Abstracts
Little is known on the epitopes derived from metacyclic promastigotes of Leishmania that are important on the regulation or destruction of the parasite, as targets of immune attack in the vertebrate host. In this study we investigated an alternative method to obtain metacyclic promasigotes of Leishmania major, as evaluated by the course of infection and delayed-type hipersensitivity (DTH) in resistant versus susceptible inbred mice. Non-infective (procyclic) promastigotes of L. major recently transformed from tissue amastigotes were attached to a negatively charged glass-wool column, whereas metacyclic promastigotes were not bound to columns and could be easily recovered. Optimal chromatography conditions were validated through statistical analyses. Parasite average yield from glass wool columns and promastigote viability were estimated by light microscopy. Metacyclic promastigotes yielded 43.5% to 57.5%. Different patterns of cutaneous lesions were obtained in BALB/c (susceptible) and C57BL/6 (resistant) mice, the former with highly infective lesions induced by metacyclic promastigotes. DTH responses proved to be higher in groups of C57BL/6 mice which were infected with metacyclic promastigotes. These results indicate that the new method could be integrated with the investigation of metacyclogenesis of Leishmania in vivo.
Leishmania major; metacyclic promastigotes; metacyclogenesis; BALB/c mice; C57BL/6 mice
Pouco se conhece sobre os epítopos derivados de promastigotas metacíclicos de Leishmania que são importantes para a regulação ou destruição do parasita, como alvos de ação imunológica no hospedeiro vertebrado. Neste estudo, nós investigamos um método alternativo para obter promastigotas metacíclicos de Leishmania major, pela avaliação do curso da infecção e reação de hipersensibilidade do tipo retardado (HTR) em hospedeiros resistentes e susceptíveis. Promastigotas não-infectantes (procíclicos) de L. major, recentemente isolados de amastigotas, foram selecionados pela adesão a colunas de lã de vidro negativamente carregadas, enquanto que promastigotas metacíclicos não se aderem à coluna e podem ser recuperados com facilidade. Condições ótimas de cromatografia foram validadas por análise estatística. O rendimento médio de parasitas obtidos após separação em colunas de lã de vidro e a viabilidade dos promastigotas foram estimados por microscopia óptica. Os promastigotas metacíclicos tiveram um rendimento médio de 43,5% a 57,5%. Camundongos BALB/c (susceptíveis) e camundongos C57BL/6 (resistentes) apresentaram padrões distintos de lesões cutâneas, os primeiros com lesões mais agressivas, induzidas por promastigotas metacíclicos. As respostas à reação de HTR foram maiores nos grupos de camundongos C57BL/6, submetidos à infecção com promastigotas metacíclicos. Estes resultados indicam que o novo método poderia ser integrado aos protocolos existentes para estudar a metaciclogênese de parasitas do gênero Leishmania in vivo.
Leishmania major; promastigotas metacíclicos; metaciclogênese; camundongos BALB/c; camundongos C57BL/6
MEDICAL MICROBIOLOGY
Behavior of Leishmania major metacyclic promastigotes during the course of infection and immune response development in resistant versus susceptible hosts
Comportamento de promastigoteas metacíclicos de Leishmania major durante o curso da infecção e da resposta imune em hospedeiros resistentes versus suscetíveis
Regina Coeli Cunha DóreaI; Carlos Gomes Barboza-FilhoI; Dayson Friaça MoreiraI; Mirian GuirroI; Ágtha de Alencar Muniz ChavesI; Ricardo José DunderI; Elaine Amorim SoaresII; Vitório Santos-JúniorII; Wilma SpinosaII
IDepartamento de Ciências Biológicas, Faculdade de Ciências e Letras, Universidade Estadual Paulista, Campus de Assis, Assis, SP, Brasil
IIInstituto Municipal de Ensino Superior de Assis, FEMA, Assis, SP, Brasil
Correspondence Correspondence to: Regina Coeli Cunha Dórea Departamento de Ciências Biológicas, Faculdade de Ciências e Letras Universidade Estadual Paulista, UNESP, Campus de Assis Avenida Dom Antonio 2.100 19806-900, Assis, SP, Brasil Tel.: (+5518) 3302-5856 Fax: (+5518) 3302-5849 E-mail: rdorea@assis.unesp.br
ABSTRACT
Little is known on the epitopes derived from metacyclic promastigotes of Leishmania that are important on the regulation or destruction of the parasite, as targets of immune attack in the vertebrate host. In this study we investigated an alternative method to obtain metacyclic promasigotes of Leishmania major, as evaluated by the course of infection and delayed-type hipersensitivity (DTH) in resistant versus susceptible inbred mice. Non-infective (procyclic) promastigotes of L. major recently transformed from tissue amastigotes were attached to a negatively charged glass-wool column, whereas metacyclic promastigotes were not bound to columns and could be easily recovered. Optimal chromatography conditions were validated through statistical analyses. Parasite average yield from glass wool columns and promastigote viability were estimated by light microscopy. Metacyclic promastigotes yielded 43.5% to 57.5%. Different patterns of cutaneous lesions were obtained in BALB/c (susceptible) and C57BL/6 (resistant) mice, the former with highly infective lesions induced by metacyclic promastigotes. DTH responses proved to be higher in groups of C57BL/6 mice which were infected with metacyclic promastigotes. These results indicate that the new method could be integrated with the investigation of metacyclogenesis of Leishmania in vivo.
