滇南农家大麻品种中大麻素化学型及基因型研究

以1个滇南农家大麻品种群体为研究对象,通过化学分析及同源克隆方法,研究了21个单株中2种主要大麻素——四氢大麻酚(THC)和大麻二酚(CBD)的化学型和基因型,以揭示大麻素含量、化学型以及基因型三者之间的关系,为工业大麻新品种选育提供理论依据。研究表明:(1)化学检测结果显示,21个单株均含有THC,THC含量在0.07%~1.35%之间,其中7个单株仅含THC,5个单株含THC和微量CBD,9个单株同时含有THC和CBD,CBD含量范围为0~0.58%。(2)CBD/THC比值显示,该群体仅存在毒品型和中间型2种化学型,且中间型大麻中THC和CBD含量显著正相关。(3)基因扩增及测序分析结果显示,该群体为基因型杂合群体,群体内THCA合成酶基因存在5个变异位点,CBDA合成酶基因存在2个变异位点,但变异位点和THC及CBD的含量无直接关系。(4)群体内单株的基因型和化学型完全对应,且THCA合成酶基因及CBDA合成酶基因可作为分子标记来鉴定单株化学型。     

大麻植物中大麻素成分研究进展

大麻（Cannabis sativa）是一种古老的栽培植物, 它既是一种毒品原植物, 又是一种极具开发利用价值的经济作物。大麻素是大麻植物中特有的含有烷基和单萜分子结构的一类次生代谢产物, 目前已分离出70多种, 其中包含使人致幻成瘾的四氢大麻酚（THC）。该文就大麻植物中几种主要的大麻素成分： 四氢大麻酚、大麻二酚（CBD）和大麻环萜酚（CBC）的存在特征、含量变化、生物合成途径、各关键酶及其基因、遗传方式等方面的研究进行概括和归纳, 并展望了当前大麻素的主要研究方向, 对加快我国大麻素的相关研究及大麻育种具有参考意义。     

新型靶向化合物——植物大麻素的生物合成途径及 研究进展

植物大麻素是具有生物活性的一系列萜类化合物的总称,被认为是大麻的专有成分。具有主要药理活性的植物大麻素为Δ~9-四氢大麻酚(Δ~9-tetrahydrocannabinol,Δ~9-THC)和大麻二酚(Cannabidiol,CBD),均以内源性大麻素受体为靶点,通过激活内源性大麻素系统而参与人体许多生理病理过程,具有广泛的治疗潜力。目前,Δ~9-THC、CBD及其类似物或组合制剂,已用于治疗癫痫、癌症化疗患者的呕吐、多发性硬化症痉挛和缓解神经性疼痛以及晚期癌症患者的疼痛。随着对Δ~9-THC和CBD应用价值的深度发掘和药用标准化制剂需求量增加,Δ~9-THC和CBD在制药工业中实现规模化生产迫在眉睫。通过综述近年来植物大麻素的药理学研究进展,植物大麻素生物合成途径和关键酶的作用机制以及制药工业中植物大麻素的生产策略,旨在探索利用合成生物学技术解决植物大麻素药源问题的潜力,为合成大麻素的微生物工程研发提供理论基础,促进药用大麻素的规模化生产。     

不同储存条件对大麻化学稳定性的影响

为探讨光照和温度对大麻植物中大麻酚类稳定性的影响,该研究将大麻植物检材以固体粉末和甲醇提取溶液的形式分别在室温(22±2)℃见光、室温(22±2)℃避光、4℃避光、-20℃避光条件下储存20 d后,采用超高效液相(UPLC-PDA)检测分析样本中Δ9-四氢大麻酚(Δ9-THC)、大麻二酚(CBD)和大麻酚(CBN)的含量变化情况。结果表明:3种大麻酚类在不同化学表型大麻中的含量变化趋势相同,固体粉末样本的Δ9-THC、CBD含量在室温光照条件下显著下降,CBN含量基本不变;甲醇提取样本中Δ9-THC、CBN和CBD含量在室温光照条件下均显著下降。避光条件下的室温(22±2)℃及低温(4℃、-20℃)可稳定保存两种形式的大麻样本。大麻中的精神活性成分Δ9-THC的降解满足一级反应动力学规律,光照是影响Δ9-THC降解的重要因素,如果在室温避光条件下储存,大麻或其甲醇提取物可稳定保存,可以更好地指导司法实践活动中短期内大麻检材的取证、运送、保存及鉴定。     

