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桑乳胶中拟糖生物碱对野桑蚕和家蚕糖代谢及二糖酶的不同影响：家蚕对桑树防御的酶适应性

Differential effects of sugar-mimic alkaloids in mulberry latex on sugar metabolism and disaccharidases of Eri and domesticated silkworms: enzymatic adaptation of Bombyx mori to mulberry defense.

作者信息

Hirayama Chikara, Konno Kotaro, Wasano Naoya, Nakamura Masatoshi

机构信息

National Institute of Agrobiological Sciences, Tsukuba, Ibaraki 305-8634, Japan.

出版信息

Insect Biochem Mol Biol. 2007 Dec;37(12):1348-58. doi: 10.1016/j.ibmb.2007.09.001. Epub 2007 Sep 12.

DOI:10.1016/j.ibmb.2007.09.001

PMID:17967353

Abstract

Mulberry leaves (Morus spp.) exude latex rich in sugar-mimic alkaloids, 1,4-dideoxy-1,4-imino-d-arabinitol (d-AB1) and 1-deoxynojirimycin (DNJ), as a defense against herbivorous insects. Sugar-mimic alkaloids are inhibitors of sugar-metabolizing enzymes, and are toxic to the Eri silkworm, Samia ricini, a generalist herbivore, but not at all to the domesticated silkworm, Bombyx mori, a mulberry specialist. To address the phenomena, we fed both larvae diets containing different sugar sources (sucrose, glucose or none) with or without sugar-mimic alkaloids from mulberry latex. In S. ricini, addition of sugar-mimic alkaloids to the sucrose (the major sugar in mulberry leaves) diet reduced both growth and the absorption ratio of sugar, but it reduced neither in B. mori. The midgut soluble sucrase activity of S. ricini was low and inhibited by very low concentrations of sugar-mimic alkaloids (IC(50)=0.9-8.2microM), but that of B. mori was high and not inhibited even by very high concentrations (IC(50)>1000microM) of sugar-mimic alkaloids. In S. ricini, the addition of sugar-mimic alkaloids to the glucose diet still had considerable negative effects on growth, although it did not reduce the absorption ratio of glucose. The hemolymph of S. ricini fed sugar-mimic alkaloids contained sugar-mimic alkaloids. The trehalose concentration in the hemolymph increased significantly in S. ricini fed sugar-mimic alkaloids, but not in B. mori. The trehalase activities of S. ricini were lower and inhibited by lower concentrations of sugar-mimic alkaloids than those of B. mori. These results suggest that sugar-mimic alkaloids in mulberry latex exert toxicity to S. ricini larvae first by inhibiting midgut sucrase and digestion of sucrose, and secondly, after being absorbed into hemolymph, by inhibiting trehalase and utilization of trehalose, the major blood sugar. Further, our results reveal that B. mori larvae evolved enzymatic adaptation to mulberry defense by developing sucrase and trehalase that are insensitive to sugar-mimic alkaloids.

摘要

桑叶（桑属植物）会分泌富含类糖生物碱的乳汁，即1,4 - 二脱氧 - 1,4 - 亚氨基 - D - 阿拉伯糖醇（D - AB1）和1 - 脱氧野尻霉素（DNJ），以此抵御食草昆虫。类糖生物碱是糖代谢酶的抑制剂，对多食性食草动物蓖麻蚕（Samia ricini）有毒，但对桑科专食性的家蚕（Bombyx mori）则完全无毒。为了解释这些现象，我们给两种幼虫喂食含有不同糖源（蔗糖、葡萄糖或无糖）且添加或不添加桑叶乳汁中类糖生物碱的饲料。在蓖麻蚕中，向含有蔗糖（桑叶中的主要糖类）的饲料中添加类糖生物碱会降低其生长速度和糖的吸收率，但在家蚕中则不会。蓖麻蚕中肠可溶性蔗糖酶活性较低，且会被极低浓度的类糖生物碱抑制（半数抑制浓度IC(50)=0.9 - 8.2微摩尔），而家蚕的该酶活性较高，即使在极高浓度（IC(50)>1000微摩尔）的类糖生物碱作用下也不会被抑制。在蓖麻蚕中，向含有葡萄糖的饲料中添加类糖生物碱对其生长仍有相当大的负面影响，尽管它并未降低葡萄糖的吸收率。喂食类糖生物碱的蓖麻蚕血淋巴中含有类糖生物碱。喂食类糖生物碱的蓖麻蚕血淋巴中海藻糖浓度显著升高，而家蚕则不然。蓖麻蚕的海藻糖酶活性低于家蚕，且被更低浓度的类糖生物碱抑制。这些结果表明，桑叶乳汁中的类糖生物碱对蓖麻蚕幼虫产生毒性，首先是通过抑制中肠蔗糖酶和蔗糖消化，其次是在被吸收到血淋巴后，通过抑制海藻糖酶和主要血糖海藻糖的利用。此外，我们的结果表明，家蚕幼虫通过进化出对类糖生物碱不敏感的蔗糖酶和海藻糖酶，从而对桑树的防御机制产生了酶适应性。

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桑乳胶中拟糖生物碱对野桑蚕和家蚕糖代谢及二糖酶的不同影响：家蚕对桑树防御的酶适应性

Differential effects of sugar-mimic alkaloids in mulberry latex on sugar metabolism and disaccharidases of Eri and domesticated silkworms: enzymatic adaptation of Bombyx mori to mulberry defense.

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