Laboratory of Molecular Pathophysiology, Mood and Anxiety Disorders Program, National Institute of Mental Health, 49 Convent Dr., Bethesda, MD 20892-4405, USA.
World Psychiatry. 2003 Oct;2(3):136-46.
Clinical studies over the past decades have attempted to uncover the biological factors mediating the pathophysiology of bipolar disorder (BD) utilizing a variety of biochemical and neuroendocrine strategies. Indeed, assessments of cerebrospinal fluid chemistry, neuroendocrine responses to pharmacological challenge, and neuroreceptor and transporter binding have demonstrated a number of abnormalities in the amine neurotransmitter systems in this disorder. However, recent studies have also implicated critical signal transduction pathways as being integral to the pathophysiology and treatment of BD, in addition to a growing body of data suggesting that impairments of neuroplasticity and cellular resilience may also underlie the pathophysiology of the disorder. It is thus noteworthy that mood stabilizers and antidepressants indirectly regulate a number of factors involved in cell survival pathways - including MAP kinases, CREB, BDNF and bcl-2 protein - and may thus bring about some of their delayed long-term beneficial effects via underappreciated neurotrophic effects.
过去几十年来的临床研究试图利用各种生化和神经内分泌策略揭示双相障碍(BD)病理生理学的生物学因素。事实上,对脑脊液化学、药物挑战的神经内分泌反应以及神经受体和转运体结合的评估表明,这种疾病的胺能神经递质系统存在许多异常。然而,最近的研究也表明,关键信号转导途径对于 BD 的病理生理学和治疗至关重要,此外,越来越多的证据表明,神经可塑性和细胞弹性的损伤也可能是该疾病病理生理学的基础。因此值得注意的是,心境稳定剂和抗抑郁药间接调节涉及细胞存活途径的许多因素——包括 MAP 激酶、CREB、BDNF 和 bcl-2 蛋白——因此可能通过未被充分认识的神经营养作用带来一些延迟的长期有益效果。