AgResearch Ltd. Ruakura Research Centre, Private Bag 3123, Hamilton, 3240, New Zealand.
AgResearch Ltd. Ruakura Research Centre, Private Bag 3123, Hamilton, 3240, New Zealand.
Toxicon. 2022 Jul 30;214:30-36. doi: 10.1016/j.toxicon.2022.04.019. Epub 2022 May 4.
Epichloë endophytes in grass associations express a myriad of secondary metabolites which can affect the health of grazing animals and reduce the impact of insect pests on pasture. The ideal endophyte-grass association must have a favourable chemical profile such that the impact on animal health is minimised while the beneficial, deterrent effect on insect pests is maximised. A number of endophyte-perennial ryegrass associations have been successfully commercialised but research is on-going to further improve production in farming systems. Secondary metabolites expressed by endophyte-infected tall fescue include lolines, an animal-safe class of compound which imparts a potent effect on insects. Since endophyte-infected perennial ryegrass does not express lolines, a tall fescue endophyte, AR501, was inoculated into perennial ryegrass in an attempt to improve the insect resistance of this pasture type. In addition to animal safety, it is imperative that consideration is given to the safety of humans consuming animal products derived from livestock grazing the novel pasture. Although pure loline alkaloids have previously been tested on mice it is essential that the entire AR501 endophyte-infected perennial ryegrass matrix is tested since this will result in the exposure of both known and unknown secondary metabolites to mice. Three treatment groups each containing 6 male and 6 female mice were fed diets containing AR501 endophyte-infected perennial ryegrass seed (30%), perennial ryegrass seed containing no endophyte (30%) or a diet without seed (control) for 3 weeks. Mice fed control diet ate more than either of the treatment groups fed a diet containing seed. Male mice fed diet containing Nil endophyte seed ate more than those eating AR501 endophyte-infected perennial ryegrass seed although there was no difference observed in the food intake of female mice. While a few statistically significant differences were observed in the haematology and serum biochemical data, in every instance the difference was restricted to only one gender so is considered unlikely to be of toxicological significance. Mice fed AR501 endophyte-infected perennial ryegrass seed remained healthy throughout the experimental period despite consuming 62,000 mg/kg lolines and 4600 mg/kg peramine per day as well as the wide array of other unknown secondary metabolites expressed by this endophyte. Although animal products may contain additional metabolites as a result of animal metabolism, this experiment raises no food safety concerns for AR501 endophyte-infected perennial ryegrass.
内生真菌在草类植物中的共生体表达了无数的次生代谢产物,这些代谢产物可以影响放牧动物的健康,并减少害虫对牧场的影响。理想的内生真菌-草类植物共生体必须具有有利的化学特性,使动物健康的负面影响最小化,同时最大限度地提高对害虫的有益威慑作用。已经成功商业化了一些内生真菌-黑麦草的共生体,但研究仍在继续,以进一步提高农业系统中的产量。内生真菌感染的高羊茅中表达的次生代谢产物包括麦角灵,这是一类对动物安全的化合物,对昆虫有很强的作用。由于内生真菌感染的多年生黑麦草不表达麦角灵,因此接种了 AR501 内生真菌到多年生黑麦草中,试图提高这种牧草类型的抗虫性。除了动物安全之外,还必须考虑到食用源自放牧这种新型牧场的牲畜的动物产品的人类的安全。虽然以前已经在老鼠身上测试了纯麦角灵生物碱,但必须测试整个 AR501 内生真菌感染的多年生黑麦草基质,因为这将导致老鼠接触到已知和未知的次生代谢产物。每组 6 只雄性和 6 只雌性老鼠分别喂食含有 AR501 内生真菌感染的多年生黑麦草草种(30%)、不含内生真菌的多年生黑麦草草种(30%)或不含草种的对照饮食(对照)3 周。喂食对照饮食的老鼠比喂食含草种饮食的两组老鼠吃得都多。喂食不含内生真菌草种的雄性老鼠比喂食 AR501 内生真菌感染的多年生黑麦草草种的老鼠吃得更多,尽管雌性老鼠的食物摄入量没有差异。尽管在血液学和血清生化数据中观察到一些统计学上的显著差异,但在每种情况下,这种差异仅局限于一种性别,因此不太可能具有毒理学意义。尽管老鼠每天摄入 62000mg/kg 的麦角灵和 4600mg/kg 的佩拉明以及这种内生真菌表达的其他许多未知的次生代谢产物,但喂食 AR501 内生真菌感染的多年生黑麦草草种的老鼠在整个实验期间保持健康。尽管动物产品可能因动物代谢而含有其他代谢物,但该实验并未对 AR501 内生真菌感染的多年生黑麦草提出食品安全问题。
