic DNA from all samples collected as well as from an in vitro culture of L. infantum was extracted using the DNeasy Blood & Tissue Kit (Qiagen(r) Hilden-Germany) following the manufacturer's instructions.

The qPCR reaction for the detection of L. infantum DNA was performed using primers Leish-1 [5'-AACTTTTCTGGTCCTCCGGGTAG-3'] and Leish-2 [5'-ACCCCCAGTTTCCCGCC-3'] and the TaqMan MGB-probe [FAM-5'-AAAAATGGGTGCAGAAAT-3' non-fluorescent quencher-MGB], as described by Francino et al. (2006FRANCINO, O. et al. Advantages of real-time PCR assay for diagnosis and monitoring of canine leishmaniosis. Veterinary Parasitology, v.137, p.214-221, 2006. Available from: http://www.ncbi.nlm.nih.gov/pubmed/16473467>. Accessed: Jul. 13, 2016. doi: 10.1016/j.vetpar.2006.01.011.
http://www.ncbi.nlm.nih.gov/pubmed/16473...
). qPCR was performed in a CFX96TM Real-Time System (Bio-Rad Laboratories, Inc., Hercules CA, USA). Reaction mixture (12.5μL) contained 6.25μL of Taqman(r) Universal PCR Master Mix, each primer at a concentration of 900nM, the probe at a concentration of 200nM and 1µL of template DNA. The run consisted of a hot start at 95°C for 3 minutes and 42 cycles of denaturation (95°C for 10 seconds) and annealing-extension (60°C for 30 seconds). All assays were performed in duplicate, with a negative control (DNA of a dog from a non-endemic area) and a positive control (DNA from an in vitro culture of L. infantum ) included in each run.

Parasite load was determined using the absolute quantification method. A standard curve was constructed with DNA extracted from serial dilutions of L. infantum cultures containing approximately 5.6 x 106 parasites mL-1. Considering an extraction efficiency of 100%, five points were used to construct the curve (0.1, 1, 10, 1000 and 1,000,000 parasites mL-1 of culture). As DNA extraction was performed using 300µL of L. infantum culture, the final product of the extractions was diluted in a final volume of 100µL and 1µL of DNA was used per reaction. Points cited above correspond to 0.0003, 0.003, 0.03, 3 and 3000 parasites, respectively. Therefore, based on the same principle and considering that DNA extraction was performed using 25mg of each tissue sample, results were expressed as the number of parasites/250µg of tissue.

Statistical analyses

The parasite load determined by qPCR, the number of amastigotes detected by IHC and the inflammatory score after HE staining were compared using the Kruskal-Wallis test. Spearman's test was used to determine correlations among these values. Fisher's exact test was used for comparisons of the diagnostic techniques. All analyses were performed using the R software version 2.15.2 (R CORE TEAM, 2012R CORE TEAM. R: a language and environment for statistical computing. Vienna: R Foundation for Statistical Computing. 2012. Available from: http://www.R-project.org/>. Accessed: Nov. 22, 2012.
http://www.R-project.org/...
). To test the correlation values, qPCR data (parasites 250µg-1 of tissue) were transformed into scores according to the following criteria: 0 = 0; 0.001 to 0.01 = 1; >0.01 to 0.1 = 2; >0.1 to 1 = 3; >1 to 2 = 4; >2 to 5 = 5; >5 to 6 = 6; > 6 to 7 = 7; ...; >100 = 100.

RESULTS:

No macroscopic lesions were reported on the genital organs of the dogs examined. Regarding the histopathological findings, the female genital organs exhibited histio-plasmo-lymphocytic inflammatory lesions ranging from mild to severe (Figures 1A-1D; Table 1). During immunohistochemistry, L. infantum amastigotes were detected in 50% (5/10) of the vulva samples (Figure 1E) and 20% (2/10) of the vaginal samples (Figure 1F) (Table 1). No amastigote forms were reported in the cervix, uterine body, uterine horn or ovaries.