大麻二酚对肿瘤中离子通道的作用

大麻是一种古老的药用植物,常被用于缓解疼痛和癫痫发作,但大麻素的成瘾性限制了它的临床使用。大麻的提取物大麻二酚没有精神活性,且不良反应明显小于Δ9-四氢大麻酚,因此受到广泛青睐。离子通道是贯穿细胞膜的亲水性蛋白质孔道,可维持机体生命活动,也与肿瘤的发生发展密切相关。该文主要关注大麻二酚作用的部分瞬时受体电位离子通道、电压依赖性阴离子选择性通道1和T型钙离子通道。大麻二酚是一个多靶点药物,对离子通道的作用受到广泛关注,但其作用机制和结合位点尚不清晰。目前已有关于大麻二酚作用于离子通道的综述及离子通道和肿瘤关系的综述,但鲜有大麻二酚对肿瘤中的离子通道作用的总结。该文主要总结了大麻二酚可能结合的离子通道及其在肿瘤细胞中的可能作用。     

大麻二酚在抑郁症中的作用

抑郁症是一种情感障碍性疾病,患者表现为持续的情感低落、思维迟缓和较高的自杀倾向.大麻二酚(cannabidiol,CBD)是一种没有精神活性的大麻成分,具有多种天然药理作用,其副作用明显小于△9-四氢大麻酚(△9-tetrahydrocannabinol,THC),可通过影响内源性大麻素系统(endogenous ca...     

198份大麻种质资源农艺及品质性状综合评价

本研究以198份国内外大麻种质资源为材料,开展了 14个农艺和品质性状多样性鉴定,并进行变异分析、相关性分析、主成分分析和聚类分析,为我国大麻种质资源创新和资源高效利用提供基础材料和技术参考.变异分析结果表明,198份国内外大麻种质资源具有较为丰富的遗传多样性,14个性状的变异系数范围为4.79％～64.45％,变异系...     

侧脑室微量注射大麻素受体拮抗剂对orexin-A诱导大鼠能量代谢改变的影响及潜在机制研究

目的:探讨大麻素1型受体(CB1)抑制剂利莫那班对下丘脑外侧区(LHA)微量注射orexin-A诱导的小鼠能量代谢及相关行为变化改变的影响。方法:通过侧脑室微量注射(icv)利莫那班,同时LHA微量注射orexin-A,测量小鼠能量代谢、自主运动的变化,杏仁核(CeA)内多巴胺释放能力以及小鼠摄食量的变化。结果:侧脑室微量注射利莫那班可减弱因LHA微量注射orexin-A引起的小鼠能量代谢变化,降低小鼠自主运动,并且减弱小鼠CeA内多巴胺释放能力。注射(icv)利莫那班未改变LHA微量注射orexin-A所诱导的摄食量增多。此外,LHA双侧注射利莫那班可阻断LHA内注射orexin-A对运动活性的促进作用,但不影响小鼠的摄食量。结论:大麻素受体涉及orexin-A诱导的小鼠中脑边缘系统多巴胺系统活化的调控,对能量代谢及自主运动也有影响,但对食物摄入的调节无明显影响。     

新化合物大麻二酚衍生物CBD-S的合成及体外活性研究

摘要 目的：大麻二酚（CBD）具有抗肿瘤和抗炎活性,是一种非成瘾性的活性成分,近年来受到医药界的广泛关注,但其水溶性较差,限制了其临床应用。本文拟合成一种新型的水溶性化合物,并测试其抗肿瘤与抗炎活性。方法：本文主要基于CBD进行结构改造,化学合成了新化合物大麻二酚2,6-苯氧乙酸二钠盐（CBD-S）,通过核磁共振氢谱、碳谱和高分辨质谱对其化学结构进行了表征,通过高效液相色谱（HPLC）方法测试了其溶解性。同时在HepG2(人肝癌细胞)和J774A.1(小鼠单核巨噬肿瘤细胞系)细胞上分别通过噻唑蓝（MTT）和Western blotting的方法测试了其体外抗细胞增殖及抗炎活性。结果：我们成功获得了CBD-S新化合物,氢谱、碳谱和高分辨质谱鉴定结果证实新合成的CBD-S结构正确,HPLC方法测试结果显示该化合物具有较好的水溶性。在细胞增殖实验中,我们发现该化合物在细胞培养液中终浓度为5-10 μg/mL时,以剂量依赖性方式显著抑制人肝癌HepG2细胞的增殖。在细胞抗炎活性研究中,为了获得在J774A.1细胞上的安全无毒浓度来开展后续的活性测试,我们首先检测了该化合物在J774A.1细胞上的毒性,发现在该细胞系温孵CBD-S在细胞培养液中终浓度为10 μg/mL以下时,是没有细胞毒的。接下来,在J77A.1细胞,我们发现CBD-S在细胞培养液中终浓度为0.01-1.00 μg/mL时,显著抑制了脂多糖（LPS）诱导的环氧合酶-2（COX-2）蛋白的生成。结论：新合成的化合物CBD-S具有较好的水溶性,在体外具有一定的抗肿瘤与抗炎活性,提示其具有较好的应用前景,值得进一步的深入或体内验证研究。     

