Aspirin, brain, and cancer
阿司匹林、大脑和癌症
by Raymond Peat
When a drug such as caffeine or aspirin turns out to have a great variety of protective effects, it's important to understand what it's doing.
当咖啡因或阿司匹林等药物被证明具有各种各样的保护作用时,了解它的作用是很重要的。
Because aspirin has been abused by pharmaceutical companies that have competing products to sell, as well as by the original efforts to promote aspirin itself, people can easily find reasons why they shouldn't take it.
由于有竞争产品出售的制药公司滥用阿司匹林,以及最初推销阿司匹林本身的努力,人们很容易找到不应该服用它的理由。
Early in the 20th century, people were told that fevers were very bad, and that aspirin should be used whenever there is a fever.
In the 1980s, there was a big publicity campaign warning parents that giving aspirin to a child with the flu could cause the potentially deadly Reye syndrome. Aspirin sales declined sharply, as sales of acetaminophen (Tylenol, etc.) increased tremendously. But in Australia, a study of Reye syndrome cases found that six times as many of them had been using acetaminophen as had used aspirin. (Orlowski, et al., 1987)
在20世纪早期,人们被告知发烧是很严重的,只要发烧就应该服用阿司匹林。
在20世纪80年代,曾有一场大规模的宣传活动警告父母,给患流感的孩子服用阿司匹林可能会导致潜在的致命雷氏综合征。阿司匹林的销量急剧下降,而扑热息痛(泰诺等)的销量却大幅增长。但在澳大利亚,一项对雷氏综合征病例的研究发现,使用对乙酰氨基酚的患者是使用阿司匹林的6倍。(Orlowski等,1987)
Until the 1950s and 1960s, when new products were being promoted, little was said about the possibility of stomach ulceration from aspirin. Lately, there has been more publicity about the damage it can do to the stomach and intestine, much of it in connection with the sale of the new “COX-2 inhibitors.” (These new drugs, rather than protecting the circulatory system as aspirin does, damage it.) Aspirin rapidly breaks down into acetic acid and salicylic acid (which is found in many fruits), and salicylic acid is protective to the stomach and intestine, and other organs. When aspirin was compared with the other common antiinflammatory drugs, it was found that the salicylic acid it releases protects against the damage done by another drug. (Takeuchi, et al, 2001; Ligumsky, et al., 1985.) Repeated use of aspirin protects the stomach against very strong irritants. The experiments in which aspirin produces stomach ulcers are designed to produce ulcers, not to realistically model the way aspirin is used.
直到20世纪50年代和60年代,当新产品被推广时,很少有人说阿司匹林可能导致胃溃疡。最近,关于它对胃和肠的损害有了更多的宣传,这在很大程度上与新型“COX-2抑制剂”的销售有关。(这些新药不像阿司匹林那样保护循环系统,而是破坏循环系统。)阿司匹林能迅速分解成醋酸和水杨酸(许多水果中都有),水杨酸对胃、肠和其他器官有保护作用。当将阿司匹林与其他常见的抗炎药物进行比较时,人们发现它释放的水杨酸可以保护阿司匹林免受其他药物造成的损害。(Takeuchi等,2001;Ligumsky等人,1985年。)反复服用阿司匹林可以保护胃不受强烈的刺激。阿司匹林产生胃溃疡的实验是为了产生溃疡而设计的,而不是真实地模拟阿司匹林的使用方式。
Recently, the public has been led to believe that drugs are being designed to fit certain cellular “receptors.” The history of the “COX-2 inhibitors” is instructive, in a perverse way. The structures of DES and other synthetic estrogens were said to relate to “the estrogen receptor.” Making these estrogenic molecules more soluble in water made them somewhat anti-estrogenic, leading to products such as Tamoxifen. But some of the molecules in this group were found to be antiinflammatory. The structure of Celecoxib and other “COX-2 inhibitors” is remarkably similar to the “designer estrogens.” Considering this, it's a little odd that so few in the U.S. are openly discussing the possibility that estrogen's function is directly related to inflammation, and involves the production of many inflammatory mediators, including COX-2. (See Lerner, et al., 1975; Luo, et al., 2001; Cushman, et al, 2001; Wu, et al., 2000; Herrington, et al., 2001.)
最近,公众开始相信药物是为了适应特定的细胞“受体”而设计的。“COX-2抑制剂”的历史以一种反常的方式具有指导意义。DES和其他合成雌激素的结构据说与“雌激素受体”有关。使这些雌激素分子更容易溶于水,使它们具有抗雌激素作用,从而产生了它莫西芬(Tamoxifen)等产品。但这一组中的一些分子被发现是抗炎的。塞来昔布和其他COX-2抑制剂的结构与“设计雌激素”非常相似。考虑到这一点,有点奇怪的是,在美国很少有人公开讨论雌激素的功能与炎症直接相关的可能性,并涉及许多炎症介质的产生,包括COX-2。
Soot and smoke contain many chemicals that produce inflammation (Brune, et al., 1978). In the 1930s, soot was known to be both carcinogenic and estrogenic, and analysis of its components led to the production of the early commercial estrogens. Any intelligent person reading the chemical and biological publications of that time will see how closely associated cancer, inflammation, and estrogen are.
煤烟和烟雾含有许多能引起炎症的化学物质(Brune等,1978年)。在20世纪30年代,烟灰被认为是致癌物质和雌激素,对其成分的分析导致了早期商业雌激素的生产。任何一个聪明的人,只要阅读了当时的化学和生物出版物,就会发现癌症、炎症和雌激素之间的联系是多么紧密。
Soon after vitamin E was discovered, tocopherol was defined as a brain-protective, pregnancy protective, male fertility protective, antithrombotic, antiestrogenic agent. But very soon, the estrogen industry made it impossible to present ideas that explained vitamin E, progesterone, vitamin A, or thyroid hormone in terms of the protection they provide against estrogenic substances. Since the polyunsaturated fats caused the same conditions that were caused by unopposed estrogen, vitamin E came to be known as an “antioxidant,” because it reduced their toxicity. (Vitamin E is now known to suppress COX-2, synergizing with aspirin and opposing estrogen.)
维生素E被发现后不久,生育酚就被定义为一种保护大脑,怀孕保护,男性生育保护,抗血栓,抗雌激素的药物。但很快,雌激素产业就无法解释维生素E,黄体酮,维生素A或甲状腺激素对雌激素物质的保护作用。由于多不饱和脂肪引起的情况与雌激素引起的情况相同,维生素E被称为“抗氧化剂”,因为它降低了它们的毒性。(现在已知维生素E能抑制COX-2,与阿司匹林协同作用,对抗雌激素。)
In 1970, when I was beginning to see the ways in which unopposed estrogen and accumulated polyunsaturated fats interacted with a vitamin E deficiency during aging and in infertility, I got some prostaglandins to experiment with, since they are products of the oxidation of linoleic acid. The prostaglandins are an interesting link between estrogens and inflammation, in normal physiology as well as in disease.
1970年,当我开始发现在衰老和不孕症过程中,非对抗雌激素和积累的多不饱和脂肪与维生素E缺乏相互作用的方式时,我得到了一些前列腺素来做实验,因为它们是亚油酸氧化的产物。前列腺素是雌激素和炎症之间有趣的联系,在正常生理和疾病中都是如此。
I wanted to test their effects on the uterus, especially the sites where the embryos implant. There was a theory that the electrical charge of the surface of the uterus was decreased at the implantation sites, to reduce the repulsion between two negatively charged things. Although there were regions of lower surface charge along the lining of the uterus, the charge changed as waves of muscle contraction moved along the uterus, and the prostaglandins affected the contractions.
我想测试它们对子宫的影响,尤其是胚胎植入的部位。有一种理论认为子宫表面的电荷在着床处减少,以减少两个带负电荷的物体之间的排斥。虽然子宫内膜有较低表面电荷区,但电荷随肌肉收缩波沿子宫移动而改变,前列腺素影响收缩。
To understand the differences between the different types of prostaglandin, I tested them on my arm, and those with the most hydroxyl groups produced regions with an increased negative charge. For comparison, I exposed another spot to sunlight for an hour, and found that there was a similar increase in the negative charge in that spot. Apparently the prostaglandins were causing an injury or excitation, a mild inflammation, in the skin cells.
