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Antinociceptive activity and toxicology of the lectin from Canavalia boliviana seeds in mice (2009)

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  • USP affiliated authors: CUNHA, FERNANDO DE QUEIROZ - FMRP
  • USP Schools: FMRP
  • DOI: 10.1007/s00210-009-0448-2
  • Language: Inglês
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    Informações sobre o DOI: 10.1007/s00210-009-0448-2 (Fonte: oaDOI API)
    • Este periódico é de assinatura
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  • Título: Naunyn-Schmiedeberg's Archives of Pharmacology

    ISSN: 0028-1298

    Citescore - 2017: 2.29

    SJR - 2017: 0.836

    SNIP - 2017: 0.784

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    • ABNT

      FIGUEIREDO, Jozi Godoy; BITENCOURT, Flávio da Silveira; BESERRA, Ingrid Gonçalves; et al. Antinociceptive activity and toxicology of the lectin from Canavalia boliviana seeds in mice. Naunyn-Schmiedebergs Archives of Pharmacology, Berlim, v. 380, n. 5, p. 407-414, 2009. DOI: 10.1007/s00210-009-0448-2.
    • APA

      Figueiredo, J. G., Bitencourt, F. da S., Beserra, I. G., Teixeira, C. S., Luz, P. B., Bezerra, E. H. S., et al. (2009). Antinociceptive activity and toxicology of the lectin from Canavalia boliviana seeds in mice. Naunyn-Schmiedebergs Archives of Pharmacology, 380( 5), 407-414. doi:10.1007/s00210-009-0448-2
    • NLM

      Figueiredo JG, Bitencourt F da S, Beserra IG, Teixeira CS, Luz PB, Bezerra EHS, Mota MRL, Assreuy AMS, Cunha F de Q, Cavada BS, Alencar NMN de. Antinociceptive activity and toxicology of the lectin from Canavalia boliviana seeds in mice. Naunyn-Schmiedebergs Archives of Pharmacology. 2009 ; 380( 5): 407-414.
    • Vancouver

      Figueiredo JG, Bitencourt F da S, Beserra IG, Teixeira CS, Luz PB, Bezerra EHS, Mota MRL, Assreuy AMS, Cunha F de Q, Cavada BS, Alencar NMN de. Antinociceptive activity and toxicology of the lectin from Canavalia boliviana seeds in mice. Naunyn-Schmiedebergs Archives of Pharmacology. 2009 ; 380( 5): 407-414.

