Fuchs Bryan C, Bode Barrie P
Department of Biology, Saint Louis University, St. Louis, MO 63103-2010, USA.
J Surg Res. 2006 Mar;131(1):26-40. doi: 10.1016/j.jss.2005.07.013. Epub 2005 Sep 8.
The amino acid glutamine (GLN) has received considerable attention as a potential therapeutic adjuvant in critical illness and in improving postoperative clinical outcomes. Most studies on the role of GLN in cellular physiology have historically focused on its anabolic roles in specific cell types and its contribution to growth in cancer cells. However, an emerging body of work that examines the consequences of GLN deprivation on cellular survival and gene expression has constructed a new paradigm for this amino acid, namely, that limited extracellular GLN supplies modulate stress and apoptotic responses.
A survey of the scientific literature was conducted on GLN in cell survival signaling and apoptosis. Work from our laboratory in liver cancer cells also was included in this review.
Most studies on this topic have used mammalian cell lines derived from the gut, immune system (including hybridomas), and various cancers. GLN limitation, even in the presence of an adequate glucose supply, impacts stress-related gene expression, differentially modulates receptor-mediated apoptosis, and directly elicits apoptosis through signaling mechanisms and caspase cascades that are specific to cell type. To date, GLN transporters, cellular hydration, glutaminyl-tRNA synthetase, ATP levels, mRNA stability, and glutathione economy have been variably implicated in GLN-dependent survival signaling.
The cell type-specific mechanisms underlying the regulatory role of GLN in cell survival continue to unfold at a steady pace through in vitro studies. These results have collectively provided testable hypotheses for further in vivo studies into their physiological relevance during GLN "nutritional pharmacology."
氨基酸谷氨酰胺(GLN)作为危重病潜在的治疗辅助剂以及改善术后临床结局的物质,已受到广泛关注。历史上,大多数关于GLN在细胞生理学中作用的研究都集中在其在特定细胞类型中的合成代谢作用以及对癌细胞生长的贡献上。然而,一系列新出现的研究探讨了谷氨酰胺缺乏对细胞存活和基因表达的影响,为这种氨基酸构建了一个新的范例,即细胞外谷氨酰胺供应受限会调节应激和凋亡反应。
我们对关于GLN在细胞存活信号传导和凋亡方面的科学文献进行了综述。我们实验室对肝癌细胞的研究工作也纳入了本综述。
关于该主题的大多数研究使用了源自肠道、免疫系统(包括杂交瘤)和各种癌症的哺乳动物细胞系。即使在有充足葡萄糖供应的情况下,谷氨酰胺限制也会影响与应激相关的基因表达,差异性地调节受体介导的凋亡,并通过特定于细胞类型的信号传导机制和半胱天冬酶级联反应直接引发凋亡。迄今为止,谷氨酰胺转运体、细胞水合作用、谷氨酰胺 - tRNA合成酶、ATP水平、mRNA稳定性和谷胱甘肽代谢在谷氨酰胺依赖性存活信号传导中均有不同程度的涉及。
通过体外研究,谷氨酰胺在细胞存活中调节作用的细胞类型特异性机制正稳步展现。这些结果共同为进一步的体内研究提供了可检验的假设,以探究其在谷氨酰胺“营养药理学”过程中的生理相关性。