为了了解不同类型的前列腺素之间的区别,我在我的手臂上测试了它们,那些羟基最多的会产生负电荷增加的区域。作为比较,我把另一个点暴露在阳光下一小时,发现在那个点有类似的负电荷增加。显然,前列腺素引起了皮肤细胞的损伤或兴奋,一种轻微的炎症。
A few years later, aspirin was found to inactivate the enzyme that forms prostaglandins, by the transfer of the acetyl radical to the enzyme. This became the orthodox “explanation” for what aspirin does, though it neglected to explain that salicylic acid (lacking the acetyl radical) had been widely known in the previous century for its very useful antiinflammatory actions. The new theory did explain (at least to the satisfaction of editors of medical magazines) one of aspirin's effects, but it distracted attention from all the other effects of aspirin and salicylic acid.
几年后,人们发现阿司匹林通过将乙酰基转移到酶上而使形成前列腺素的酶失活。这成为阿司匹林作用的正统“解释”,尽管它忽视了水杨酸(缺乏乙酰基)在上个世纪因其非常有用的抗炎作用而广为人知。这个新理论确实解释了(至少让医学杂志的编辑满意)阿司匹林的一种作用,但它分散了人们对阿司匹林和水杨酸的其他作用的注意力。
Aspirin is an antioxidant that protects against lipid peroxidation, but it also stimulates mitochondrial respiration. It can inhibit abnormal cell division, but promote normal cell division. It can facilitate learning, while preventing excitotoxic nerve injury. It reduces clotting, but it can decrease excessive menstrual bleeding. These, and many other strangely beneficial effects of aspirin, strongly suggest that it is acting on very basic biological processes, in a coherent way.
阿司匹林是一种抗氧化剂,可以防止脂质过氧化,但它也能刺激线粒体呼吸。它能抑制异常细胞分裂,但能促进正常细胞分裂。它可以促进学习,同时防止兴奋毒性神经损伤。它可以减少凝血,但可以减少月经过多出血。这些,以及阿司匹林的许多其他奇怪的有益作用,强烈地表明它以一种连贯的方式,在非常基本的生物过程中起作用。
In explaining aspirin's effects, as in explaining those of estrogen and progesterone, or polyunsaturated fats and vitamin E, I think we need concepts of a very broad sort, such as “stability and instability.”
The COX (cyclooxygenase) enzymes, that make prostaglandins, are just one system among many that are activated by stress. Aromatase, that makes estrogen, enzymes that make histamine, serotonin and nitric oxide, the cytokines, and the stress-induced hormones of the pituitary and adrenal glands, are turned on in difficult situations, and have to be turned off when the threat has been overcome. The production of energy is the basis for overcoming all threats, and it has to be conserved in readiness for future needs.
在解释阿司匹林的作用时,就像解释雌激素和黄体酮,或多不饱和脂肪和维生素E的作用一样,我认为我们需要一个非常宽泛的概念,比如“稳定性和不稳定性”。
制造前列腺素的COX(环氧合酶)酶只是许多被压力激活的系统中的一个。制造雌激素的芳香化酶、制造组胺、血清素和一氧化氮的酶、细胞因子以及垂体和肾上腺的应激激素的酶,在困难的情况下会启动,当威胁被克服时就必须关闭。能源的生产是克服所有威胁的基础,必须加以保护,以便为将来的需要做好准备。
The fetus produces saturated fats such as palmitic acid, and the monounsaturated fat, oleic acid, which can be turned into the Mead acid, ETrA (5,8,11-eicosatrienoic acid), and its derivatives, which are antiinflammatory, and some of which act on the “bliss receptor,” or the cannibinoid receptor. In the adult, tissues such as cartilage, which are protected by their structure or composition from the entry of exogenous fats, contain the Mead acid despite the presence of linoleic acid in the blood.
胎儿产生棕榈酸等饱和脂肪和不饱和脂肪,油酸,可以变成了米德酸,ETrA (5 8 11-一种叫二十碳三烯酸的pufa)及其衍生物,抗炎,和其中的一些行为上的“幸福受体”或大麻素受体。在成人中,尽管血液中存在亚油酸,但软骨等组织仍含有米德酸,这些组织的结构或组成受到外源性脂肪的保护。
At birth, the baby's mitochondria contain a phospholipid, cardiolipin, containing palmitic acid, but as the baby eats foods containing polyunsaturated fatty acids, the palmitic acid in cardiolipin is replaced by the unsaturated fats. As the cardiolipin becomes more unsaturated, it becomes less stable, and less able to support the activity of the crucial respiratory enzyme, cytochrome oxidase.
The respiratory activity of the mitochondria declines as the polyunsaturated oils replace palmitic acid, and this change corresponds to the life-long decline of the person's metabolic rate.
In old age, a person's life expectancy strongly depends on the amount of oxygen that can be used. When the mitochondria can't use oxygen vigorously, cells must depend on inefficient glycolysis for their energy.
出生时,婴儿的线粒体中含有一种磷脂,即心磷脂,它含有软脂酸,但随着婴儿食用含有多不饱和脂肪酸的食物,心磷脂中的软脂酸被不饱和脂肪所取代。当心磷脂变得更加不饱和时,它就变得不稳定,并且不能支持至关重要的呼吸酶——细胞色素氧化酶的活动。
线粒体的呼吸活动随着多不饱和油脂取代棕榈酸而下降,这种变化与人代谢率的终生下降相对应。
在老年,一个人的寿命很大程度上取决于可用的氧气量。当线粒体不能充分利用氧气时,细胞必须依赖低效的糖酵解来获取能量。
Estrogen activates the glycolytic pathway, while interfering with mitochondrial respiration. This resembles the aged or stressed metabolism, in which lactic acid is produced instead of carbon dioxide.
雌激素激活糖酵解途径,同时干扰线粒体呼吸。这类似于衰老或压力代谢,在此过程中产生的是乳酸而不是二氧化碳。
Aspirin activates both glycolysis and mitochondrial respiration, and this means that it shifts the mitochondria away from the oxidation of fats, toward the oxidation of glucose, resulting in the increased production of carbon dioxide. Its action on the glycolytic enzyme, GAPDH, is the opposite of estrogen's.
阿司匹林同时激活糖酵解和线粒体呼吸,这意味着它将线粒体从脂肪的氧化转移到葡萄糖的氧化,从而增加二氧化碳的产生。它对糖酵解酶GAPDH的作用与雌激素相反。
The shift away from fat oxidation under the influence of aspirin doesn't lead to an accumulation of free fatty acids in the circulation, since aspirin inhibits the release of fatty acids from both phospholipids and triglycerides. Estrogen has the opposite effects, increasing fat oxidation while increasing the level of circulating free fatty acids, since it activates lipolysis, as do several other stress-related hormones.
由于阿司匹林抑制了磷脂和甘油三酯中脂肪酸的释放,在阿司匹林的影响下,脂肪氧化的转变不会导致循环中自由脂肪酸的积累。雌激素有相反的作用,在增加循环中的游离脂肪酸水平的同时,也增加了脂肪的氧化,因为它和其他一些与压力相关的激素一样,会激活脂肪分解。
The polyunsaturated fatty acids, such as linolenic, linoleic, arachidonic, EPA, and DHA, have many directly toxic, antirespiratory actions, apart from the production of the prostaglandins or eicosanoids. Just by preventing the release of these fatty acids, aspirin would have broadly antiinflammatory effects.
多不饱和脂肪酸,如亚麻酸、亚油酸、花生四烯酸、EPA和DHA,除了产生前列腺素或二十烷酸外,还有许多直接的毒性和抗呼吸作用。仅仅通过阻止这些脂肪酸的释放,阿司匹林就有广泛的抗炎作用。
Since the polyunsaturated fats and prostaglandins stimulate the expression of aromatase, the enzyme that synthesizes estrogen, aspirin decreases the production of estrogen. So many of aspirin's effects oppose those of estrogen, it would be tempting to suggest that its “basic action” is the suppression of estrogen. But I think it's more likely that both estrogen and aspirin are acting on some basic processes, in approximately opposite ways.
由于多不饱和脂肪和前列腺素刺激合成雌激素的芳香化酶的表达,阿司匹林减少了雌激素的产生。阿司匹林的许多作用与雌激素的作用相反,因此人们很容易认为它的“基本作用”是抑制雌激素。但我认为更有可能的是雌激素和阿司匹林都在一些基本的过程中起作用,以几乎相反的方式。
Bioelectrical functions, and the opposition between carbon dioxide and lactic acid, and the way water is handled in cells, are basic conditions that have a general or global effect on all of the other more specific biochemical and physiological processes. Originally, estrogen and progesterone were each thought to affect only one or a few biochemical events, but it has turned out that each has a multitude of different biochemical actions, which are integrated in globally meaningful ways. The salicylic acid molecule is much smaller and simpler than progesterone, but the range of its beneficial effects is similar. Because of aspirin's medical antiquity, there has been no inclination to explain its actions in terms of an “aspirin receptor,” as for valium and the opiates, leaving its biochemistry, except for the inadequate idea of COX-inhibition, simply unexplained.