Figure 1
A: Vulva. Diffuse, moderate chronic inflammatory infiltrate in papillary dermis (star) surrounding sweat gland, sebaceous gland and hair follicle (arrow head), HE; Bar = 400µm. Inset: L. infantum amastigotes in macrophages. B: Vagina. Chronic inflammatory reaction process (star) with macrophage filled with L. infantum amastigotes (arrow), HE; Bar =100µm. C: Cervix. Intense, diffuse inflammatory infiltrate in macrophages, lymphocytes and plasma cells, HE; Bar = 400µm. D: Uterine body. Intense, chronic inflammatory infiltrate in endometrium (star), HE; Bar = 100µm. E: Vulva. L. infantum amastigotes (arrow), Streptavidin-peroxidase complex; Bar = 100µm. F: Vagina. L. infantum amastigotes (arrow), Streptavidin-peroxidase complex; Bar = 100µm.

Table 1
Absolute and relative values of histopathological lesions (HE), IHC for amastigotes, qPCR positivity and comparisons between mean ranks for each organ evaluated in the genital system of female dogs naturally infected with L. infantum .

The qPCR results revealed that L. infantum DNA was detected in 90% (9/10) of animals in at least one of the samples tested. Parasite load was low in 60% of animals (Table 2). The uterine horn and vulva exhibited 60% positivity (6/10) and the vagina exhibited 70% positivity (7/10). Cervix, uterus and ovaries exhibited 80% positivity for DNA from L. infantum amastigotes (8/10) (Table 1).

Table 2
Parasite load of each biological sample from female dogs naturally infected by L. Infantum .

A statistically significant difference (Kruskal-Wallis test) was reported in the comparison of the number of parasites detected by IHC (P=0.0019) and the chronic inflammatory reaction score (P=0.0060) were compared. However, no differences among the organs were reported regarding parasite load determined by qPCR (P=0.9387). The vulva had the highest scores using the IHC method in comparison to the other genital organs. The histopathological analysis of the ovaries and cervix revealed the lowest scores for chronic inflammatory infiltrate; whereas, the highest scores were reported in the vulva, vagina and uterine horn (Table 1).

Spearman's test demonstrated a significant negative correlation between the qPCR score and degree of inflammation in the uterine body (P=0.001). However, no correlations were reported for other organs (vulva: P=0.134; vagina: P=0.752; cervix: P=0.617; uterine horn: P=0.305; ovary: P not possible to determined due to a column with all values equal to 0). Fisher's exact test (P<0.001) revealed that qPCR (0.28) was more efficient than IHC (0.90) for detection of tissue infected by amastigote forms of L. infantum .

DISCUSSION:

L. infantum amastigotes have wide distribution in the tissues of dogs (TAFURI et al., 2004TAFURI, W.L. et al. An alternative immunohistochemical method for detecting Leishmania amastigotes in paraffin-embedded canine tissues. Journal of Immunological Methods, v.292, n.1-2, p.17-23, 2004. Available from: http://www.ncbi.nlm.nih.gov/pubmed/15350508>. Accessed: Jul. 13, 2016. doi: 10.1016/j.jim.2004.05.009.
http://www.ncbi.nlm.nih.gov/pubmed/15350...
). In male dogs, several studies have demonstrated the tropism of L. infantum in genital organs (DINIZ et al., 2005DINIZ, S.A. et al. Genital lesions associated with visceral leishmaniasis and shedding of Leishmania sp. in the semen of naturally infected dogs. Veterinary Pathology, v.42, n.5, p.650-658, 2005. Available from: http://vet.sagepub.com/content/42/5/650.full.pdf>. Accessed: Jul. 13, 2016. doi: 10.1354/vp.42-5-650.
http://vet.sagepub.com/content/42/5/650....
). However, few studies previous studies have demonstrated L. infantum tropism in female genital organs of the correlation between parasite load and the onset of lesions in these organs (DUBEY et al., 2005DUBEY, J.P. et al. Placentitis associated with leishmaniasis in a dog. Journal of the American Veterinary Medical Association, v.227, p.1266-1269, 2005. Available from: http://www.researchgate.net/publication/7502033_Placentitis_associated_with_leishmaniasis_in_a_dog>. Accessed: Jul. 13, 2016. doi: 10.2460/javma.2005.227.1266.
http://www.researchgate.net/publication/...
; ROSYPAL et al., 2005ROSYPAL, A.C. et al. Transplacental transmission of a North American isolate of Leishmania infantum in a experimentally infected beagle. Journal of Parasitolology, v.91, p.970-972, 2005. Available from: http://www.journalofparasitology.org/doi/abs/10.1645/GE-483R.1?journalCode=para>. Accessed: Jul. 13, 2016. doi: 10.1645/GE-483R.1.
http://www.journalofparasitology.org/doi...
; SILVA et al., 2008SILVA, F.L. et al. Genital lesions and distribution of amastigotes in bitches naturally infected with Leishmania chagasi. Veterinary Parasitology , v.151, n.1, p.86-90, 2008. Available from: http://journals.ohiolink.edu/ejc/article.cgi?issn=03044017&issue=v151i0001&article=86_gladoabniwlc&search_term=%28refkey%3D%28Silva%232008%2386%23*%29volkey%3D%2803044017%23151%2386%231%29%29 >. Accessed: Jul. 13, 2016. doi: 10.1016/j.vetpar.2007.09.032.
http://journals.ohiolink.edu/ejc/article...
).

