THE PROGRESS OF STUDIES ON MOLLUSCAN HEMOCYTE AND ITS IMMUNOLOGICAL FUNCTION

Sun J F, Wu X Z. Histology, ultrastructure and morphogenesis of arickettsia-like organism causing disease in the oyster, Crassostrea ari-akensisGould [J]. JInvertebr Pathol, 2004, 86(3) : 77) 86

[9] Mohandas A, Cheng T C,Cheng J B. Mechanism of lysosomal enzymerelease from Mercenaria mercenaria granulocytes: a scanning electronmicroscope study[J]. J Invertebr Pathol, 1985,46(2) : 189) 197

[] 11Yoshino T P, Granath W O. Identification of antigenically distincthemocyte subpopulations in Biomphalaria glabrata(Gastropoda) usingmonoclonal antibodies to surface membrane markers [J]. Cell TissueRes, 1983, 232:553) 564

Zhang W I, Wu X Z, Li D F; et al. Immunological functions of blood cells in the scallop chlarnysfarreri [J]. Acta Zoologica Sinica,2005, 51(4) : 669) 677[张维翥, 吴信忠, 李登峰等. 栉孔扇贝血液细胞的免疫功能. 动物学报,2005, 51(4) :669) 677]

[17] Canesi L, Betti M, Ciacci C, et al, Signaling pathways involved in thephysiological response of mussel hemocytes to bacterial challenge: therole of stress-activated P38 MAPK[J]. Dev Comp lmmunol, 2002b,26: 325) 334

Shi A J, Qiu A D, Tang M, et al. Hemoculture of Anodonta Woodi-ana Pacifica [J]. ActaHydrobiologicaSinica, 2001, 25(2) : 116) 122[石安静, 邱安东, 唐敏, 等. 圆背角无齿蚌血细胞培养. 水生生物学报, 2001, 25(2) :116) 122]

[21] Olafsen J A, Fletche T C, Grant P T. Agglutinin activity in Pacificoyster (Crassostrea gigas) hemolymph following in vivo Vibrio angui-llarum challenge [J]. Com p Immunol1992, 16(2) 3) : 123) 138

Moore M N, Lowe D M. The cytology and cytochemistry of the hemo-cytes of Mytilus edulis and their response to experimentally injectedcarbon particles[J]. J Invertebr Pathol, 1977, 29: 18) 30]

[22] Chintala M M, William S F. Fisher Disease incidence and potentialmechanisms of defense forMSX-resistant and-susceptible eastern oystersheld in Chesapeake Bay[J]. J Shellfish Res,1991, 10(2) :439) 443

Bayne CJ, Moore M N, Carefoot T H, et al. Hemolymph functions in Mytilus californianus: the cytochemistry of hemocytes and their re-sponses to foreign implants and hemolymph fctors in phagocytosis [J].J Invertebr Pathol,1979, 34: 1) 20

Cheng T C. Bivalves. Invertebrate Blood Cells [M]. New York Aca-demic Press, 1981, 233) 33

Wootton E C, Dyrynda E A, Ratcliffe N A. Bivalve immunity: com-parison between the marine mussel (Mytilus edulis), the edible cockle(Cerastoderma edule) and the razor-shell (Ensis siliqua) [J]. FishShellfish Immunol, 2003,5: 195) 210

Zhang H Y, Liu K W, Jiang Y, et al, Functional groups of alkalinephosphatase from Anodonta Woodiana Heude[J]. ActaHydrobiologica Sinica, 1997, 21(4) : 348) 352[张洪渊, 刘克武, 姜云, 等. 圆背角无齿蚌碱性硫酸酶的功能基团研究. 水生生物学报, 1997,21(4) : 348) 352]

Cushing J E, Evens E, EVANS M L. Induced bacterial responses ofabalones [J]. J Invertebr Pathol, 1971,17: 446) 448

Cheng T C, Foley D A. Hemolymph cells of the bivalve mollusc Mer-cenaria mercenaria: An electron microscopical study [J]. J InvertebrPathol. 1975, 26: 341) 351

Carballal M J, L?pez C, Azevedo C, et al. In vitro study of phago-cytic ability of Mytilus galloprovincialis Lmk. haemocytes[J]. FishShellfish Immunol. 1997, 7: 403) 416

Xue Q, Renault T. Enzymatic activities in European flat oyster, Os-trea edulis, and Pacific oyster, Crassostrea gigas hemolymph [J]. JInvertebr Pathol, 2000, 76: 155) 163

Cronin M A, Cullcty S C, MulcahyM F. Lysozyme activity and pro-tein levels in the hemolymph of the flat oyster Ostrea edulis[J]. FishShellfish Immunol,2001, 11: 611) 622

Antonio L G, Alfonso N M M, Felipe A V, el al. Ontogenetic varia-tions of hydrolytic enzymes in the Pacific oyster Crassostrea gigas[J].Fish Shellfish Immunol, 2004, 16(3) : 287) 294

Roserberger C M, Finlay B B. Phagocyte sabotage: disruption ofmacrophage signalling by bacterial pathogens [J]. Mol Cell Biol.2003, 4: 385) 396

Renwrantz, Mohr W. Opsonizing effect of serum and albumin glandextracts on the elimination of human erythrocytes from the circulationof Helix pomatia[J]. J Invertebr Pathol, 1978,31(2) : 164) 170