生物电功能,二氧化碳和乳酸之间的对立,以及水在细胞中的处理方式,都是基本条件,对所有其他更具体的生化和生理过程具有普遍或全面的影响。最初,雌激素和黄体酮都被认为只影响一个或几个生化事件,但事实证明,它们都有大量不同的生化作用,并以具有全球意义的方式整合在一起。水杨酸分子比孕酮小得多,也简单得多,但其有益作用的范围是相似的。由于阿司匹林在医学上的古老,没有倾向于用“阿司匹林受体”来解释它的作用,至于安定和阿片类药物,这使得它的生物化学,除了cox抑制的不充分的想法,根本无法解释。
If we didn't eat linoleic acid and the other so-called “essential fatty acids,” we would produce large amounts of the “Mead acid,” n-9 eicosatrienoic acid, and its derivatives. This acid in itself is antiinflammatory, and its derivatives have a variety of antistress actions. The universal toxicity of the polyunsaturated fats that suppress the Mead fats as they accumulate, and the remarkable vitality of the animals that live on a diet deficient in the essential fatty acids, indicate that the Mead fats are important factors in the stability of our mammalian tissues. This protective lipid system probably interacts with cellular proteins, modifying the way they bind water and carbon dioxide and ions, affecting their electrons and their chemical reactivity.
如果我们不吃亚油酸和其他所谓的“必需脂肪酸”,我们就会产生大量的“米德酸”,n-9二十碳三烯酸及其衍生物。这种酸本身是抗炎的,它的衍生物有多种抗应激作用。多不饱和脂肪的普遍毒性抑制了Mead脂肪的积累,以及在缺乏必需脂肪酸的饮食中生活的动物的显著活力,表明Mead脂肪是我们哺乳动物组织稳定的重要因素。这种保护脂质系统可能与细胞蛋白质相互作用,改变它们与水、二氧化碳和离子结合的方式,影响它们的电子和化学反应性。
If salicylic acid and the structurally similar antiinflammatories, local anesthetics, muscle relaxants, expectorants, and antihistamines, act as surrogates for the absent Mead acid family, and thereby act as defenses against all the toxic effects of the unstable fats, it would explain the breadth and apparent coherence of their usefulness. And at the same time it explains some of the ways that estrogen goes out of control, when it exacerbates the toxicity of the accumulated unstable fats.
如果水杨酸和结构类似的抗炎,局部麻醉剂,肌肉松弛剂,祛痰剂,抗组胺药,充当代孕母亲的缺席米德酸家庭,从而作为防御的毒性作用不稳定的脂肪,它可以解释其效用的广度和明显的一致性。同时,它解释了雌激素失控的一些方式,当它加剧累积的不稳定脂肪的毒性时。
The competition between aspirin and salicylic acid, and other antiinflammatories, for the active site on the COX enzyme (Rao, et al., 1982), shows that the structural features of these molecules are in some ways analogous to those of the polyunsaturated fatty acids. Wherever there are phospholipids, free fatty acids, fatty acid esters, ethers, etc. (i.e., in mitochondria, chromosomes, cytoskeleton, collagen networks–essentially everywhere in and around the cell), the regulatory influence of specific fatty acids–or their surrogates–will be felt.
阿司匹林和水杨酸以及其他抗炎药对COX酶活性位点的竞争(Rao等人,1982)表明,这些分子的结构特征在某些方面类似于多不饱和脂肪酸。只要有磷脂、游离脂肪酸、脂肪酸酯、醚等(例如,在线粒体、染色体、细胞骨架、胶原蛋白网络中——基本上在细胞内部和周围的任何地方),就会感受到特定脂肪酸或它们的替代品的调节影响。
Although it would undoubtedly be best to grow up eating foods with relatively saturated fats, the use of aspirin preventively and therapeutically seems very reasonable under the present circumstances, in which, for example, clean and well ripened fruits are not generally available in abundance. Preventing blindness, degenerative brain diseases, heart and lung diseases, and cancer with aspirin should get as much support as the crazy public health recommendations are now getting from government and foundations and the medical businesses.
尽管在成长过程中食用相对饱和脂肪的食物无疑是最好的,但在目前的情况下,预防和治疗方面使用阿司匹林似乎是非常合理的,例如,清洁和成熟的水果通常不是很多。用阿司匹林预防失明、退化性脑疾病、心肺疾病和癌症应该得到和政府、基金会和医疗企业疯狂的公共健康建议一样多的支持。
When people with cancer ask for my recommendations, they usually think I'm joking when I tell them to use aspirin, and very often they don't take it, on the basis of what seems to be a very strong cultural prejudice. Several years ago, a woman whose doctors said it would be impossible to operate on her extremely painful “inflammatory breast cancer,” had overnight complete relief of the pain and swelling from taking a few aspirins. The recognized anti-metastatic effect of aspirin, and its ability to inhibit the development of new blood vessels that would support the tumor's growth, make it an appropriate drug to use for pain control, even if it doesn't shrink the tumor. In studies of many kinds of tumor, though, it does cause regression, or at least slows tumor growth. And it protects against many of the systemic consequences of cancer, including wasting (cachexia), immunosuppression, and strokes.
当癌症患者询问我的建议时,当我告诉他们使用阿司匹林时,他们通常认为我在开玩笑,他们通常不服用,这似乎是基于一种非常强烈的文化偏见。几年前,一名妇女因服用几片阿斯匹林,一夜之间疼痛和肿胀完全缓解,医生说她的“炎性乳腺癌”极其痛苦,不可能动手术。公认的阿司匹林的抗转移作用,以及它抑制支持肿瘤生长的新血管的生长的能力,使它成为一种用于控制疼痛的合适药物,即使它不能使肿瘤缩小。然而,在对多种肿瘤的研究中,它确实会导致衰退,或至少减缓肿瘤的生长。它还能预防癌症的许多系统性后果,包括消瘦(恶病质)、免疫抑制和中风。
Opiates are the standard medical prescription for pain control in cancer, but they are usually prescribed in inadequate quantities, “to prevent addiction.” Biologically, they are the most inappropriate means of pain control, since they increase the release of histamine, which synergizes with the tumor-derived factors to suppress immunity and stimulate tumor growth.
It has recently become standard practice in most places to advise a person who is having a heart attack to immediately chew and swallow an aspirin tablet.
阿片类药物是控制癌症患者疼痛的标准医疗处方,但通常处方数量不足,“以防止上瘾”。生物学上,它们是最不合适的疼痛控制手段,因为它们增加了组胺的释放,而组胺与肿瘤衍生因子协同抑制免疫和刺激肿瘤生长。
最近,在大多数地方,建议心脏病发作的人立即咀嚼并吞下一片阿司匹林片已成为标准做法。
The same better-late-than-never philosophy can be applied to Alzheimer's disease, Parkinson's disease, and other degenerative nerve diseases. Aspirin protects against several kinds of toxicity, including excitotoxicity (glutamate), dopamine toxicity, and oxidative free radical toxicity. Since its effects on the mitochondria are similar to those of thyroid (T3), using both of them might improve brain energy production more than just thyroid. (By activating T3, aspirin can sometimes increase the temperature and pulse rate.) Magnesium, niacinamide, and other nerve protective substances work together.
同样的“晚到总比不到好”的理论也适用于阿尔茨海默病、帕金森病和其他神经退行性疾病。阿司匹林可以抵抗多种毒性,包括兴奋性毒性(谷氨酸)、多巴胺毒性和氧化性自由基毒性。由于它对线粒体的影响与甲状腺(T3)相似,使用两者可能比仅仅使用甲状腺更能提高大脑能量生产。(通过激活T3,阿司匹林有时会增加体温和脉搏。)镁、烟酰胺和其他神经保护物质共同作用。
In multiple organ failure, which can be caused by profound shock caused by trauma, infection, or other stress, aspirin is often helpful, but carbon dioxide and hypertonic glucose and sodium are more important.
在由创伤、感染或其他压力引起的严重休克引起的多器官衰竭中,阿司匹林通常是有帮助的,但二氧化碳、高渗葡萄糖和钠更重要。
Aspirin, like progesterone or vitamin E, can improve fertility, by suppressing a prostaglandin, and improving uterine circulation.
