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Vol. 92(1), Jan./Feb. 1997 Establishment and Characterization of a Cell Line from the Mosquito Anopheles albimanus (Diptera: Culicidae) Felio J Bello/+, Helena Brochero, Jorge Boshell*, Victor Olano*, Gloria Rey*
Departamento de Biologia y Quimica, Universidad De La Salle,
Carrera 2 No. 10-70, Santafe de Bogota, D.C. Colombia +Corresponding author. Fax: +57-1-286.8391
Received 23 April 1996
Code Number:OC97027 Sizes of Files: Text: 22.8K Graphics: Line drawings (gif) - 183.4K Tables (gif) - 32.8K A new cell line designated LSB-AA695BB, was established from embryos of the mosquito Anopheles albimanus. The primary culture was initiated in April, 1995, and the first passage was made 48 days later. Serial subcultures of the cells have been carried through 90 passages from Abril 1995 to February 1996. The cells were grown at 28 C in MK/VP12 medium, supplemented with 20% fetal bovine serum; the pH tolerance ranged between 6.8 to 7.0. The cells have also been adapted to MM/VP12 medium under the same pH, temperature and serum concentration. The majority of the cells were a fibroblast-type. Isozyme characterization showed a pattern similar to that of An. albimanus pupae and adults but distinct from Ae. taeniorhynchus and Ae. albopictus (C6/36) mosquito cell lines. The culture was shown to be free of mycoplasma, bacteria and fungi. Microsporidia contamination of transovarial transmission was controlled with 6.0 mg/ml of albendazole. Key words: cell line - karyotype - isozyme patterns - microsporidia The mosquito Anopheles albimanus Wiedemann is a major vector of human malaria in tropical America. Cell line are currently available for two Anopheles species: An. stephensi liston (Schneider 1969, Pudney & Varma 1971) and An. gambiae Giles (Marhoul & Pudney 1972). Insect cell cultures are useful for fundamental studies of cell physiology, genetics and biochemistry; they are also useful as a substrate to isolate and to identify arboviruses and to study parasites (Vaughn 1976, Buckley 1976, Hink 1980, Maramorosch 1980, 1987, Mitsuahashi 1981, 1983, Grace 1982). In 1995, Bello et al. reported primary cell cultures of An. albimanus and described their most significant characteristics, but these cells could not be serially subcultured. This report describes the establishment of a new continuous line of An. albimanus cells and some of its characteristics. MATERIALS AND METHODS Primary cell cultures - Embryonated eggs were collected using the procedure described before by Bello et al. (1995). The incubation time for these eggs was 28 hr. Sterilization of the eggs was done with a 1.6% sodium hypochlorite solution and with 70% ethanol; during inmersion of the eggs, each of the substances was stirred continuously for 10 min. After washing the eggs three times with destilled sterile water, they were rinsed with the MK/VP12 medium (Pudney & Varma 1971). Finally, 1 ml of egg mass was placed into a 2 ml Ten Broek homogenizer where the eggs were broken mechanically. The resultant suspension was placed in a 25 cm#178; plastic tissue culture flask containing 5 ml of the growth medium. The cells were maintained in an incubator at 28 C. Medium - The cell culture was initiated and grown in the MK/VP12 medium, supplemented with 20% fetal bovine serum (FBS) and a mixture of penicillin (100 units/ml) and streptomicin (100 units/ml). Albendazole was used to control microsporidian infections in the embryonic cell explants and also to eliminate the parasite with prolonged treatment through several subcultures. Albendazole (Sigma) was dissolved in dimethyl sulfoxide (DMSO, 2.5 ug/100 ml) and added to the medium, three different concentrations were made: 9.0 ug/ml, 6.0 ug/ml and 3.0 ug/ml. The medium was sterilized by passage through a 0.22-um millipore filter. After the initial cell growth, the culture medium containing albendazole was changed every two days. Infected cell cultures were exposed to the drug for 60 days. After albendazole treatment, medium containing the drug was replaced by drug-free medium, containing all other supplements (FBS, antibiotics) (Haque et al. 1993). Subcultures - The first successful subculture was obtained in April of 1995; since that time, the cells have been maintained for over 90 passages. When confluency was reached, the cell monolayer was scraped with a rubber policeman and the cells were dispersed by gentle pipetting. The first subcultures were developed at a split ratio of 1:2 at an interval of 7 days, however the split ratio was increased gradually up to 1:10 and subcultures were made every 5-6 days. The cells were transferred to 25 cm#178; flasks, which contained 5 ml of fresh culture medium. The incubation temperature was 28 C and daily observations were performed using an inverted Olympus CK-2 microscope. Morphological characteristics - Cell morphology was observed and photographed using an inverted microscope with phase contrast and a quot;Leitzquot; microphotographic system in increments of 100 to 400X magnification. Cytogenetic characteristics - Chromosomes were prepared according to the Schneider (1987) technique, with some modifications. Cell exposition time to colchicine solution was 3 hr. For the C-banding softening, four day maturation blank sheets were used; these sheets were submerged in 0.2 