The Cleo Roberts Center for Clinical Research, Banner Sun Health Research Institute, Sun City, Arizona, USA.
Curr Neuropharmacol. 2011 Dec;9(4):693-705. doi: 10.2174/157015911798376334.
There is an urgent need for new ways to treat Alzheimer's disease (AD), the most common cause of dementia in the elderly. Current therapies are modestly effective at treating the symptoms, and do not significantly alter the course of the disease. Over the years, a range of epidemiological and experimental studies have demonstrated interactions between diabetes mellitus and AD. As both diseases are leading causes of morbidity and mortality in the elderly and are frequent co-morbid conditions, it has raised the possibility that treating diabetes might be effective in slowing AD. This is currently being attempted with drugs such as the insulin sensitizer rosiglitazone. These two diseases share many clinical and biochemical features, such as elevated oxidative stress, vascular dysfunction, amyloidogenesis and impaired glucose metabolism suggesting common pathogenic mechanisms. The main thrust of this review will be to explore the evidence from a pathological point of view to determine whether diabetes can cause or exacerbate AD. This was supported by a number of animal models of AD that have been shown to have enhanced pathology when diabetic conditions were induced. The one drawback in linking diabetes and insulin to AD has been the postmortem studies of diabetic brains demonstrating that AD pathology was not increased; in fact decreased pathology has often been reported. In addition, diabetes induces its own distinct features of neuropathology different from AD. There are common pathological features to be considered including vascular abnormalities, a major feature arising from diabetes; there is increasing evidence that vascular abnormalities can contribute to AD. The most important common mechanism between insulin-resistant (type II) diabetes and AD could be impaired insulin signaling; a form of toxic amyloid can damage neuronal insulin receptors and affect insulin signaling and cell survival. It has even been suggested that AD could be considered as "type 3 diabetes" since insulin can be produced in brain. Another common feature of diabetes and AD are increased advanced glycation endproduct-modified proteins are found in diabetes and in the AD brain; the receptor for advanced glycation endproducts plays a prominent role in both diseases. In addition, a major role for insulin degrading enzyme in the degradation of Aβ peptide has been identified. Although clinical trials of certain types of diabetic medications for treatment of AD have been conducted, further understanding the common pathological processes of diabetes and AD are needed to determine whether these diseases share common therapeutic targets.
治疗老年痴呆症(AD)这种最常见的老年痴呆症的方法迫在眉睫。目前的治疗方法对治疗症状有一定的效果,但不能显著改变疾病的进程。多年来,一系列流行病学和实验研究表明糖尿病与 AD 之间存在相互作用。由于这两种疾病都是老年人发病率和死亡率的主要原因,并且经常同时发生,因此人们认为治疗糖尿病可能有助于减缓 AD 的发展。目前正在使用胰岛素增敏剂罗格列酮等药物进行尝试。这两种疾病具有许多临床和生化特征,例如氧化应激升高、血管功能障碍、淀粉样蛋白形成和葡萄糖代谢受损,表明存在共同的发病机制。本综述的主要重点将从病理学角度探讨证据,以确定糖尿病是否会导致或加重 AD。这得到了一些 AD 动物模型的支持,这些模型表明,当诱导糖尿病时,病理会增强。将糖尿病和胰岛素与 AD 联系起来的一个缺点是对糖尿病大脑的死后研究表明,AD 病理没有增加;实际上,经常报告减少的病理。此外,糖尿病会引起自身不同于 AD 的独特神经病理学特征。有一些共同的病理特征需要考虑,包括血管异常,这是糖尿病的一个主要特征;越来越多的证据表明,血管异常可能导致 AD。胰岛素抵抗(2 型)糖尿病和 AD 之间最重要的共同机制可能是胰岛素信号受损;一种有毒的淀粉样蛋白形式可以损害神经元胰岛素受体并影响胰岛素信号和细胞存活。甚至有人认为,由于大脑中可以产生胰岛素,因此 AD 可以被视为“3 型糖尿病”。糖尿病和 AD 的另一个共同特征是在糖尿病和 AD 大脑中发现了高级糖基化终产物修饰蛋白的增加;高级糖基化终产物受体在这两种疾病中都起着突出的作用。此外,已经确定胰岛素降解酶在 Aβ肽的降解中起主要作用。尽管已经对某些类型的糖尿病药物进行了治疗 AD 的临床试验,但需要进一步了解糖尿病和 AD 的共同病理过程,以确定这两种疾病是否具有共同的治疗靶点。