Although the animal studies that showed stomach damage from aspirin often used single doses equivalent to 10 or 100 aspirin tablets, the slight irritation produced by a normal dose of aspirin can be minimized by dissolving the aspirin in water. The stomach develops a tolerance for aspirin over a period of a few days, allowing the dose to be increased if necessary. And both aspirin and salicylic acid can be absorbed through the skin, so rheumatic problems have been treated by adding the drug to bath water.
阿司匹林,像孕酮或维生素E一样,可以通过抑制前列腺素和改善子宫循环来提高生育能力。
虽然动物研究表明阿司匹林对胃的损害通常是使用相当于10或100片阿司匹林片的单剂量,但通过将阿司匹林溶解在水中,可以将正常剂量阿司匹林产生的轻微刺激降到最低。胃会在几天内对阿司匹林产生耐受性,必要时可以增加剂量。阿司匹林和水杨酸都可以被皮肤吸收,所以风湿病的治疗方法是在洗澡水中加入这种药物。
The unsaturated (n-6 and n-3) fats that accumulate in our tissues, instead of being part of the system for reestablishing order and stability, tend to amplify the instability that is triggered by excitation, by estrogen, or by external stresses.
不饱和脂肪(n-6和n-3)在我们的组织中积累,而不是重建秩序和稳定的系统的一部分,倾向于放大由兴奋、雌激素或外部压力触发的不稳定性。
I think it's important that we don't allow the drug publicists to obscure the broad importance of substances such as aspirin, vitamin E, progesterone, and thyroid. For 60 years, a myth that was created to sell estrogen has harmed both science and the health of many people.
我认为重要的是,我们不允许药品宣传人员掩盖阿司匹林、维生素E、孕酮和甲状腺等物质的广泛重要性。60年来,一个为推销雌激素而创造的神话损害了科学和许多人的健康。
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Since the 1970s, aspirin has been thought of as an inhibitor of prostaglandin synthesis, but that is only part of its effect. Sometimes its effect is the opposite of the effects of other prostaglandin inhibitors.
It protects against the harmful effects of estrogen, prolactin, serotonin, cortisol, histamine, and radiation (u.v., x-rays, gamma rays).
It prevents cancer, and can cause its regression. It inhibits vascular proliferation. It inhibits interleukin 6 (and other inflammatory cytokines), which is a factor in heart disease and breast and liver cancer.
It protects the brain, and can improve learning. It's an antioxidant, prevents cataracts, and protects against glycation in diabetes.
It prevents premature birth and prevents birth defects caused by diabetes, preeclampsia, and exposure to alcohol. It prevents recurrence of neural tube defects and protects against many of the gestational problems associated with lupus.
Although aspirin protects against uncontrolled cell proliferation, as in cancer and psoriasis, salicylic acid increases normal cell division in the skin.
Aspirin protects against many forms of shock and stess, and corrects imbalances in the nervous system.
It protects against several kinds of toxins involved in brain degeneration.
“Aspirin elevated ATP levels not only in intact cortical neurons but also in isolated brain mitochondria, an effect concomitant with an increase in NADH-dependent respiration by brain submitochondrial particles.”
De Cristobal, et al., 2002
“The pharmacological action of salicylate cannot be explained by its inhibition of cyclooxygenase (COX) activity.” “. . . salicylate exerts its antiinflammatory action in part by suppressing COX-2 induction. . . .” XM Xu, et al., 1999
http://raypeat.com/articles/aging/aspirin-brain-cancer.shtml
阿司匹林、脑和癌症
当咖啡因或阿司匹林等药物证明具有多种保护作用时,了解其作用很重要。
由于阿司匹林已被有竞争产品要销售的制药公司滥用,以及最初宣传阿司匹林本身的努力,人们很容易找到不应该服用的理由。
20世纪初,人们被告知发烧很严重,只要发烧就应该服用阿司匹林。
在 1980 年代,有一场大型宣传活动警告孩子父母,给患有流感的孩子服用阿司匹林,可能会导致潜在的致命的雷氏综合征。由于对乙酰氨基酚(泰诺等)的销量大幅增加,阿司匹林的销量急剧下降。但在澳大利亚,一项对雷氏综合征病例的研究发现,其中使用对乙酰氨基酚的人数是使用阿司匹林的六倍。(Orlowski 等人,1987 年)