Key words:Leishmania major, metacyclic promastigotes, metacyclogenesis, BALB/c mice, C57BL/6 mice.
RESUMO
Pouco se conhece sobre os epítopos derivados de promastigotas metacíclicos de Leishmania que são importantes para a regulação ou destruição do parasita, como alvos de ação imunológica no hospedeiro vertebrado. Neste estudo, nós investigamos um método alternativo para obter promastigotas metacíclicos de Leishmania major, pela avaliação do curso da infecção e reação de hipersensibilidade do tipo retardado (HTR) em hospedeiros resistentes e susceptíveis. Promastigotas não-infectantes (procíclicos) de L. major, recentemente isolados de amastigotas, foram selecionados pela adesão a colunas de lã de vidro negativamente carregadas, enquanto que promastigotas metacíclicos não se aderem à coluna e podem ser recuperados com facilidade. Condições ótimas de cromatografia foram validadas por análise estatística. O rendimento médio de parasitas obtidos após separação em colunas de lã de vidro e a viabilidade dos promastigotas foram estimados por microscopia óptica. Os promastigotas metacíclicos tiveram um rendimento médio de 43,5% a 57,5%. Camundongos BALB/c (susceptíveis) e camundongos C57BL/6 (resistentes) apresentaram padrões distintos de lesões cutâneas, os primeiros com lesões mais agressivas, induzidas por promastigotas metacíclicos. As respostas à reação de HTR foram maiores nos grupos de camundongos C57BL/6, submetidos à infecção com promastigotas metacíclicos. Estes resultados indicam que o novo método poderia ser integrado aos protocolos existentes para estudar a metaciclogênese de parasitas do gênero Leishmania in vivo.
Palavras-chave:Leishmania major, promastigotas metacíclicos, metaciclogênese, camundongos BALB/c, camundongos C57BL/6.
INTRODUCTION
Protozoa belonging to the Leishmania genus, are a group of morphologically similar parasites causing a number of disease manifestations in humans, e.g., localized cutaneous leishmaniasis, mucocutaneous leishmaniasis and visceral leishmaniasis. Leishmania transforms from poorly infective procyclic promastigotes into highly infective metacyclic promastigotes in a process known as metacyclogenesis.
In nature, metacyclogenesis occurs in the insect vector (6). This transformation is accompanied by an increased ability to infect and survive in the vertebrate host, where the parasite is attacked by the host's immune system (4). Metacyclogenesis has also been shown to occur in axenic cultures of promastigotes. Morphological changes in size and shape, and length of flagellum were first associated with differentiation in the insect gut and in different phases of growth in culture (4). Later, the expression of molecules such as LPG and the surface protease gp63 were associated with this process (2,5). These two molecules were observed to undergo several modifications as the promastigotes differentiated from procyclic to metacyclic forms (1,7,8).
In the present work, we describe an alternative method to separate L. major subpopulations of promastigotes based on their affinity to a negatively charged glass-wool column.
MATERIALS AND METHODS
Parasite
L. major strain MRHO/SU/59/NEAL P.
Promastigote cell cultures
Promastigotes were maintained by weekly subculture (28ºC) in liquid monophasic media consisting of BHI or RPMI 1640 supplemented with human urine (2%, v/v) and heat-inactivated fetal calf serum (10%, v/v).
