Alvarenga Evelyn S L, Mansur Juliana F, Justi Silvia A, Figueira-Mansur Janaina, Dos Santos Vivian M, Lopez Sheila G, Masuda Hatisaburo, Lara Flavio A, Melo Ana C A, Moreira Monica F
Instituto de Química, Universidade Federal do Rio de Janeiro, RJ, 21941-909, Brazil.
Instituto de Biologia, Universidade Federal do Rio de Janeiro, RJ, 21941-617, Brazil; Laboratório Nacional e Internacional de Referência em Taxonomia de Triatomíneos, Fundação Oswaldo Cruz, Rio de Janeiro, RJ, 21040-360, Brazil.
Insect Biochem Mol Biol. 2016 Feb;69:61-70. doi: 10.1016/j.ibmb.2015.04.003. Epub 2015 Apr 22.
Chitin is an essential component of the peritrophic matrix (PM), which is a structure that lines the insect's gut and protects against mechanical damage and pathogens. Rhodnius prolixus (Hemiptera: Reduviidae) does not have a PM, but it has an analogous structure, the perimicrovillar membrane (PMM); chitin has not been described in this structure. Here, we show that chitin is present in the R. prolixus midgut using several techniques. The FTIR spectrum of the KOH-resistant putative chitin-material extracted from the midgut bolus showed peaks characteristic of the chitin molecule at 3500, 1675 and 1085 cm(1). Both the midgut bolus material and the standard chitin NMR spectra showed a peak at 1.88 ppm, which is certainly due to methyl protons in the acetamide a group. The percentages of radioactive N-acetylglucosamine (CPM) incorporated were 2 and 4% for the entire intestine and bolus, respectively. The KOH-resistant putative chitin-material was also extracted and purified from the N-acetylglucosamine radioactive bolus, and the radioactivity was estimated through liquid scintillation. The intestinal CHS cDNA translated sequence was the same as previously described for the R. prolixus cuticle and ovaries. Phenotypic alterations were observed in the midgut of females with a silenced CHS gene after a blood meal, such as retarded blood meal digestion; the presence of fresh blood that remained red nine days after the blood meal; and reduced trachea and hemozoin content compared with the control. Wheat germ agglutinin (a specific probe that detects chitin) labeling proximal to the intestine (crop and midgut) was much lower in females with a silenced CHS gene, especially in the midgut region, where almost no fluorescence signal was detected compared with the control groups. Midguts from females with a CHS gene silenced by dsRNA-CHS and control midguts pre-treated with chitinase showed that the chitin-derived fluorescence signal decreased in the region around the epithelium, the region facing the midgut and projections towards the intestinal lumen when evaluated microscopically. The relative reduction in CHS transcripts by approximately 80% using an RNAi assay supports the phenotypical alterations in the midgut observed using fluorescence microscopy assays. These data show that chitin is present in the R. prolixus midgut epithelium and in its surface projections facing the lumen. The CHS gene expression and the presence of chitin in the R. prolixus midgut may suggest a target for controlling Chagas disease vectors and addressing this public health problem.
几丁质是围食膜(PM)的重要组成部分,围食膜是一种衬于昆虫肠道内的结构,可防止机械损伤和病原体侵害。南美锥蝽(半翅目:猎蝽科)没有围食膜,但有类似结构,即微绒毛周膜(PMM);尚未在该结构中发现几丁质。在此,我们运用多种技术表明几丁质存在于南美锥蝽的中肠中。从肠食团中提取的耐氢氧化钾假定几丁质材料的傅里叶变换红外光谱在3500、1675和1085 cm⁻¹处显示出几丁质分子的特征峰。肠食团材料和标准几丁质的核磁共振光谱均在1.88 ppm处显示出一个峰,这肯定归因于乙酰酰胺α基团中的甲基质子。整个肠道和食团中掺入的放射性N - 乙酰葡糖胺(每分钟计数)的百分比分别为2%和4%。还从放射性N - 乙酰葡糖胺食团中提取并纯化了耐氢氧化钾假定几丁质材料,并通过液体闪烁法估算放射性。肠道几丁质合酶(CHS)的cDNA翻译序列与先前描述的南美锥蝽表皮和卵巢的序列相同。在用dsRNA - CHS使CHS基因沉默的雌性南美锥蝽中肠中观察到表型改变,例如血餐消化延迟;血餐后九天仍呈红色的新鲜血液的存在;与对照组相比,气管和疟色素含量减少。小麦胚凝集素(一种检测几丁质的特异性探针)在肠道近端(嗉囊和中肠)的标记在CHS基因沉默的雌性中要低得多,尤其是在中肠区域,与对照组相比几乎检测不到荧光信号。用dsRNA - CHS使CHS基因沉默的雌性中肠和用几丁质酶预处理的对照中肠在显微镜下观察发现,几丁质衍生的荧光信号在上皮细胞周围区域、面向中肠的区域以及向肠腔的突起中减少。使用RNA干扰试验使CHS转录本相对减少约80%,这支持了通过荧光显微镜试验在中肠中观察到的表型改变。这些数据表明几丁质存在于南美锥蝽中肠上皮及其面向肠腔的表面突起中。南美锥蝽中肠中CHS基因的表达和几丁质的存在可能提示了控制恰加斯病传播媒介以及解决这一公共卫生问题的一个靶点。