共显性分子标记基因型数据转换为二元型数据的处理软件及其在研究种质资源遗传多样性中的意义

遗传多样性研究是植物种质资源有效利用和保护的重要基础.遗传多样性研究所采用的分子标记工具主要有显性和共显性两种,两种不同类型的分子标记将产生不同的数据类型.显性分子标记产生二元型数据,共显性分子标记产生基因型数据.数据形式不同给遗传多样性的分析和研究带来多方面的困难,不同类型数据之间的互相比较也需要将基因型数据进行二元型转换.本研究基于Excel平台,设计开发了将基因型数据转换成二元型数据的处理软件.该软件按照基因型数据向二元型数据转换的原理,可以将庞大的分子标记基因型数据矩阵,迅速、高效、准确地转换成二元型(0、1)数据矩阵.利用显性分子标记ISSR和共显性分子标记SSR对野生大豆居群遗传多样性的案例分析表明,将共显性分子标记的基因型数据转换为二元型数据,有利于种质资源遗传多样性研究中不同分子标记获取的遗传多样性结果之间的比较和综合分析.     

PKS activities and biosynthesis of cannabinoids and flavonoids in Cannabis sativa L. plants

Polyketide synthase (PKS) enzymatic activities were analyzed in crude protein extracts from cannabis plant tissues. Chalcone synthase (CHS, EC 2.3.1.74), stilbene synthase (STS, EC 2.3.1.95), phlorisovalerophenone synthase (VPS, EC 2.3.1.156), isobutyrophenone synthase (BUS) and olivetol synthase activities were detected during the development and growth of glandular trichomes on bracts. Cannabinoid biosynthesis and accumulation take place in these glandular trichomes. In the biosynthesis of the first precursor of cannabinoids, olivetolic acid, a PKS could be involved; however, no activity for an olivetolic acid-forming PKS was detected. Content analyses of cannabinoids and flavonoids, two secondary metabolites present in this plant, from plant tissues revealed differences in their distribution, suggesting a diverse regulatory control for these biosynthetic fluxes in the plant.     

Development and validation of genetic markers for sex and cannabinoid chemotype in Cannabis sativa L.

Hemp (Cannabis sativa L.) is an emerging dioecious crop grown primarily for grain, fiber, and cannabinoids. There is good evidence for medicinal benefits of the most abundant cannabinoid in hemp, cannabidiol (CBD). For CBD production, female plants producing CBD but not tetrahydrocannabinol (THC) are desired. We developed and validated high‐throughput PACE (PCR Allele Competitive Extension) assays for C. sativa plant sex and cannabinoid chemotype. The sex assay was validated across a wide range of germplasm and resolved male plants from female and monoecious plants. The cannabinoid chemotype assay revealed segregation in hemp populations, and resolved plants producing predominantly THC, predominantly CBD, and roughly equal amounts of THC and CBD. Cultivar populations that were thought to be stabilized for CBD production were found to be segregating phenotypically and genotypically. Many plants predominantly producing CBD accumulated more than the current US legal limit of 0.3% THC by dry weight. These assays and data provide potentially useful tools for breeding and early selection of hemp.     