Purification of parasites
A glass-wool based chromatography technique was used according to Pinho et al. (3). Briefly, glass wool (Merck, U.S.A.) was previously treated with sulphochromic solution for 2h and thoroughly washed with distilled water and 0.15 M phosphate-buffered saline (PBS). Small pieces of treated glass wool was firmly packed into 10-mL plastic syringes using a glass rod. Columns were equilibrated with PBS containing 1% (v/v) FCS. Stationary-phase promastigotes (SPP) were harvested from 5 to 7 day old cultures by centrifugation (1000 x g, 15 min, 4ºC). A sample typically containing 5 x 107 SPP was loaded to the column in a 1mL volume of PBS. Flow rates were adjusted to 8mL h-1 and two fractions of 7.5mL each were eluted with PBS-FCS at room temperature. Viability, as well as bound or eluted promastigotes/total parasite ratio were determined by microscopic examination.
Experimental procedures
Two groups of female C57BL/6 mice and two groups of BALB/c mice (CEMIB, Fundação André Tosello, Campinas-SP, Brazil), weighing 10 to 12 g each, were injected s.c. at the base of the tail with either 1 x 106 bound promastigotes or an equivalent amount of eluted promastigotes. A control group of each mouse strain was injected with 1 x 106 non-separated SPP. For DTH reactions, a similar experimental design was used, except that mice were injected 21 to 30 days previously with column-processed parasites. An eliciting dose of 2.5 x 106 formalin-fixed promastigotes in 50 µL PBS was injected into a metatarsal pad of the tensed plantar surface of the left hind footpad of infected and uninfected mice, and PBS was inoculated in the contralateral footpad. DTH results were measured using a spring-loaded dial gauge micrometer (Mitutoyo, Japan) at 4h, 12h, 24h, 48h and 72h after inoculation of antigen into the footpad. The net extent of swelling in the antigen-challenged footpad was calculated by subtracting the thickness of the control footpad from that of the antigen-injected footpad.
RESULTS AND DISCUSSION
We first studied the conditions that would lead us to obtain larger yields of metacyclic promastigotes of L. major by means of a standard chromatography technique, which had been previously used to purify trypomastigotes from a mixed Trypanosoma cruzi population grown in axenic medium (3). Optimal conditions included a neutral pH (7.2), an inoculum size of 4 to 6 x 107 early stationary phase promastigotes and 1.3 g of glass wool cut into small pieces wih a pair of scissors. Irrespective of the number of subpassages in vitro, those conditions proved to be satisfactory to yield as much as 43.5 to 57.5% metacyclic promastigotes (Fig. 1) and enabled us to statistically validate the method (Table 1).
In a typical experiment, cells adherent to the glass wool would be sometimes duplicating and not rarely have a slender body, and a medium-size flagellum, by which they would stick to glass refringent fragments, whereas parasites recovered from the eluting fractions often presented a short body and a long flagellum at approximately 1:3 to 1:4 ratio (Fig. 1).
To further investigate the efficiency of the method, bound cells and unbound promastigotes were used to infect groups of inbred mice, well-known for their susceptibility or resistance to L. major. Their pattern of lesion development, as well as the in vivo cellular immune response, as measured by DTH reaction to leishmanial antigens were compared to that of a control group of mice injected with a mixed population of stationary phase parasites. When compared to mice injected with bound parasites, the group of animals which were injected with eluted parasites showed higher numbers of ulcerating lesions in BALB/c strain than in C57BL/6 mice. This was noted mainly on weeks 18, 21 and 24 post-infection (Fig. 2).
As it is shown in Table 2, at early stages of infection, resistant C57BL/6 mice developed higher levels of DTH than susceptible BALB/c mice, when injected with either bound or unbound cells. This was reflected in the intensity of DTH responses and, to some extent, in the number of mice with a positive DTH reaction.
The enrichment of metacyclic L. major promastigotes obtained after elution from glass wool columns combined with the results from in vivo experiments, clearly show that glass wool columns are efficient in the purification of metacyclic promastigotes and may contribute to the investigation of metacyclogenesis of Leishmania parasites in vivo.
ACKNOWLEDGEMENTS
This work was supported by Fundação para o Desenvolvimento da UNESP, FUNDUNESP (Processo Nº 515/2002-DFP).
This paper corresponds to an "extended abstract" selected for oral presentation in the 22nd Brazilian Congress of Microbiology, held in Florianópolis, SC, Brazil, in November 17-20, 2003
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Publication Dates
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Publication in this collection
29 Nov 2004 -
Date of issue
Nov 2003