The structural changes in the vulva and vagina observed in the present investigation resemble change reported in previous studies (SILVA et al., 2008SILVA, F.L. et al. Genital lesions and distribution of amastigotes in bitches naturally infected with Leishmania chagasi. Veterinary Parasitology , v.151, n.1, p.86-90, 2008. Available from: http://journals.ohiolink.edu/ejc/article.cgi?issn=03044017&issue=v151i0001&article=86_gladoabniwlc&search_term=%28refkey%3D%28Silva%232008%2386%23*%29volkey%3D%2803044017%23151%2386%231%29%29 >. Accessed: Jul. 13, 2016. doi: 10.1016/j.vetpar.2007.09.032.
http://journals.ohiolink.edu/ejc/article...
), in which chronic inflammatory infiltrate has been considered the only lesion detected in these organs. Lesions were frequently reported next to hair follicles, sebaceous glands and sweat glands. In the present study, besides of these lesions, chronic inflammatory infiltrate was not restricted to the external genitalia and was also reported in the cervix and uterine tissue of the animals analyzed.

Immunostaining detection for L. infantum amastigotes in the vulva and vagina is in agreement with data described by SILVA et al. (2008SILVA, F.L. et al. Genital lesions and distribution of amastigotes in bitches naturally infected with Leishmania chagasi. Veterinary Parasitology , v.151, n.1, p.86-90, 2008. Available from: http://journals.ohiolink.edu/ejc/article.cgi?issn=03044017&issue=v151i0001&article=86_gladoabniwlc&search_term=%28refkey%3D%28Silva%232008%2386%23*%29volkey%3D%2803044017%23151%2386%231%29%29 >. Accessed: Jul. 13, 2016. doi: 10.1016/j.vetpar.2007.09.032.
http://journals.ohiolink.edu/ejc/article...
), as these were the only organs to have amastigote forms of L. infantum in macrophages. According to the authors cited, previous injuries can attract parasitized macrophages to connective tissue of the vulva and vagina. In the present investigation; however, no macroscopic lesions were reported in the female genital tract. Therefore, the macrophages normally reported in the connective tissue of the vulva and vaginal mucosa made these areas a site of parasitism for L. infantum amastigotes (WATTS et al., 1998WATTS, J.R. et al. Endometrial cytology of the normal bitch throughout the reproductive cycle. Journal of Small Animal Practice, v.39, p.2-9, 1998. Available from: http://www.ncbi.nlm.nih.gov/pubmed/9494927>. Accessed: Jul. 13, 2016. doi: 10.1111/j.1748-5827.1998.tb03661.x.
http://www.ncbi.nlm.nih.gov/pubmed/94949...
). In this context, it was not possible to establish a relationship, at least in the present study, between macrophages infected with L. infantum amastigotes and pre-existing injuries.