直到 1950 年代和 1960 年代,当新产品被推广时,很少提及关于阿司匹林可能导致胃溃疡。最近,关于阿司匹林可能对胃和肠道造成的损害的宣传越来越多,其中大部分与新的“COX-2抑制剂”的销售有关。(这些新药不会像阿司匹林那样保护循环系统,反而会损害循环系统。)阿司匹林会迅速分解成乙酸和水杨酸(存在于许多水果中),水杨酸对胃肠及其他器官有保护作用。当将阿司匹林与其他常见的抗炎药进行比较时,发现释放的水杨酸可以防止另一种药物造成的损害。(Takeuchi 等人,2001 年;Ligumsky 等人,1985 年。) 重复使用阿司匹林可以保护胃免受强烈刺激。阿司匹林产生胃溃疡的实验旨在产生溃疡,而不是真实地模拟阿司匹林的使用方式。
最近,公众被引导相信药物被设计成适合某些细胞“受体”。“COX-2抑制剂”的历史以一种反常的方式具有指导意义。据说DES和其他合成雌激素的结构与“雌激素受体”有关。使这些雌激素分子更易溶于水,使其在一定程度上具有抗雌激素作用,从而产生了他莫昔芬/Tamoxifen等产品。但其中的一些分子被发现具有抗炎作用。塞来昔布/Celecoxib和其他“COX-2 抑制剂”的结构与“设计雌激素”非常相似。考虑到这一点,美国很少有人公开讨论雌激素的功能与炎症直接相关的可能性,这有点奇怪,涉及许多炎症介质的产生,包括 COX-2。(参见 Lerner 等人,1975;Luo 等人,2001;Cushman 等人,2001;Wu 等人,2000;Herrington 等人,2001。)
烟灰和烟雾中含有许多会引起炎症的化学物质(Brune 等人,1978 年)。在 1930 年代,煤烟被认为具有致癌性和雌激素性,其成分的分析导致了早期商业雌激素的生产。任何阅读当时化学和生物学出版物的聪明人都会看到癌症、炎症和雌激素之间的密切关系。
VE 被发现后不久,生育酚被定义为脑保护剂、妊娠保护剂、男性生育保护剂、抗血栓剂、抗雌激素剂。但很快,雌激素行业就无法提出解释VE、黄体酮、VA 或甲状腺激素对雌激素物质的保护作用的观点。由于多不饱和脂肪会引起与雌激素相同的情况,因此VE 被称为“抗氧化剂”,因为降低了它们的毒性。(现在已知维生素 E 可以抑制 COX-2,与阿司匹林协同作用并对抗雌激素。)
1970 年,当我开始看到在衰老和不孕症过程中无对抗的雌激素和积累的多不饱和脂肪与VE 缺乏症相互作用的方式时,我得到了一些前列腺素进行试验,因为这些是亚油酸氧化的产物。在正常生理和疾病中,前列腺素是雌激素和炎症之间有趣的联系。
我想测试它们对子宫的影响,尤其是胚胎植入的部位。有一种理论认为,子宫表面的电荷在着床位减少,以减少两个负电体之间的排斥力。尽管沿着子宫内膜存在较低表面电荷的区域,但随着肌肉收缩波沿子宫移动,电荷会发生变化,前列腺素会影响收缩。
为了了解不同类型的前列腺素之间的差异,我在手臂上进行了测试,羟基最多的人产生了负电荷增加的区域。作为比较,我将另一个点暴露在阳光下一个小时,发现那个点的负电荷也有类似的增加。显然,前列腺素在皮肤细胞中引起了损伤或兴奋,这是一种轻微的炎症。
几年后,阿司匹林被发现通过将乙酰基转移到酶上来使形成前列腺素的酶失活。这成为阿司匹林作用的正统“解释”,尽管这忽略了解释水杨酸(缺乏乙酰基)在上个世纪因其非常有用的抗炎作用而广为人知。新理论确实解释了(至少令医学杂志编辑满意的解释)阿司匹林的一种作用,但分散了对阿司匹林和水杨酸所有其他作用的注意力。
阿司匹林是一种抗氧化剂,可以防止脂质过氧化,但也能刺激线粒体呼吸。可以抑制异常细胞分裂,促进正常细胞分裂。可以促进学习,同时防止兴奋性神经损伤。可以减少凝血,也可以减少过多的月经出血。这些及许多其他奇怪的有益作用,强烈表明阿司匹林以一种连贯的方式在非常基本的生物过程中起作用。
在解释阿司匹林的作用时,就像解释雌激素和黄体酮,或多不饱和脂肪和VE 的作用一样,我认为我们需要一个非常广泛的概念,例如“稳定性和非稳定性”。
制造前列腺素的 COX(环加氧)酶只是众多被压力激活的系统之一。制造雌激素的芳香酶、制造组胺、血清素和一氧化氮、细胞因子以及脑垂体和肾上腺的应激诱导激素的酶,在困境下会被打开,在威胁解除后必须关闭。能量生产是克服所有威胁的基础,必须保存起来以备来日所需。
胎儿产生饱和脂肪如棕榈酸,单不饱和脂肪如油酸,可转化为米德酸、ETrA(5,8,11-二十碳三烯酸)及其衍生物,具有抗炎作用,还有一些作用于“幸福受体”或大麻素受体。在成人中,尽管血液中存在亚油酸,但结构或成分受外源性脂肪保护的组织如软骨,仍含有米德酸。
婴儿出生时线粒体中含有一种磷脂,即心磷脂,其中含有棕榈酸,但随着婴儿食用含有多不饱和脂肪酸的食物,心磷脂中的棕榈酸会被不饱和脂肪所取代。随着心磷脂变得更加不饱和,变得不太稳定,不太能够支持关键的呼吸酶,细胞色素氧化酶的活性。
随着多不饱和油取代棕榈酸,线粒体的呼吸活动下降,这种变化对应于人一生中的代谢率下降。
老年人的预期寿命很大程度上取决于可以使用的氧气量。当线粒体不能大量使用氧气时,细胞必须依靠低效的糖酵解来获取能量。
雌激素激活糖酵解途径,同时干扰线粒体呼吸。这类似于老化、或压力过大的代谢,其中产生乳酸,而不是二氧化碳。
阿司匹林激活糖酵解和线粒体呼吸,意味着将线粒体从脂肪氧化转移为葡萄糖的氧化,导致二氧化碳产生增加,对糖酵解酶 (GAPDH) 的作用与雌激素相反。
在阿司匹林的影响下,脂肪氧化的转移不会导致循环中游离脂肪酸的积累,因为阿司匹林会抑制脂肪酸从磷脂和甘油三酯中的释放。雌激素具有相反的作用,增加脂肪氧化,同时增加循环游离脂肪酸的水平,因为激活脂肪分解,其他几种与压力相关的激素也是如此。
除了产生前列腺素或类花生酸外,多不饱和脂肪酸,如亚麻酸、亚油酸、花生四烯酸、EPA 和 DHA,具有许多直接的毒性、抗呼吸作用。仅仅通过阻止这些脂肪酸的释放,阿司匹林就会具有广泛的抗炎作用。
由于多不饱和脂肪和前列腺素刺激芳香酶(合成雌激素的酶)的表达,阿司匹林会减少雌激素的产生。阿司匹林的许多作用与雌激素相反,很容易暗示其“基本作用”是抑制雌激素。但我认为雌激素和阿司匹林更有可能以大致相反的方式作用于某些基本过程。
生物电功能,二氧化碳和乳酸之间的对立,以及细胞水的处理方式,是对所有其他更具体的生化和生理过程具有普遍或全局影响的基本条件。最初,雌激素和黄体酮都被认为只影响一种或几种生化事件,但事实证明,每一种都具有多种不同的生化作用,以具有全局意义的方式整合在一起。水杨酸分子比黄体酮更小更简单,但其有益作用的范围是相似的。由于阿司匹林的医学历史悠久,一直没有用“阿司匹林受体”来解释其作用的意向,至于安定和阿片类药物的生化机制,除了COX抑制剂非完整的概念,简直无法解释。
如果不吃亚油酸和其他所谓的“必需脂肪酸”,身体会产生大量的“米德酸”(欧9 二十碳三烯酸及其衍生物)。这种酸本身具有抗炎作用,其衍生物具有多种抗应激作用。多不饱和脂肪的普遍毒性会抑制米德酸的积累,食物缺乏必需脂肪酸的动物的生命力显著,表明米德酸是哺乳动物组织稳定性的重要因素. 这种保护性脂质系统可能与细胞蛋白相互作用,改变其结合水、二氧化碳和离子的方式,影响电子和化学反应性。
如果水杨酸和结构相似的抗炎剂、局部麻醉剂、肌肉松弛剂、祛痰剂和抗组胺剂,作为缺失的米德酸家族的替代品,从而作为对不稳定脂肪的所有毒性作用的防御,可以解释其作用的广度和明显连贯性,同时解释了当加剧积累的不稳定脂肪的毒性时雌激素失控的一些方式。
阿司匹林和水杨酸,以及其他抗炎药对 COX 酶活性位点的竞争(Rao 等人,1982),表明这些分子的结构特征在某些方面类似于多不饱和脂肪酸的结构特征. 无论磷脂、游离脂肪酸、脂肪酸酯、醚等(即在线粒体、染色体、细胞框架、胶原网络中——基本上在细胞内部和外围的任何地方),特定脂肪酸及其代理的调节影响会被感受到。
毫无疑问,虽然成长后后食用相对饱和脂肪的食物最好,但在目前情况下,例如通常不能大量获得干净和成熟的水果的情况下,预防性和治疗性地使用阿司匹林似乎是非常合理的。用阿司匹林预防失明、退行性脑部疾病、心脏和肺部疾病以及癌症,应该得到像现在政府、基金会和医药行业疯狂公卫建议一样多的支持。
当癌症患者询问我的建议时,我告知使用阿司匹林,他们通常认为我在开玩笑,他们通常不接受,基于似乎非常强烈的文化偏见。几年前有位女性,医生对她极度痛苦的“炎症性乳腺癌”无法手术,她因服用几片阿司匹林,而在一夜之间完全缓解了疼痛和肿胀。公认的阿司匹林抗转移作用,抑制促癌的新血管生成能力,使其成为控制疼痛的合适药物,即使不会缩小肿瘤。然而,在对多种肿瘤的研究中,确实会导致消退,或者至少减缓肿瘤的生长。还能预防癌症的许多系统性后果,包括消瘦(恶病质)、免疫抑制和中风。
