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Dorta ML Oliveira MA Fleuri AK Duarte FB Pinto SA Pereira LI Ribeiro-Dias F 《Experimental parasitology》2012,132(2):300-303
Tegumentary leishmaniasis is an endemic protozoan disease that, in Brazil, is caused by parasites from Viannia or Leishmania complex. The clinical forms of cutaneous disease comprise localized, disseminated, mucosal or mucocutaneous, and diffuse leishmaniasis. Viannia complex parasites are not easy to isolate from patient lesions, especially from mucosal lesions, and they are difficult to culture. The aim of the present study was to compare the efficiency of ex vivo (culture) and in vivo (IFNγ-deficient mice) parasite isolation methods to improve the isolation rate and storage of stocks of New World Leishmania sp that cause cutaneous leishmaniasis (CL) or mucosal leishmaniasis (ML). Biopsy fragments from cutaneous or mucosal lesions were inoculated into culture medium or mouse footpads. We evaluated 114 samples (86 CL, 28 ML) using both methods independently. Samples from CL patients had a higher isolation rate in ex vivo cultures than in mice (34.1% vs. 18.7%, P<0.05). Nevertheless, almost twice the number of isolates from ML lesions was isolated using the mouse model compared to ex vivo cultures (mouse, 6/25; culture, 3/27). The overall rates of isolation were 40.2% for CL samples and 29.6% for ML samples. Of the 43 isolations, we successfully stocked 35 isolates (81.4%; 27 CL, 8 ML). Contaminations were more frequently detected in cultures of ML than CL lesions. For comparison, the use of both methods simultaneously was performed in 74 samples of CL and 25 samples of ML, and similar results were obtained. Of the eight ML isolates, five were isolated only in mice, indicating the advantage of using the in vivo method to obtain ML parasites. All parasites obtained from in vivo isolation were cryopreserved, whereas only 68% of ex vivo isolations from CL lesions were stocked. In conclusion, the use of genetically modified mice can improve the isolation of parasites from ML. Isolation and stocking of New World Leishmania parasites, especially those from ML that are almost absent in laboratory stocks, are critical for evaluating parasite genetic diversity as well as studying host-parasite interactions to identify biological markers of Leishmania. In this paper, we also discuss some of the difficulties associated with isolating and stocking parasites. 相似文献
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Adults of the human parasitic trematode Schistosoma mansoni, which causes
hepatosplenic/intestinal complications in humans, synthesize
glycoconjugates containing the Lewis x (Lex) Galbeta1-->4(Fucalpha1--
>3)GlcNAcbeta1-->R, but not sialyl Lewis x (sLex), antigen. We now
report on our analyses of Lexand sLexexpression in S.haematobium and
S.japonicum, which are two other major species of human schistosomes that
cause disease, and the possible autoimmunity to these antigens in infected
individuals. Antigen expression was evaluated by both ELISA and Western
blot analyses of detergent extracts of parasites using monoclonal
antibodies. Several high molecular weight glycoproteins in both S.
haematobium and S. japonicum contain the Lexantigen, but no sialyl
Lexantigen was detected. In addition, sera from humans and rodents infected
with S.haematobium and S.japonicum contain antibodies reactive with Lex.
These results led us to investigate whether Lexantigens are expressed in
other helminths, including the parasitic trematode Fasciola hepatica , the
parasitic nematode Dirofilaria immitis (dog heartworm), the ruminant
nematode Haemonchus contortus , and the free-living nematode Caenorhabditis
elegans . Neither Lexnor sialyl-Lexis detectable in these other helminths.
Furthermore, none of the helminths, including schistosomes, express Lea,
Leb, Ley, or the H- type 1 antigen. However, several glycoproteins from all
helminths analyzed are bound by Lotus tetragonolobus agglutinin , which
binds Fucalpha1-->3GlcNAc, and Wisteria floribunda agglutinin, which
binds GalNAcbeta1-->4GlcNAc (lacdiNAc or LDN). Thus, schistosomes may be
unique among helminths in expressing the Lexantigen, whereas many different
helminths may express alpha1,3-fucosylated glycans and the LDN motif.
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A high yield of nifedipine-chitosan microspheres could be obtained using an emulsification phase-separation method. A high level of entrapment of nifedipine in the microspheres was achieved. The microspheres exhibited excellent swelling properties. Differential scanning calorimetry, X-ray diffractometry, and scanning electron microscopy confirmed that at 1.84% loading, nifedipine was dispersed molecularly. The microspheres exhibited faster release at low loadings compared to high loadings. Fitting the data to the coupled Fickian/case II equation, showed that at low loadings polymer relaxation coefficients (k2) were high. As the polymer content increased in the microspheres, the value of n (diffusional exponent characteristic of the release mechanism) approached one, which is indicative of zero order. 相似文献
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de Lima Paula Monteiro Vieira José Cavalcante Souza Cavecci-Mendonça Bruna Fleuri Luciana Francisco de Lima Leite Aline Buzalaf Marília Afonso Rabelo Pezzato Luiz Edivaldo Braga Camila Pereira de Magalhães Padilha Pedro 《Biological trace element research》2020,194(1):259-272
Biological Trace Element Research - The development of metallomics techniques has allowed for metallomics analysis of biological systems, enabling a better understanding of the response mechanisms... 相似文献
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Rajarajan K Sakshi S Taria S Prathima PT Radhakrishna A Anuragi H Ashajyothi M Bharati A Handa AK Arunachalam A 《Molecular biology reports》2022,49(10):9453-9463
Molecular Biology Reports - Pongamia is considered an important biofuel species worldwide. Drought stress in the early growth stages of Pongamia influences negatively on the germination and... 相似文献