No amastigotes were reported in the cervix, uterine body, uterine horn or ovaries. Indeed, few authors have describedL. infantum in these organs. Conversely, L. infantum amastigotes have been frequently reported in the uterus (ROSYPAL et al., 2005ROSYPAL, A.C. et al. Transplacental transmission of a North American isolate of Leishmania infantum in a experimentally infected beagle. Journal of Parasitolology, v.91, p.970-972, 2005. Available from: http://www.journalofparasitology.org/doi/abs/10.1645/GE-483R.1?journalCode=para>. Accessed: Jul. 13, 2016. doi: 10.1645/GE-483R.1.
http://www.journalofparasitology.org/doi...
) and placenta (DUBEY et al., 2005DUBEY, J.P. et al. Placentitis associated with leishmaniasis in a dog. Journal of the American Veterinary Medical Association, v.227, p.1266-1269, 2005. Available from: http://www.researchgate.net/publication/7502033_Placentitis_associated_with_leishmaniasis_in_a_dog>. Accessed: Jul. 13, 2016. doi: 10.2460/javma.2005.227.1266.
http://www.researchgate.net/publication/...
). Although previous studies have detected the presence of amastigote forms of L. infantum in the uterus and placenta, these findings may be underestimated.

In the present study, the detection of L. infantum DNA in all organs of the female genital system was not significantly associated with chronic inflammatory infiltrate in these tissues. In male dogs, L. infantum DNA has been detected in all genital organs. However, no correlation between parasite load and inflammatory lesions has been observed in these organs. Indeed, testicles have been reported to exhibit the highest parasite load as well as the lowest number of inflammatory lesions (OLIVEIRA et al., 2016OLIVEIRA, V.V.G. et al. Histopathological evaluation and parasite quantification (qPCR) in the male dog's genital system after natural infection with Leishmania infantum. Ciência Rural, v.46, n.4, p.641-647, 2016. Available from: http://www.scielo.br/pdf/cr/v46n4/1678-4596-cr-46-04-00641.pdf>. Accessed: Jul. 13, 2016. doi: 10.1590/0103-8478cr20150850.
http://www.scielo.br/pdf/cr/v46n4/1678-4...
).

There have been no previous data on the parasite load in the genital organs and the grade of chronic inflammatory reaction in female dogs naturally infected with L. infantum . In the present study, an inverse correlation was only reported in the uterine body. According to TORRES et al. (2013TORRES, M.M. et al Renal parasite load association with laboratory findings in dogs with visceral Leishmaniasis. Ciencia Rural v.43, p.894-896, 2013. Available from: http://www.scielo.br/pdf/cr/v43n5/a12213cr2012-0194.pdf>. Accessed: Jul. 13, 2016.
http://www.scielo.br/pdf/cr/v43n5/a12213...
), the parasite load does not influence the characteristic of renal inflammatory lesions in infected dogs. In the present study, the L. infantum parasite load did not influence the intensity of chronic inflammatory lesions in the genital organs of naturally infected female dogs, except the uterine body, as described above. These findings indicated that factors other than L. infantum amastigotes could be responsible for the evolution of the inflammatory reaction and lesion intensity (TORRES et al., 2013).

CONCLUSION:

Leishmania infantum has tropism for organs of the reproductive system of female dogs, with the vulva and vagina the major sites of chronic inflammatory lesions and immunostaining for amastigotes. L. infantum DNA and chronic inflammatory lesions were reported in all organs, except the ovaries. However, parasite load did not influence the intensity of the lesions reported in these organs.

ACKNOWLEDGMENTS

The authors thank the staff of the Department of Vector Control and Animal Surveillance of the municipality of Caruaru, particularly the veterinarian Cláudia Agra.

REFERENCES:

  • CR-2016-0137.R2

Publication Dates

  • Publication in this collection
    15 Sept 2016
  • Date of issue
    Nov 2016

History

  • Received
    12 Feb 2016
  • Accepted
    22 May 2016
  • Reviewed
    30 Aug 2016
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