    Referências citadas na obra
    Ahmadiani A, Fereidoni M, Semnanian S, Kamalinejad M, Sureni S (1998) Antinociceptive and antiinflammatory effects of Sambucus ebulus rhizome extractin rats. J Ethnopharmacol 61:229–235
    Alencar NMN, Teixeira EH, Assreuy AMS, Cavada BS, Flores CA, Ribeiro RA (1999) Leguminous lectins as tools for studying the role of sugar residues in leukocyte recruitment. Mediators Inflamm 8:107–113
    Alencar NMN, Cavalcante CF, Vasconcelos MP, Leite KB, Aragão KS, Assreuy AMS, Nogueira NAP, Cavada BS, Vale MR (2005a) Antiinflammatory and anti-microbial effect of lectin from Lonchocarpus sericeus seeds in an experimental model of infectious peritonitis. J Pharm Pharmacol 57:919–922
    Alencar VBM, Alencar NMN, Assreuy AMS, Mota ML, Brito GAC, Aragão KS, Bittencourt FS, Pinto VPT, Debray H, Ribeiro RA, Cavada BS (2005b) Pro-inflammatory effect of Arum maculatum lectin and role of resident cells. Int J Biochem Cell Biol 37:1805–1814
    Alencar VBM, Brito GAC, Alencar NMN, Assreuy AMS, Pinto VPT, Teixeira EH, Souza EP, Debray H, Ribeiro RA, Cavada BS (2005c) Helianthus tuberosus agglutinin directly induces neutrophil migration, which can be modulated/inhibited by resident mast cells. Biochem Cell Biol 83:659–666
    Alencar VBM, Assreuy AMS, Alencar NMN, Meireles AVP, Mota MRL, Aragão KS, Cajazeiras JB, Nagano CS, Brito GAC, Silva LIMM, Pinto VPT, Sampaio AH, Debray H, Cavada BS, Ribeiro RA (2005d) Lectin of Pisum arvense seeds induces in vivo and in vitro neutrophil migration. J Pharm Pharmacol 57:375–381
    Assreuy AMS, Shibuya MD, Martins GJ, Sousa MLP, Cavada BS, Moreira RA, Oliveira JTA, Ribeiro RA, Flores CA (1997) Antiinflammatory effect of glucose-mannose binding lectins isolated from Brazilian beans. Mediators Inflamm 6:201–210
    Assreuy AMS, Martins GJ, Moreira ME, Brito GAC, Cavada BS, Ribeiro RA, Flores CA (1999) Prevention of cyclophosphamide induced hemorrhagic cystitis by glucose-mannose binding plant lectins. J Urol 161:1988–1993
    Bitencourt FS, Figueiredo JG, Mota MR, Bezerra CC, Silvestre PP, Vale MR, Nascimento KS, Sampaio AH, Nagano CS, Saker-Sampaio S, Farias WR, Cavada BS, Assreuy AM, Alencar NM (2008) Antinociceptive and anti-inflammatory effects of a mucin-binding agglutinin isolated from the red marine alga Hypnea cervicornis. Naunyn Schmiedebergs Arch Pharmacol 377:139–148
    Calixto JB, Beirith A, Ferreira J, Santos AR, Filho VC, Yunes RA (2000) Naturally occurring antinociceptive substances from plants. Phytother Res 14:401–418
    Capaz FR, Vanconcellos LEM, De Moraes S, Palermo-Neto J (1981) The open field: a simple method to show ethanol withdrawal symptoms. Arch Int Pharmacodyn Ther 25:228–236
    Cavun S, Goktalay G, Millington WR (2004) The hypotension evoked by visceral nociception is mediated by delta opiod receptors in the periaqueductal gray. Brain Reseach 1019:237–245
    Chapman CR, Casey KI, Dubner R, Foley KM, Gracely RH, Reading AE (1985) Pain measurement: an overview. Pain 22:1–31
    De Souza FR, Figuera MR, Lima TTF, Bastiani J, Barcellos IB, Almeida CE, Oliveira MR, Bonacorso HG, Flores AE, Mello CF (2001) 3-Methyl 5-hydroxy-5-trichloromethyl -1H–1-pyrazolcarboxyamide (MPCA) induces antinociception. Pharmacol Biochem Behav 68:525–530
    Durham NW, Miya TS (1957) A note on a simple apparatus for detecting neurological deficits in rats and mice. J Am Pharm Assoc 46:208–210
    Eddy NB, Leimbach D (1953) Synthetic analgesics Ll dithienylbutenyl and dithienylbutylamines. J Pharmacol Exper Ther 107:385–393
    Gaertner M, Muller L, Roos JF, Cani G, Santos ARS, Niero R, Calixto JB, Yunes RA, Delle Manache F, Cechinel-Filho V (1999) Analgesic triterpenes from Sebastiania Schottiana roots. Phytomedicine 6:41–44
    Garcia MD, Fernandez MA, Alvarez A, Saenz MT (2004) Antinociceptive and anti-inflammatory effect of the aqueous extract from leaves of Pimenta racemosa var. ozua (Mirtaceae). J Ethnopharmacol 91:29–73
    Grumbach L (1966) The prediction of analgesic activity in man by animal testing. In: Knighton RS, Dumke PR (eds) Pain. Little Brown and Co, Boston, pp 163–182
    Hunskaar S, Hole K (1987) The formalin test in mice: dissociation between inflammatory and non-inflammatory pain. Pain 30:103–114
    Jage J (2005) Opioid tolerance and dependence. Do they matter? Eur J Pain 9:157–162
    Janssen PAJ, Niemegeers CJE, Dony JHG (1963) The inhibitory effect of fentanyl andother morphine-like analgesics on the warn water induced tail with drawal reflex in rats. Arzeneimittelforschung 13:502–507
    Kekesi G, Joo G, Csullog E, Peter-Szabo M, Benedek G, Horvatha G (2004) Dose-independent antinociceptive interaction of endogenous ligands at the spinal level. Brain Res 1029:93–102
    Koehn FE, Carter GT (2005) The evolving role of natural products in drug discovery. Nat Rev Drug Discov 4:206–220
    Koster R, Anderson M, De Beer EJ (1959) Acetic acid for analgesic screening. Fed Proc 18:412–414
    Laemmli UK (1970) Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227:680–685