N hydrocloric acid for 50 min. After washing with tap water the sample were placed in 5% Ba(OH)2 for 1 min at 53 C, and finally incubated at 54 C in a double citrate solution (2XSSC) for 1 hr. Staining was done with a 2% Giemsa solution (Motara & Rai 1977, Marchi et al. 1980). Analyses of isozyme patterns - Isozymatic phenotypes from four systems were examined; phosphoglucose isomerase (PGI-5.3.1.9), phosphoglucomutase (PGM-2.7.5.1), mannose phosphate isomerase (MPI-5.3.1.8) and phosphogluconate dehydrogenase (6-PGDH-1.1.1.4.4). Isozymes were resolved by electrophoresis technique on cellulose acetate, following the procedures described by Brown and Knudson (1980). Cell samples were simultaneously electrophoresed with adult and pupae extracts from An. albimanus. The isozyme patterns of our cell line were compared with that of the C6/36 clone of Ae. albopictus (Igarashi 1978) and with a culture of Ae. taeniorhynchus (Bello et al. 1995). All samples were treated with their own cell buffer, that corresponded to each system. Later the cells were frozen and thawed three consecutive times (liquid nitrogen and room temperature). The cell suspension was centrifuged at 1000g for 10 min and then the supernatant was placed in sample wells with a Zip-Zone applicator (Helena Laboratories B, Texas) and transferred to a cellulose acetate membrane for electrophoresing.
Sterility tests - Cell cultures were periodically checked for
sterility, taking two drops of concentrated cells in culture medium and
transferring them Cryopreservation - For freezing and cryopreservation, monolayers 80% confluent were detached and the cells were adjusted to 5X10^6/ml with fresh medium containing 20% fetal bovine serum and 10% DMSO. The suspension was dispersed into sterile cryotubes and refrigerated at 5 C, frozen overnight at -70 C, and the placed in liquid nitrogen for permanent storage (Hsu et al. 1972, Braude et al. 1986, Lery & Fediegrave;re 1990). RESULTS
Fig. 3: giemsa-staining metaphase chromosome preparations from LSB-AA695BB cell line showing: A. diploid chromosome complement; B. aneuploid chromosome complement.
The effective antimicrosporidial activity of albendazole, here reported, coincided with previous observations (Haque et al. 1993, Ditrich et al. 1994, Weiss et al. 1994). However, in those studies albendazole was used to test the in vitro antimicrosporidial activity on induced infections, while in the present report, the drug was used to control and eliminate natural infections against microsporidia of transovarial transmission, which were explanted from infected embryos. This antimicrosporidial treatment was necessary to develop a continuous cell line. It was also possible to isolate and maintain in vitro microsporidia of transovarial transmission, with the present technique of cell cultures, without the drug. The An. stephensis and An. gambiae cell culture were initiated with recently eclosionated larvae; these were cut into fragments and submitted to enzymatic treatments. In the present cell line, primary cell cultures were obtained from embryonated eggs in a relatively short time; the first successful subculture was made after six weeks. Primary cell growth pattern and morphology coincided with the description by Bello et al. (1995) for their species; except that the first successful subculture of the former was obtained after only two weeks. The slower growth of the present culture may have been due to the presence of parasites, the effect of the antimicrosporidial drug, and/or because of the frequent medium changes necessary to dilute the free spores. The cell morphology of the present line was mostly of the fibroblast-type, with characteristics similar to those described for the An. stephensis var. mysorensis cell culture (Pudney & Varma 1971) but different from that reported for An. gambiae (Marhoul & Pudney 1972) and An. stephensis (Schneider 1969), which were predominantly epithelioid. The diploid number of chromosomes for the cell line is 2n=6; this coincided with the number established for most Anopheles with the exception of the Chagasia genus, whose chromosomatic complement was of 4 pairs (2n=8) (Clements 1992). In cultures exposed to albendazole for a relatively prolonged time (3 months), it was noticed that, many of metaphases showed dispersed chromosomes with a tendency toward aneuploids (Fig. 3B). Structural type chromosomic aberrations were also noted, most frequently the duplication of short arms in one of the chromosomes of pair 2. However, after removal of the drug and upon subculturing up to 30 passages, the cytogenetic analysis showed normal cells, mostly diploid metaphases.
The isozymatic phenotypes of this cell line were identical with those obtained from An. albimanus pupae and adult samples, which indicates that cells in the cultures were representative of the original species. However, when isozymatic patterns of this cell line were compared with zymograms of Ae. taeniorhynchus cells and the C6/36 clone, a characteristic and different isozymatic profiles were observed for each of above mentioned lines. ACKNOWLEDGEMENTS To Dr RB Tesh, Research Scientist, University of Texas, Department of Pathology, Medical Branch, for his valuable comments and for reading the original manuscript. REFERENCES
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