Neem secretory cells: developmental cytology and indications of cell autotoxicity

Canaveze Yve; Scudeler Elton Luiz; Rodrigues Machado Silvia

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Neem secretory cells: developmental cytology and indications of cell autotoxicity

机译：Neem分泌细胞：细胞自诱变度的发育细胞学和适应症

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The neem tree (Azadirachta indica A.Juss.) contains a range of biologically active compounds-mainly triterpenoids produced in single secretory cells, which are distributed among all plant parts. Neem secretions are toxic to animal cells, triggering autolytic mechanisms that culminate in cell disruption. However, little is known about the self-toxicity of these secretions to the cells that produce them. We carried out an anatomical, histochemical, and ultrastructural investigation of neem's single secretory cells in the shoot apex and in young leaves. We evaluated the morphological changes as possible evidences of stress reactions to their own secretions. The subcellular apparatus involved in synthesis and compartmentation was consistent with hydrophilic and lipophilic secretions. Polymorphic plastids devoid of thylakoids and abundant smooth endoplasmic reticulum in the later stages of differentiation are comparable with previous reports on neem cotyledons with regard to terpenoid synthesis. However, secretions were compartmentalized within autophagic vacuoles and periplasmic spaces instead of in terpenoid vesicles. Cellular swelling, increased vesiculation, dilatation of endoplasmic reticulum cisternae, mitochondrial hypertrophy in the cristolysis process, autolytic vacuoles, and vacuolar degeneration culminating in protoplast autolysis are all consistent with early indications of autotoxicity. The signaling stress reaction mechanism was expressed as cytoplasmic deposits of calcium salt and by the expression of a 70-kDa heat-shock protein. The morphological and histochemical changes in the secreting cells are comparable with those described in animal cells exposed to neem oil. Our data provide evidence of cell damage and signaling reactions linked to these cells' own secretions before autolysis.

机译：印楝树（印楝）包含一系列生物活性化合物，主要是在单个分泌细胞中产生的三萜类化合物，分布在植物的所有部位。印楝分泌物对动物细胞有毒，引发自溶机制，最终导致细胞分裂。然而，对于这些分泌物对产生它们的细胞的自身毒性知之甚少。我们对印楝茎尖和幼叶中的单个分泌细胞进行了解剖学、组织化学和超微结构研究。我们评估了这些形态学变化，认为它们可能对自身分泌物产生应激反应。参与合成和分隔的亚细胞装置与亲水性和亲脂性分泌物一致。在分化后期缺乏类囊体和丰富的滑面内质网的多形质体在萜类合成方面与以前关于印楝子叶的报道相当。然而，分泌物被分隔在自噬泡和周质空间内，而不是在萜类小泡中。细胞肿胀、囊泡增多、内质网池扩张、嵴溶解过程中的线粒体肥大、自溶空泡和以原生质体自溶为顶点的空泡变性都与早期自毒迹象一致。信号应激反应机制表现为细胞质钙盐沉积和70kDa热休克蛋白的表达。分泌细胞的形态和组织化学变化与暴露于印楝油的动物细胞中所描述的相似。我们的数据提供了细胞损伤和自溶前与这些细胞自身分泌物相关的信号反应的证据。

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来源
《Protoplasma: An International Journal of Cell Biology》 |2021年第2期|共15页
作者
Canaveze Yve; Scudeler Elton Luiz; Rodrigues Machado Silvia;
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作者单位

UNESP Sao Paulo State Univ Lab Plant Anat IBB Inst Biosci Botucatu POB 510 BR-18618970 Botucatu SP Brazil;

UNESP Sao Paulo State Univ Lab Insects IBB Inst Biosci Botucatu POB 510 BR-18618970 Botucatu SP Brazil;

UNESP Sao Paulo State Univ Lab Plant Anat IBB Inst Biosci Botucatu POB 510 BR-18618970 Botucatu SP Brazil;

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正文语种 eng
中图分类细胞形态学;
关键词
Azadirachta indica; Calcium deposits; Hsp70; Secretion; Ultrastructure;

机译：azadirachta indica;钙沉积物;hsp70;分泌;超微结构;

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Neem secretory cells: developmental cytology and indications of cell autotoxicity

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