    Malmberg AB, Yaksh TL (1995) The effect of morphine on formalinevoked behaviour and spinal release of excitatory amino acids and prostaglandin E2 using microdialysis in conscious rats. Br J Pharmacol 114:1069–1075
    Mota MR, Criddle DN, Alencar NM, Gomes RC, Meireles AV, Santi-Gadelha T, Gadelha CA, Oliveira CC, Benevides RG, Cavada BS, Assreuy AMS (2006) Modulation of acute inflammation by a chitin-binding lectin from Araucaria angustifolia seeds via mast cells. Naunyn Schmiedebergs Arch Pharmacol 374:1–10
    Moura TR, Bezerra GA, Bezerra MJB, Teixera CS, Bezerra EHS, Benevides RG, Rocha BAM, Souza LAG, Delatorre P, Nagano CS, Cavada BS (2009) Crystallization and preliminary X-ray diffraction analysis of the lectin from Canavalia boliviana Piper seeds. Acta Crystallogr Sect F Struct Biol Cryst Commun. 65(1):213–215
    Mundey MK, Ali A, Mason R, Wilson VG (2000) Pharmacological examination of contractile responses of the guinea-pig isolated ileum produced by mµ-opioid receptor antagonists in the presence of, and following exposure to, morphine. Br J Pharmacol 131:893–902
    Napimoga MH, Cavada BS, Alencar NMN, Mota ML, Bitencourt FS, Alves-Filho JC, Grespan R, Gonçalves RB, Clemente-Napimoga JT, Freitas A, Parada CA, Ferreira SH, Cunha FQ (2007) Lonchocarpus sericeus lectin decreases leukocyte migration and mechanical hypernociception by inhibiting cytokine and chemokines production. Int Immunopharmacol 7:824–835
    Neves SA, Freitas ALP, Souza BWS, Rocha MLA, Correia MVO, Sampaio DA, Viana GSB (2007) Antinociceptive properties in mice of a lectin isolated from the marine alga Amansia multifida Lamouroux. Braz J Med Biol Res 40:127–134
    Nunes BS, Resonnet NS, Dal-Secco D, Vieira SM, Cavada BS, Teixeira EH, Moura TR, Teixeira EH, Clemente-Napimoga JT, Cunha FQ, Napimoga MH (2009) Lectin extracted from Canavalia grandiflora seeds presents potential anti-inflammatory and analgesic effects. Naunyn Schmiedebergs Arch Pharmacol 379:609–616
    Omote K, Kawamata T, Kawamata M, Namiki A (1998) Formalin induced release of excitatory amino acids in the skin of the rat hindpaw. Brain Res 787:161–164
    Pinardi G, Sierralta F, Miranda HF (2003) Atropine reverses the antinociception of nonsteroidal anti-inflammatory drugs in the tail-flick test of mice. Pharm Biochem Behav 74:603–608
    Sakurada T, Komatsu T, Sakurada S (2005) Mechanism of nociception evoked by intrathecal high dose morphine. Neurotoxicology 26:801–809
    Santi-gadelha T, Gadelha CA, Aragão KS, Oliveira CC, Mota MRL, Gomes RC, De Freitas PA, Toyama MH, De Oliveira TD, Alencar NMN, Criddle DN, Assreuy AMS, Cavada BS (2006) Purification and biological effects of Araucaria angustifolia (Araucariaceae) seeds lectin. Biochem Biophys Res Commun 350:1050–1055
    Santos ARS, Miguel OG, Yunes RA, Calixto JB (1999) Antinociceptive properties of the new alkaloid, cis-8, 10-Di-N-propyllobelidiol hydrochloride dehydrate isolated from Siphocampylus verticillatus: evidence for the mechanism of action. J Pharmacol Exp Ther 289:417–426
    Santucci L, Fiorucci S, Giansanti M, Brunori PM, Di Matteo FM, Morelli A (1994) Pentoxifylline prevents indomethacin induced acute gastric mucosal damage in rats: role of tumour necrosis factor alpha. Gut 35:909–915
    Sharon N (1998) Lectins: from obscurity into the limelight. Protein Sc 7:2042–2048
    Shibata M, Ohkubo T, Takahasi H, Inoki R (1989) Modified formalin test: characteristic biphasic pain response. Pain 38:347–352
    Soja PJ, Taepavarapruk N, Pang W, Cairns BE, Mcerlane SA, Fragoso MC (2002) Transmission throught the dorsal spinocerebellar and spinoreticular tracts: wakefulness versus thiopental anesthesia. Anesthesiology 97:1178–1188
    Souza GEP, Ferreira SH (1985) Blockade by antimacrophage serum of the migration of PMN neutrophils into the inflamed peritoneal cavity. Agents Actions 17:97–103
    Stai HY, Chen YF, Wu TS (1995) Anti-inflammatory and analgesic activities of extract from roots of Angelica pubescens. Planta Med 61:1–8
    Tjolsen A, Hole K (1997) Animal models of analgesia. In: Dickenson A, Besson J (eds) The pharmacology of pain, vol 130. Springer Verlag, Berlin, pp 1–20
    Tjolsen A, Berge O, Hunskaar S, Rosland JH, Hole K (1992) The formalin test: an evaluation of the method. Pain 51:5–17
    Van Damme EJM, Peumans WJ, Barre A, Rouge P (1988) Plant lectins: a composite of several distinct families of structurally and evolutionarily related proteins with diverse biological roles. Crit Rev Plant Sci 17:575–692
    Vanegas H, Schaible HG (2001) Prostaglandins and ciclooxygenases in spinal cord. Prog Neurobiol 64:327–363
    Viana GSB, Freitas ALP, Lima MML, Vieira LAP, Andrade MCH, Benevides NMB (2002) Antinociceptive activity of sulfated carbohydrates from the red algae Bryothamnion seaforthii (Turner) Kütz. and B. triquetrum (S.G. Gmel.) M. Howe. Braz J Med Biol Res 35:713–722
    Vieira LAP, Freitas ALP, Feitosa JPA, Silva DC, Viana GSB (2004) The alga Bryothamnion seaforthii contains carbohydrates with antinociceptive activity. Braz J Med Biol Res 37:1071–1079
    Whittle BJT (2003) Gastrointestinal effects of nonsteroidal anti-inflammatory drugs. Fundam Clin Pharmacol 17:301–313