阿片类药物是控制癌症疼痛的标准医学处方,但处方量通常不足,“要防止成瘾”。从生物学上讲,这是最不合适的疼痛控制手段,因为会增加组胺的释放,组胺与肿瘤衍生因子协同抑制免疫,刺激肿瘤生长。
最近,建议心脏病发作的人立即咀嚼并吞下阿司匹林片剂,已成为大多数地方的标准做法。
同样的,迟到总比没到更好的哲学,可以应用于阿尔茨海默病、帕金森病和其他退行性神经疾病。阿司匹林可防止多种毒性,包括兴奋性毒性(谷氨酸)、多巴胺毒性和氧化性自由基的毒性。由于阿司匹林对线粒体的影响与甲状腺 (T3) 的影响相似,因此使用这两种方法可能会改善大脑能量的产生,而不是只用甲状腺(通过激活 T3,阿司匹林有时可以提高体温和心率)。镁、烟酰胺和其他神经保护物质共同起作用。
在由创伤、感染或其他压力引起的严重休克引起的多器官衰竭中,阿司匹林通常有帮助,但二氧化碳和高渗葡萄糖和钠更重要。
阿司匹林与黄体酮或 VE 一样,可以通过抑制前列腺素和改善子宫循环来提高生育能力。
虽然动物研究表明阿司匹林对胃的损害,通常使用相当于 10 或 100 片阿司匹林片剂的单剂量,但通过将阿司匹林溶解在水中,可以将正常剂量的阿司匹林产生的轻微刺激降至最低。胃在几天内对阿司匹林产生耐受性,必要时可以增加剂量。阿司匹林和水杨酸都可以通过皮肤吸收,因此通过将药添加到洗澡水中来治疗风湿问题。
不饱和脂肪(欧6 和 欧3)在身体组织中积累,而不是重建立有序和稳定系统的一部分,倾向于放大兴奋、雌激素或外部压力引发的不稳定性。
我认为重要的是,不允许药物宣传掩盖阿司匹林、VE、黄体酮和甲状腺等物质的广泛重要性。60 年来,为了雌激素销售创造的神话一直违背科学和损害大众健康。
阿司匹林、脑和癌症
当咖啡因或阿司匹林等药物证明具有多种保护作用时,了解其作用很重要。
由于阿司匹林已被有竞争产品要销售的制药公司滥用,以及最初宣传阿司匹林本身的努力,人们很容易找到不应该服用的理由。
20世纪初,人们被告知发烧很严重,只要发烧就应该服用阿司匹林。
在 1980 年代,有一场大型宣传活动警告孩子父母,给患有流感的孩子服用阿司匹林,可能会导致潜在的致命的雷氏综合征。由于对乙酰氨基酚(泰诺等)的销量大幅增加,阿司匹林的销量急剧下降。但在澳大利亚,一项对雷氏综合征病例的研究发现,其中使用对乙酰氨基酚的人数是使用阿司匹林的六倍。(Orlowski 等人,1987 年)
直到 1950 年代和 1960 年代,当新产品被推广时,很少提及关于阿司匹林可能导致胃溃疡。最近,关于阿司匹林可能对胃和肠道造成的损害的宣传越来越多,其中大部分与新的“COX-2抑制剂”的销售有关。(这些新药不会像阿司匹林那样保护循环系统,反而会损害循环系统。)阿司匹林会迅速分解成乙酸和水杨酸(存在于许多水果中),水杨酸对胃肠及其他器官有保护作用。当将阿司匹林与其他常见的抗炎药进行比较时,发现释放的水杨酸可以防止另一种药物造成的损害。(Takeuchi 等人,2001 年;Ligumsky 等人,1985 年。) 重复使用阿司匹林可以保护胃免受强烈刺激。阿司匹林产生胃溃疡的实验旨在产生溃疡,而不是真实地模拟阿司匹林的使用方式。
最近,公众被引导相信药物被设计成适合某些细胞“受体”。“COX-2抑制剂”的历史以一种反常的方式具有指导意义。据说DES和其他合成雌激素的结构与“雌激素受体”有关。使这些雌激素分子更易溶于水,使其在一定程度上具有抗雌激素作用,从而产生了他莫昔芬/Tamoxifen等产品。但其中的一些分子被发现具有抗炎作用。塞来昔布/Celecoxib和其他“COX-2 抑制剂”的结构与“设计雌激素”非常相似。考虑到这一点,美国很少有人公开讨论雌激素的功能与炎症直接相关的可能性,这有点奇怪,涉及许多炎症介质的产生,包括 COX-2。(参见 Lerner 等人,1975;Luo 等人,2001;Cushman 等人,2001;Wu 等人,2000;Herrington 等人,2001。)
烟灰和烟雾中含有许多会引起炎症的化学物质(Brune 等人,1978 年)。在 1930 年代,煤烟被认为具有致癌性和雌激素性,其成分的分析导致了早期商业雌激素的生产。任何阅读当时化学和生物学出版物的聪明人都会看到癌症、炎症和雌激素之间的密切关系。
VE 被发现后不久,生育酚被定义为脑保护剂、妊娠保护剂、男性生育保护剂、抗血栓剂、抗雌激素剂。但很快,雌激素行业就无法提出解释VE、黄体酮、VA 或甲状腺激素对雌激素物质的保护作用的观点。由于多不饱和脂肪会引起与雌激素相同的情况,因此VE 被称为“抗氧化剂”,因为降低了它们的毒性。(现在已知维生素 E 可以抑制 COX-2,与阿司匹林协同作用并对抗雌激素。)
1970 年,当我开始看到在衰老和不孕症过程中无对抗的雌激素和积累的多不饱和脂肪与VE 缺乏症相互作用的方式时,我得到了一些前列腺素进行试验,因为这些是亚油酸氧化的产物。在正常生理和疾病中,前列腺素是雌激素和炎症之间有趣的联系。
我想测试它们对子宫的影响,尤其是胚胎植入的部位。有一种理论认为,子宫表面的电荷在植入部位减少,以减少两个带负电的物体之间的排斥力。尽管沿着子宫内膜存在较低表面电荷的区域,但随着肌肉收缩波沿子宫移动,电荷会发生变化,并且前列腺素会影响收缩。
为了了解不同类型前列腺素之间的差异,我在手臂上进行了测试,羟基最多的人产生了负电荷增加的区域。作为比较,我将另一个点暴露在阳光下一个小时,发现那个点的负电荷也有类似的增加。显然,前列腺素在皮肤细胞中引起了损伤或兴奋,一种轻微的炎症。
几年后,人们发现阿司匹林通过将乙酰基转移到酶上来使形成前列腺素的酶失活。这成为阿司匹林作用的正统“解释”,尽管它忽略了解释水杨酸(缺乏乙酰基)在上个世纪因其非常有用的抗炎作用而广为人知。新理论确实解释了(至少令医学杂志编辑满意)阿司匹林的一种作用,但它分散了人们对阿司匹林和水杨酸所有其他作用的注意力。
阿司匹林是一种抗氧化剂,可以防止脂质过氧化,但它也能刺激线粒体呼吸。它可以抑制异常细胞分裂,但促进正常细胞分裂。它可以促进学习,同时防止兴奋性神经损伤。它可以减少凝血,但可以减少过多的月经出血。阿司匹林的这些,以及许多其他奇怪的有益作用,强烈表明它以一种连贯的方式作用于非常基本的生物过程。
在解释阿司匹林的作用时,就像解释雌激素和黄体酮,或多不饱和脂肪和维生素 E 的作用一样,我认为我们需要一个非常广泛的概念,例如“稳定性和不稳定性”。
制造前列腺素的 COX(环加氧酶)酶只是众多被压力激活的系统之一。制造雌激素的芳香酶、制造组胺、血清素和一氧化氮的酶、细胞因子以及脑垂体和肾上腺的应激诱导激素,在困难的情况下会被打开,而在威胁解除后必须关闭。克服。能源的生产是克服所有威胁的基础,它必须保存起来以备将来需要。
胎儿产生饱和脂肪如棕榈酸,单不饱和脂肪油酸可转化为米德酸、ETrA(5,8,11-二十碳三烯酸)及其衍生物,具有抗炎作用,还有一些它作用于“幸福受体”或大麻素受体。在成人中,尽管血液中存在亚油酸,但受其结构或成分保护免受外源性脂肪进入的软骨等组织仍含有米德酸。
出生时,婴儿的线粒体中含有一种磷脂,即心磷脂,其中含有棕榈酸,但随着婴儿食用含有多不饱和脂肪酸的食物,心磷脂中的棕榈酸会被不饱和脂肪所取代。随着心磷脂变得更加不饱和,它变得不太稳定,并且不太能够支持关键的呼吸酶细胞色素氧化酶的活性。
随着多不饱和油取代棕榈酸,线粒体的呼吸活动下降,这种变化对应于人的新陈代谢率终生下降。
在老年时,一个人的预期寿命很大程度上取决于可以使用的氧气量。当线粒体不能大量使用氧气时,细胞必须依靠低效的糖酵解来获取能量。
雌激素激活糖酵解途径,同时干扰线粒体呼吸。这类似于老化或压力过大的新陈代谢,其中产生乳酸而不是二氧化碳。
阿司匹林激活糖酵解和线粒体呼吸,这意味着它将线粒体从脂肪的氧化转移到葡萄糖的氧化,导致二氧化碳的产生增加。它对糖酵解酶 GAPDH 的作用与雌激素相反。
在阿司匹林的影响下,脂肪氧化的转变不会导致循环中游离脂肪酸的积累,因为阿司匹林会抑制脂肪酸从磷脂和甘油三酯中的释放。雌激素具有相反的作用,增加脂肪氧化,同时增加循环游离脂肪酸的水平,因为它激活脂肪分解,其他几种与压力相关的激素也是如此。
除了产生前列腺素或类花生酸外,多不饱和脂肪酸,如亚麻酸、亚油酸、花生四烯酸、EPA 和 DHA,具有许多直接的毒性、抗呼吸作用。仅仅通过阻止这些脂肪酸的释放,阿司匹林就会具有广泛的抗炎作用。