Flavonoid glycosides and cannabinoids from the pollen of Cannabis sativa L

Chemical investigation of the pollen grain collected from male plants of Cannabis sativa L. resulted in the isolation for the first time of two flavonol glycosides from the methanol extract, and the identification of 16 cannabinoids in the hexane extract. The two glycosides were identified as kaempferol 3-O-sophoroside and quercetin 3-O-sophoroside by spectroscopic methods including high-field two-dimensional NMR experiments. The characterisation of each cannabinoid was performed by GC-FID and GC-MS analyses and by comparison with both available reference cannabinoids and reported data. The identified cannabinoids were delta9-tetrahydrocannabiorcol, cannabidivarin, cannabicitran, delta9-tetrahydrocannabivarin, cannabicyclol, cannabidiol, cannabichromene, delta9-tetrahydrocannabinol, cannabigerol, cannabinol, dihydrocannabinol, cannabielsoin, 6a, 7, 10a-trihydroxytetrahydrocannabinol, 9, 10-epoxycannabitriol, 10-O-ethylcannabitriol, and 7, 8-dehydro-10-O-ethylcannabitriol.     

Neuroprotective effect of cannabidiol, a non-psychoactive component from Cannabis sativa, on beta-amyloid-induced toxicity in PC12 cells

Abstract Alzheimer's disease is widely held to be associated with oxidative stress due, in part, to the membrane action of beta-amyloid peptide aggregates. Here, we studied the effect of cannabidiol, a major non-psychoactive component of the marijuana plant (Cannabis sativa) on beta-amyloid peptide-induced toxicity in cultured rat pheocromocytoma PC12 cells. Following exposure of cells to beta-amyloid peptide (1 micro g/mL), a marked reduction in cell survival was observed. This effect was associated with increased reactive oxygen species (ROS) production and lipid peroxidation, as well as caspase 3 (a key enzyme in the apoptosis cell-signalling cascade) appearance, DNA fragmentation and increased intracellular calcium. Treatment of the cells with cannabidiol (10(-7)-10(-4)m) prior to beta-amyloid peptide exposure significantly elevated cell survival while it decreased ROS production, lipid peroxidation, caspase 3 levels, DNA fragmentation and intracellular calcium. Our results indicate that cannabidiol exerts a combination of neuroprotective, anti-oxidative and anti-apoptotic effects against beta-amyloid peptide toxicity, and that inhibition of caspase 3 appearance from its inactive precursor, pro-caspase 3, by cannabidiol is involved in the signalling pathway for this neuroprotection.     

Biotransformation of cannabinoids by a cell suspension culture of Cannabis sativa L

A cell suspension culture of Cannabis sativa L. is able to convert cannabidiol to bound cannabielsoins and delta-9 tetrahydrocannabinol to cannabicoumaronon. The localization and the mechanism of the bioconversion are discussed.Abbreviations CBD cannabidiol - CBE cannabielsoin - CBon cannabicoumaronon - EHHC hexahydrocannabinol epoxide - EtOAc ethyl acetate - FBS Fast Blue B salt - GLC gas-liquid chromatography - THC delta-9 tetrahydrocannabinol - TLC thin-layer chromatography     

Diversity among strains of Cryptococcus neoformans var. gattii as revealed by a sequence analysis of multiple genes and a chemotype analysis of capsular polysaccharide.

We demonstrated the diversity of Cryptococcus neoformans var. gattii strains by a sequence analysis of multiple genes: (i) the intergenic spacer (IGS) 1 and 2 regions of the rRNA gene; (ii) the internal transcribed spacer (ITS) region, including 5.8S of the rRNA gene; (iii) TOP1 (topoisomerase); and (iv) CAP59. In these studies, we compared C. neoformans var. gattii with varieties grubii, and neoformans of C. neoformans. Phylogenetic analysis indicated that both C. neoformans var. grubii and C neoformans var. neoformans are monophyletic, but C. neoformans var. gattii showed polyphyletic. C. neoformans var. gattii can be divided into three phylogenetic groups, I, II, and III, with high bootstrap support. Phylogenetic group I contains serotype B and C strains, and groups II and III include serotype B strains. Because the serotype B strains of C. neoformans var. gattii exhibited more genetic divergence, the serological characteristics and chemotypes of their capsular polysaccharide were further investigated. No remarkable difference among the serotype B strains was found in the reactivities to factor serum 5, which is specific for serotype B. The NMR spectra of the capsular polysaccharide from serotype B strains could be divided into three characteristic patterns, but the chemical shifts were very similar. These results suggested that the serotype B strain of C. neoformans var. gattii has more genetic diversity than the serotype C strain of C. neoformans var. gattii or the varieties grubii and neoformans of C. neoformans, but there was no correlation between genotype and chemotype.