ABSTRACT
ABSTRACT This study was conducted to characterize the transmission cycle of the tegumentary leishmaniasis (TL) in an old colonization area at Pernambuco State, Brazil. The aims were to identify autochthonous cases, sandflies fauna, domestic animals as possible reservoir hosts and the Leishmania species involved in this endemic area. A total of 168 suspected human cases of TL and 272 domestic animals (canine, feline, equine, goat, and sheep) were included. The sandflies were captured and identified by species. Patients were predominantly male and the average age was 37+18.1 years old. Of 85 patients who had skin lesions, 25.6% of them had direct positive smears for TL and 34 isolates were identified as Leishmania (Viannia) braziliensis. The confirmation for TL diagnosed by molecular detection (PCR) was almost three times more sensitive than the direct test [p < 0.001; PR = 2.72] associated with clinical examination. The Kappa test on PCR between two different specimens, biopsy, and skin lesion swab was 60.8% (p < 0.001). More than 200 specimens of sandflies (80 males and 159 females) were captured and identified as Lutzomyia whitmani (99.6%) and Lu. evandroi (0.4%). The detection of L. (V.) braziliensis by Real-Time PCR in the blood of a captured fed female was positive in 59.3% of Lu. whitmani. Of the 272 domestic animals included, 61.76% were male (n = 168). Thirty-six animals (13.2%) had lesions compatible with TL (34 dogs, 1 cat and 1 sheep) and 3 of them, all dogs, had lesions on the snout, showing destruction of cartilage and mucosa. The study suggests the participation of domestic animals as possible reservoirs. However, further studies are necessary to better understand the transmission cycle and take recommended measures in order to control the disease.
ABSTRACT
Toxoplasma gondii es un protozoario parásito reconocido como el agente causal de la toxoplasmosis, enfermedad zoonótica que afecta a humanos y animales domésticos o silvestres. En México, representa un problema de salud pública y veterinaria, sobre todo en regiones con climas tropicales y subtropicales. Los murciélagos han sido identificados como hospederos accidentales en el ciclo de transmisión; no obstante, en México no existe información previa; por lo tanto, el objetivo del presente estudio es reportar la infección con T. gondii en murciélagos capturados en sitios de los estados de Campeche y Yucatán, México. Se capturaron murciélagos en dos sitios de Yucatán y uno de Campeche, ubicados en la Península de Yucatán. Se recolectaron riñones, bazo e hígado y se emplearon en la extracción de ADN total. La infección con T. gondii se detectó a través de la amplificación de un fragmento del gen B1, utilizando PCR anidada. Los productos positivos fueron purificados y enviados a secuenciación para su posterior análisis de alineamiento; adicionalmente, se construyó un árbol filogenético. Se analizaron un total de 69 murciélagos pertenecientes a ocho especies distintas: 41 (59.4 %, 41/69) Artibeus jamaicensis; seis (8.7 %, 6/69) Pteronotus parnellii; seis (8.7 %, 6/69) Noctilio leporinus; seis (8.7 %, 6/69) Chiroderma villosum; cuatro (5.8 %, 4/69) Glossophaga soricina; dos (2.9 %, 2/69) Carollia sowelli; dos (2.89 %, 2/69) Artibeus lituratus y dos (2.9%, 2/69) Rhogeessa aeneus. La PCR anidada identificó ocho (11.6 %, 8/69) murciélagos positivos a la infección: seis (75 %, 6/8) A. jamaicensis, capturados en X'matkuil y Panabá, un (12.5 %, 1/8) G. soricina y un (12.5 %, 1/8) C. villosum, ambos capturados en Panabá. El análisis de alineamiento arrojó 99-100 % para cobertura y 97-99 % para identidad respecto a secuencias de T. gondii. Nuestros resultados aportan al entendimiento del ciclo de transmisión de T. gondii en la región; sin embargo, son necesarias investigaciones futuras para determinar los genotipos circulantes, ya que estudios anteriores han demostrado que estos animales pueden estar infectados con genotipos identificados en otros animales domésticos o silvestres e incluso en humanos.
Toxoplasma gondii is a protozoan parasite recognized as the causative agent of toxoplasmosis, a zoonotic disease that affects humans and domestic or wild animals. In Mexico, it represents a public and animal health problem, especially in regions with tropical and subtropical climates. Bats have been reported as accidental hosts in the transmission cycle; however, there is no preceding information in Mexico. Therefore, the aim of the present study is to report the T. gondii infection in bats captured in sites of Campeche and Yucatan states, Mexico. Bats were captured in two sites in Yucatan (X'matkuil and Panaba) and one in Campeche (Hampolol), located in the Yucatan Peninsula. Kidneys, spleen, and liver were collected and used in the total DNA extraction. Toxoplasma gondii infection was detected through the amplification of a B1 gene fragment, using nested PCR. The positive PCR products were purified and sent to sequencing for a posterior sequence identity analysis. Additionally, a phylogenetic tree was made. A total of 69 bats belonging to eight different species were processed: 41 (59.4 %, 41/69) Artibeus jamaicensis; six (8.7 %, 6/69) Pteronotus parnellii; six (8.7 %, 6/69) Noctilio leporinus; six (8.7 %, 6/69) Chiroderma villosum; four (5.8 %, 4/69) Glossophaga soricina; two (2.9 %, 2/69) Carollia sowelli; two (2.89 %, 2/69) Artibeus lituratus; and two (2.9 %, 2/69) Rhogeessa aeneus. The nested PCR identified eight (11.6 %, 8/69) infected bats: six (75 %, 6/8) A. jamaicensis, captured in X'matkuil and Panaba, one (12.5 %, 1/8) G. soricina, and one (12.5 %, 1/8) C. villosum, both captured in Panaba. The alignment analysis yielded 99-100 % for cover and 97-99 % for identity to T. gondii sequences. Our results contribute to the understanding of the T. gondii transmission cycle in the region; however, future research is needed to determine circulating genotypes, as previous studies have demonstrated that these animals might be infected with identified genotypes in other domestic or wild animals and even in humans.
ABSTRACT
Here, we present a review of the dataset resulting from the 11-years follow-up of Trypanosoma cruzi infection in free-ranging populations of Leontopithecus rosalia (golden lion tamarin) and Leontopithecus chrysomelas (golden-headed lion tamarin) from distinct forest fragments in Atlantic Coastal Rainforest. Additionally, we present new data regarding T. cruzi infection of small mammals (rodents and marsupials) that live in the same areas as golden lion tamarins and characterisation at discrete typing unit (DTU) level of 77 of these isolates. DTU TcII was found to exclusively infect primates, while TcI infected Didelphis aurita and lion tamarins. The majority of T. cruzi isolates derived from L. rosalia were shown to be TcII (33 out 42) Nine T. cruzi isolates displayed a TcI profile. Golden-headed lion tamarins demonstrated to be excellent reservoirs of TcII, as 24 of 26 T. cruzi isolates exhibited the TcII profile. We concluded the following: (i) the transmission cycle of T. cruzi in a same host species and forest fragment is modified over time, (ii) the infectivity competence of the golden lion tamarin population fluctuates in waves that peak every other year and (iii) both golden and golden-headed lion tamarins are able to maintain long-lasting infections by TcII and TcI.