由于多不饱和脂肪和前列腺素刺激芳香酶(合成雌激素的酶)的表达,阿司匹林会减少雌激素的产生。阿司匹林的许多作用与雌激素相反,很容易暗示它的“基本作用”是抑制雌激素。但我认为雌激素和阿司匹林更有可能以大致相反的方式作用于某些基本过程。
生物电功能,二氧化碳和乳酸之间的对立,以及水在细胞中的处理方式,是对所有其他更具体的生化和生理过程具有普遍或全局影响的基本条件。最初,雌激素和黄体酮都被认为只影响一种或几种生化事件,但事实证明,每一种都具有多种不同的生化作用,它们以具有全球意义的方式整合在一起。水杨酸分子比黄体酮更小更简单,但其有益作用的范围是相似的。由于阿司匹林的医学历史悠久,一直没有用“阿司匹林受体”来解释其作用的倾向,至于安定和阿片类药物,只留下其生物化学,
如果我们不吃亚油酸和其他所谓的“必需脂肪酸”,我们会产生大量的“米德酸”、n-9 二十碳三烯酸及其衍生物。这种酸本身具有抗炎作用,其衍生物具有多种抗应激作用。多不饱和脂肪的普遍毒性会抑制蜂蜜酒脂肪的积累,以及以缺乏必需脂肪酸为食的动物的显着活力,这表明蜂蜜酒脂肪是我们哺乳动物组织稳定性的重要因素. 这种保护性脂质系统可能与细胞蛋白相互作用,改变它们结合水、二氧化碳和离子的方式,影响它们的电子和化学反应性。
如果水杨酸和结构相似的抗炎剂、局部麻醉剂、肌肉松弛剂、祛痰剂和抗组胺剂,作为缺失的米德酸家族的替代品,从而作为对不稳定脂肪的所有毒性作用的防御,它可以解释广度以及它们的用处的明显连贯性。同时它解释了雌激素失控的一些方式,当它加剧了积累的不稳定脂肪的毒性时。
阿司匹林和水杨酸以及其他抗炎药对 COX 酶活性位点的竞争(Rao 等人,1982)表明这些分子的结构特征在某些方面类似于多不饱和脂肪酸的结构特征. 无论哪里有磷脂、游离脂肪酸、脂肪酸酯、醚等(即在线粒体、染色体、细胞骨架、胶原网络中——基本上在细胞内部和周围的任何地方),特定脂肪酸的调节影响——或他们的代理人——将被感觉到。
虽然毫无疑问,长大后食用脂肪含量相对较高的食物是最好的,但在目前情况下,预防性和治疗性使用阿司匹林似乎是非常合理的,例如,通常不能大量获得干净和成熟的水果。用阿司匹林预防失明、退行性脑部疾病、心脏和肺部疾病以及癌症应该得到政府、基金会和医疗企业疯狂的公共卫生建议的支持。
当癌症患者询问我的建议时,当我告诉他们使用阿司匹林时,他们通常认为我在开玩笑,而且他们通常不接受,基于似乎非常强烈的文化偏见。几年前,一位医生说无法对她极度痛苦的“炎症性乳腺癌”进行手术的女性,因服用几片阿司匹林而在一夜之间完全缓解了疼痛和肿胀。阿司匹林公认的抗转移作用,以及抑制支持肿瘤生长的新血管发育的能力,使其成为控制疼痛的合适药物,即使它不会缩小肿瘤。然而,在对多种肿瘤的研究中,它确实会导致消退,或者至少减缓肿瘤的生长。
阿片类药物是控制癌症疼痛的标准医学处方,但它们的处方量通常不足,“以防止成瘾”。从生物学上讲,它们是最不合适的疼痛控制手段,因为它们会增加组胺的释放,与肿瘤衍生因子协同抑制免疫并刺激肿瘤生长。
最近,建议心脏病发作的人立即咀嚼并吞下阿司匹林片剂已成为大多数地方的标准做法。
同样的迟到总比没有好的哲学可以应用于阿尔茨海默病、帕金森病和其他退行性神经疾病。阿司匹林可防止多种毒性,包括兴奋性毒性(谷氨酸)、多巴胺毒性和氧化自由基毒性。由于它对线粒体的影响与甲状腺 (T3) 的影响相似,因此使用这两种方法可能会改善大脑能量的产生,而不仅仅是甲状腺。(通过激活 T3,阿司匹林有时可以提高体温和脉搏。)镁、烟酰胺和其他神经保护物质共同作用。
在由创伤、感染或其他压力引起的严重休克引起的多器官衰竭中,阿司匹林通常有帮助,但二氧化碳和高渗葡萄糖和钠更重要。
阿司匹林与黄体酮或维生素 E 一样,可以通过抑制前列腺素和改善子宫循环来提高生育能力。
虽然动物研究表明阿司匹林对胃的损害通常使用相当于 10 或 100 片阿司匹林片剂的单剂量,但通过将阿司匹林溶解在水中,可以将正常剂量的阿司匹林产生的轻微刺激降至最低。胃在几天内对阿司匹林产生耐受性,必要时可以增加剂量。并且阿司匹林和水杨酸都可以通过皮肤吸收,因此通过将药物添加到洗澡水中来治疗风湿问题。
不饱和(n-6 和 n-3)脂肪在我们的组织中积累,而不是重新建立秩序和稳定性系统的一部分,往往会放大由兴奋、雌激素或外部压力引发的不稳定性。
我认为重要的是,我们不允许药物宣传员掩盖阿司匹林、维生素 E、黄体酮和甲状腺等物质的广泛重要性。60 年来,为销售雌激素而创造的神话损害了科学和许多人的健康。
参考
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J Natl Cancer Inst 1998 年 3 月 18 日;90(6):455-60。环氧合酶1和环氧合酶2在人乳腺癌中的表达。Hwang D, Scollard D, Byrne J, Levine E “我们的研究结果表明,COX 的过度表达可能不是结肠癌独有的,可能是其他上皮肿瘤的共同特征。”
Ginekol Pol 1999 年 3 月;70(3):126-34。[评估低剂量阿司匹林治疗宫内发育迟缓(IUGR)的有效性]。Kalinka J, Sieroszewski P, Hanke W, Laudanski T, Suzin J
J Cardiovasc Pharmacol 1995 年 2 月;25(2):273-81。阿司匹林对小型猪动脉球囊损伤后冠状动脉对自体物质的高反应性的抑制作用。Kuga T、Ohara Y、Shimokawa H、Ibayashi S、Tomoike H、Takeshita A.“在 29 只高胆固醇血症小型猪球囊损伤前、1 小时、1 周和 1 个月之前,通过血管造影检查了组胺和血清素诱导的冠状血管收缩。” “B组和C组伤后1小时自体分泌物引起的过度收缩明显低于A组(p < 0.01)。B组伤后1周自体物质引起的过度收缩显着低于A组(p < 0.01) ) 且 C 组显着低于 A 组 (p < 0.01) 或 B 组 (p < 0.05)。”
Proc Soc Exp Biol Med 1975 年 2 月;148(2):329-32。抗炎活性与抑制非甾体抗雌激素和雌激素的前列腺素合成活性的相关性(38532)。勒纳 EJ、Carminati P、Schiatti P.
Proc Soc Exp Biol Med 1985 年 2 月;178(2):250-3。水杨酸阻断吲哚美辛诱导的大鼠胃粘膜中的环氧合酶抑制和损伤形成。Ligumsky M, Guth PH, Elashoff J, Kauffman GL Jr, Hansen D, Paulsen G。
Z Naturforsch [C] 2001 年 5 月至 6 月;56(5-6):455-63。雌激素处理的雄性大鼠前列腺和下尿路中 cyclooxygenase-2 基因的恒定表达。 罗 C、施特劳斯 L、Ristimaki A、Streng T、Santti R.
神经药理学 2000 年 4 月 27 日;39(7):1309-18。阿司匹林在大鼠前脑切片缺氧和缺糖后的神经保护作用机制。Moro MA, De Alba J, Cardenas A, De Cristobal J, Leza JC, Lizasoain I, Diaz-Guerra MJ, Bosca L, Lorenzo P “除了由于其抗血栓特性而对中风采取预防措施外,文献中的最新数据表明高浓度的 ASA 也会发挥直接的神经保护作用。” “我们发现 ASA 在低于先前报道的浓度(0.1-0.5 mM)时抑制神经元损伤,并且这些作用与抑制兴奋性氨基酸释放、NF-kappaB 易位至细胞核和 iNOS 表达相关作为一个。” “我们的研究结果还表明,ASA 的作用与 COX 抑制无关。综合起来,
儿科 1987 年 11 月;80(5):638-42。雷耶河中的一个陷阱。Orlowski JP、Gillis J、Kilham HA。
前列腺素Leukot Med 1982 年 7 月;9(1):109-15。 对乙酰氨基酚和水杨酸盐对阿司匹林诱导的人血小板环加氧酶抑制的影响。Rao GH、Reddy KR、White JG。“最近的研究表明,水杨酸是阿司匹林的一种代谢产物,可以有效地竞争血小板环氧合酶的同一位点。”
中风 1997 年 10 月;28(10):2006-11。乙酰水杨酸增加对缺氧和化学缺氧的耐受性。Riepe MW, Kasischke K, Raupach A.