Lackie A M. Invertebrate immunity [J]. Parasitology, 1980, 80(2) :393) 412

Tunkijjanukij S H, Mikkelsen V, Olafsen JA. A heterogeneous sialicacid-binding lectin with affinity for bacterial LPS from Horse mussel(Modiolus modiolus) hemolymph[J]. Comp Biochem Physiol, 1997,117B(2): 273) 286

Howland K H, Cheng T C. Indentification of bacterial chemoattratantsfor oyster hemocytes[J]. J Invertebr Pathol,1982, 32: 123) 132

Cheng T C, Dougherty W J. Ultrastructural evidence for the destruc-tion of Schistosoma mansoni sporocysts associated with elevated lysoso-mal enzyme levels in Biom phalaria glabrata[J]. J Parasitol, 1989,75(6) : 928) 41

Renwrantz L R, Richards E H. Recogniton of beta-glucuronidase bythe calcium-independent phosphomannosyl surface receptor of haemo-cytes from the gastropod mollusc, Helix pomatia[J]. Dev Comp Im-munol,1992, 16: 251)256

Fryer S E, Hull C J, Bayne C J. Phagocytosis of yeast by Biom-phalaria glabrata: carbohydrate specificity of hemocyte receptors and aplasma opsonin[J]. Dev Com p Immunol, 1989, 13(1) : 9-16

Stefano G B,Leung M K, Zhao X H, et al. Evidence for the involve-ment of opioid neuropeptides in the adherence and migration of im munocompetentinvertebrate hemocytes[J]. Proc Natl Acad Sci U SA, 1989,86(2) : 626) 630

Harris-Young L,Tamplin M L. Mason J W, et al. Viability of Vibrio vulnificus in associationwith hemocytes of the American oyster (Cras-sostrea virginica) [J]. Appl Environ Microbiol, 1995, 61: 52) 57

Zampini M, Canesi L, Betti M,et al. Role for mannose-sensitivehemagglutinin in promoting interactions between Vibrio choleraeElTor andmussel hemolymph[J]. Appl Environ Microbiol, 2003,69:5711) 5715

Chen Z L, Zhu X H. / Molecule pattern recogniton0of innate immunesystem and its immunobiological significances [J]. ImmunologicalJournal, 2000,16(3) : 161) 165[陈政良, 朱锡华. 天然免疫系统的分子模式识别作用及其免疫生物学意义, 免疫学杂志,2000, 16(3) : 161) 165]

Dikkeboom R, Van derKnaapW P W,Meuleman EA, et al, Compar-ative study on the internal defence systen of juvenile and adult Lym-naea stagnalis[J]. Immunology, 1985, 55: 547) 553

Nakamura M,Mori K, Inooka S, et al. In vitro production of hydrogenperoxide by the amoebocytes of the scallop, Potinopecten yessoensis[J]. Dev Comp Immunol, 1985,9: 407) 417

Adema C M,Mohandas A, Van der Knaap W P W, et al. Separationof Lymnaeastagnalis hemocytesby density gradient centrifugotion[J].Dev Comp Immunol, 1994, 18: 25) 31

Pipe R K. Generation ofreactive oxygen metabolites by the haemocytes ofthe mussel Mytilus edulis[J]. Dev Com p Immunol,1992,16:111) 112<

Anderson R,Oliver L M, Brubacher L L. Superoxide anion generationby Crassostrea virginica haemocytes as measured by nitroblue tetrozol-i um reduction[J]. J Invertebr Pathol. 1992, 59:303) 307

Khalid M N. The role of nitric oxide in cardiovascular diseases. MolAspects Med,2005, 26(1-2) : 33) 65

Tafalla C, Gomez-Leon J, Novoa B, et al. Nitric oxide production bycarpet shell clam (Ruditapes decussates) hemocytes[J]. Dev CompImmunol, 2003, 27: 197) 205

Novas A, Cao A, Barcia R, et al. Nitric oxide release by hemocytesof the mussel Mytilus galloprovincialis Lmk was provoked by inter-leukin-2 but not by lipopolysaccharide[J]. The International Journalof Biochemistry and Cell Biology, 2004, 36(3) : 390) 394

Yu Y P, Shi A J. funcions of hemocytes of anodonta woodiana Pacif-ica (Heude) during the process of wound healing both in vitro and vi-vo. ActaHydrobiologica Sinica, 2000,24(3) : 234) 239[余燕萍, 石安静. 圆背角无齿蚌血细胞在体内和体外损伤修复过程中的功能. 水生生物学报, 2000, 24(3) : 234) 239]

Ottaviani E, Franchini A,Franceschi C. Presence of several cytokine-like molecules in molluscan hemocytes [J]. Biochemical and Biophys-ical Research Communications, 1993, 195:984) 988

Suzuki T,Yoshinaka R,Mizuta S, et al. Extracellularmatrix formation by amebocytes during epithelial regeneration in the pearl oyster Pinc-tada fucata[J]. Cell Tissue Res, 1991, 266: 75) 82

Bruckner K, Kockel L, Duchek P, et al. The PDGF/ VEGF ReceptorControls Blood Cell Survival in Drosophila[J]. Dev Cell, 2004, 7(1) :73) 84