癌症研究 1998 年 12 月 1 日;58(23):5354-60。乙酰水杨酸和 NS-398 在 A/J 小鼠中预防 NNK 诱导的肺肿瘤发生。Rioux N, Castonguay A
内分泌杂志 1989 年 6 月;121(3):513-9。消炎痛抑制雌激素 在大鼠垂体前叶中的作用。Rosental DG,Machiavelli GA,Chernavsky AC,Speziale NS,Burdman JA。
Int J Cancer 2001 年 8 月 15 日;93(4):497-506。 环氧合酶抑制剂通过减少肿瘤细胞迁移、侵袭和血管生成来延缓小鼠乳腺肿瘤的进展。Rozic JG,Chakraborty C,拉拉PK。
Res Commun Mol Pathol Pharmacol 1998 年 9 月;101(3):259-68。乙酰水杨酸(阿司匹林)在 J774A.1 巨噬细胞中清除辐射诱导自由基的保护能力。Saini T、Bagchi M、Bagchi D、Jaeger S、Hosoyama S、Stohs SJ。
分子细胞生物化学 1999 年 9 月;199(1-2):93-102。 阿司匹林的抗氧化特性:表征阿司匹林抑制二氧化硅诱导的脂质过氧化、DNA 损伤、NF-kappaB 活化和 TNF-α 产生的能力。Shi X, Ding M, Dong Z, Chen F, Ye J, Wang S, Leonard SS, Castranova V, Valyathan V
J Physiol Paris 2001 Jan-Dec;95(1-6):51-7。阿司匹林对吲哚美辛诱导的大鼠小肠损伤的保护作用:水杨酸介导。Takeuchi K、Hase S、Mizoguchi H、Komoike Y、Tanaka A.“除阿司匹林 (ASA) 外,大多数非甾体抗炎药 (NSAID) 都会对大鼠产生肠道损伤。” “尽管抑制(前列腺素)PG 的产生,但 ASA 并没有引起任何损害,并且以剂量相关的方式防止了吲哚美辛诱导的肠道损伤的发生。”
FASEB J 2001 年 10 月;15(12):2057-72。环氧合酶 抑制剂的不依赖环氧合酶的作用。Tegeder I, Pfeilschifter J, Geisslinger G.
J Indian Med Assoc 1997 年 2 月;95(2):43-4, 47.低剂量阿司匹林在预防妊娠高血压症中的作用。Tewari S, Kaushish R, Sharma S, Gulati N
J Chromatogr B Biomed Appl 1995 年 7 月 21 日;669(2):404-7。Aspirin 抑制胶原蛋白诱导的血小板血清素释放,这是通过微孔高效液相色谱和电化学检测来测量的。蔡TH,蔡WJ,陈CF。
Clin Exp Immunol 1991 年 11 月;86(2):315-21。吡罗昔康、消炎痛和阿司匹林对小鼠纤维肉瘤的作用。对肿瘤相关和腹腔巨噬细胞的影响。Valdez JC, Perdigon G. “我们还研究了三种前列腺素合成抑制剂对肿瘤发展的影响:消炎痛、吡罗昔康和阿司匹林。这些药物在 8 天后腹膜内给药,随后可触及的肿瘤消退。消炎痛(90 mg/ d) 诱导 45% 的消退,而吡罗昔康(2 次 400 mg/d 剂量和 6 次 200 mg/d 剂量)和阿司匹林(1 mg/d)分别观察到 32% 和 30% 的消退。在治疗结束时达到不同体积的肿瘤被三种抗炎非甾体药物(NSAID)延迟到类似程度。”
Int J Radiat Biol 1995 年 5 月;67(5):587-96。乙酰水杨酸改善放射性肾病。Verheij M、Stewart FA、Oussoren Y、Weening JJ、Dewit L.
Semin Perinatol 1986 年 10 月;10(4):334-55。花生四烯酸代谢物在先兆子痫中的作用。Walsh SW,帕里西 VM。
Proc Natl Acad Sci USA 1999 年 4 月 27 日;96(9):5292-7。阿司匹林和水杨酸钠对诱导型环氧合酶 2 基因转录的抑制。Xu XM, Sansores-Garcia L, Chen XM, Matijevic-Aleksic N, Du M, Wu KK. “治疗浓度的阿司匹林和水杨酸钠等效阻断由 IL-1beta 和佛波醇 12-肉豆蔻酸酯 13-乙酸盐诱导的 COX-2 mRNA 和蛋白质水平。”
Hum Reprod 1994 年 10 月;9(10):1954-7。低剂量阿司匹林治疗对辅助受孕期间子宫灌注受损的女性的益处。 Wada I,Hsu CC,Williams G,Macnamee MC,Brinsden PR。“从 HRT 第 1 天开始服用阿司匹林的人妊娠率更高(47% 对 17%)。” “在子宫灌注受损妇女的标准 HRT 方案中添加低剂量阿司匹林与改善血流和令人满意的妊娠率有关。”
J Ethnopharmacol 1991 年 9 月;34(2-3):215-9。五种中药和乙酰水杨酸在大剂量γ射线照射后的辐射防护和血小板聚集抑制作用。 王HF,李XD,陈YM,袁LB,Foye WO。
Fertil Steril 1997 年 11 月;68(5):927-30。低剂量阿司匹林用于子宫内膜薄的卵母细胞捐赠受者:前瞻性随机研究。Weckstein LN, Jacobson A, Galen D, Hampton K, Hammel J. “低剂量阿司匹林治疗可提高子宫内膜薄的卵母细胞捐赠受者的着床率。”
皮肤病学 1978;156(2):89-96。外用水杨酸对动物表皮生成的影响。Weirich EG、Longauer JK、Kirkwood AH。与对表皮病理性增殖的抗增生作用相反,水杨酸促进正常豚鼠皮肤的表皮生成。在丙酮-乙醇中加入 1% w/w 水杨酸 4 周后,表层上皮的厚度增加了 40%,深层上皮的厚度增加了 19%。有丝分裂指数上升了 17%。
Arch Exp 兽医 1981;35(3):465-70。[通过口服前列腺素合成酶抑制剂控制大鼠和母猪着床。2. 前列腺素 F2 α、孕酮/雌酮和乙酰水杨酸对大鼠羊水着床和各种生化参数的影响] Wollenhaupt K, Steger H.“正常发育的最高数(97%)和最低数与对照组(91% 和 9%)相比,乙酰水杨酸处理后记录了退化胎儿的百分比(3%)。”
Biomed Pharmacother 1999 年 8 月;53(7):315-8。阿司匹林诱导胃癌细胞凋亡。Wong BC, 朱 GH, Lam SK
Scand J Immunol 2000 年 10 月;52(4):393-400。Tamoxifen 可减少自身免疫性 NZB/W F1 小鼠的肾脏炎症并减轻疾病严重程度。Wu WM, Lin BF, Su YC, Suen JL, Chiang BL. “据记载,性激素可能在鼠狼疮的发病机制中发挥作用。”
科学 2001 年 8 月 31 日;293(5535):1673-7。用水杨酸盐或靶向破坏 Ikkbeta 逆转肥胖和饮食诱导的胰岛素抵抗。元 M,康斯坦托普洛斯 N,李 J,汉森 L,李 ZW,卡琳 M,肖尔森 SE。
自 1970 年代以来,阿司匹林一直被认为是前列腺素合成的抑制剂,但这只是其作用的一部分。有时其作用与其他前列腺素抑制剂的作用相反。
它可以防止雌激素、催乳素、血清素、皮质醇、组胺和辐射(紫外线、X 射线、伽马射线)的有害影响。
它可以预防癌症,可能导致其退化。它抑制血管增生。它抑制白细胞介素 6(和其他炎症细胞因子),白细胞介素 6 是心脏病、乳腺癌和肝癌的一个因素。
它可以保护大脑,并可以改善学习。它是一种抗氧化剂,可预防白内障,并防止糖尿病中的糖化。
它可以防止早产并防止由糖尿病、先兆子痫和接触酒精引起的出生缺陷。它可以防止神经管缺陷的复发,并防止许多与狼疮相关的妊娠问题。
尽管阿司匹林可以防止不受控制的细胞增殖,如癌症和牛皮癣,但水杨酸会增加皮肤中的正常细胞分裂。
阿司匹林可防止多种形式的休克和压力,并纠正神经系统的失衡。
它可以防止多种与脑退化有关的毒素。
“阿司匹林不仅在完整的皮层神经元中提高了 ATP 水平,而且在分离的脑线粒体中也提高了 ATP 水平,这种效应伴随着脑亚线粒体颗粒的 NADH 依赖性呼吸增加。”
德克里斯托瓦尔等人,2002 年
“水杨酸盐的药理作用不能用它对环氧合酶 (COX) 活性的抑制来解释。” “……水杨酸盐通过抑制 COX-2 诱导发挥其抗炎作用……” XM Xu, et al., 1999
