肿瘤与代谢.pptx

1、叶 菁第四军医大学病理学与病理生理学教研室2013年1月Citric acid cycleCitrateKetone bodiesAcetyl-CoAFatty Acyl-CoAKetone bodiesFatty Acyl-CoAFatty AcidFatty Acid albumin complexFatty acid biosynthesisFatty acid oxidatioinFatty Acid TransportFat StorageFatty acid release from adipocytes into bloodstreamActivated by cAMP-depe

2、ndent phosphorylationAdipocyteTriacylglycerol transportHepatocyte(Liver cell)ActivationInhibitionUnder long-term regulationCitrateSmooth ERPalmitateStearateOleatePalmitateMalonyl-CoAAcetyl-CoAFatty Acid SynthaseInhibited by cAMP-dependent phosphorylation Activated by insulin-dependent dephosphorylat

3、ion Acetyl-CoA carboxylaseVery low density lipoprotein(VLDL)TriacylglycerolLipoprotein lipaseFree fatty acidsTriacylglycerols“hormone-sensitive”lipasePotential targets for cancer therapy found within metabolic pathways involved in glucose metabolism.Hamanaka R B,Chandel N S J Exp Med 2012;209:211-21

4、5 2012 Hamanaka and Chandel德国生理学家Otto.Warburg，1924年提出，癌症的产生产生是由于细胞糖无氧酵解增强加上氧消耗量降低造成的，也称为瓦尔堡(Warburg)效应。结果：结果：癌细胞生长很快，过快的生长使得细胞经常处于一种缺氧状态，于是癌细胞就关闭了需要线粒体的有氧氧化，能量则是通过葡萄糖的无氧酵解提供的。Warburg假说或是Warburg效应是说当线粒体功能受损后，细胞则通过增强无氧酵解来提供能量，葡萄糖代谢至丙酮酸(pyruvate)后不再通过线粒体的三羧酸循环进行有氧氧化，而是通过乳酸脱氢酶（LDH），转变成乳酸排出细胞。Warburg 认为这

5、个代谢的转变是引起癌症的原因原因，因此获得了诺贝尔奖。这个假说有着无休止的争论。焦点是这个代谢转变是癌症产生的原因原因还是癌细胞代谢改变的结果结果。糖酵解的意义In addition to generating energy,glycolysis provides the key carbon precursors needed for the synthesis of nucleic acids,phospholipids,fatty acids,cholesterol and porphyrins.18FDG PET是应用18F正电子标记的脱氧葡萄糖，在己糖激酶的作用下，形成的FDG-6磷

6、酸，不参与正常葡萄糖代谢，而在高糖酵解的肿瘤部位有较多的放射性浓集的原理来进行的。肿瘤的恶性程度越高，聚集量越高，因此18FDG PET显像不但用于肿瘤诊断，还可用于良恶性疾病的鉴别诊断。1.tumor microenvironment and stabilization of HIF；2.Oncogene activation and loss of tumor suppressor genes；3.mitochondrial dysfunction in cancer cells；4.nuclear DNA mutations；5.epigenetic changes；6.miRNA；7.

7、glutamine metabolism；8.post-translational modifications.As tumor cells proliferate,they outgrow the local blood supply,resulting in hypoxia.As the cancer cells activate aerobic glycolysis,glucose is metabolized to lactate.Tumor cells are resistant to low pH.Hypoxia is found to be associated with tum

8、or progression,metastasis and resistance to therapy Cancer cells are known to adapt to the hypoxic condition via the hypoxia-inducible factor 1(HIF-1).HIF-1 is a heterodimeric transcription factorOne of the most commonly altered signaling pathways in cancer cells is PI3K pathway,which is activated b

9、y mutations in PI3K component or tumor suppressor genes or by signaling from the receptor tyrosine kinases.Cancer cells predominantly produce energy from glycolysis with a concomitant suppression of mitochondrial metabolic activities.The exact mechanism underlying mitochondrial impairment and an inc

10、reased rate of glycolysis in tumors remained elusive for many years until recent studies elucidated the link between mitochondria and Warburg phenomenon.Redox alterations induced by TCA cycle defects.Redox alterations induced by mutations in SDH,FH,and IDH are shown.Loss of function of SDH increases

11、 ROS levels leading to DNA mutations and HIF-1 stabilization.IDH1 and mutations decrease GSH and NADPH levels.PDH 脯氨酰羟化酶SDH and FH are two important mitochondrial enzymes encoded by nuclear genes and are involved in TCA cycle.Both SDH and FH have tumor suppressor functions.关于关于IDH突变突变美国杜克大学医学中心和约翰霍普

12、金斯大学的科学家宣称，美国杜克大学医学中心和约翰霍普金斯大学的科学家宣称，他们发现了恶性胶质脑瘤最关键的基因突变，这对恶性胶他们发现了恶性胶质脑瘤最关键的基因突变，这对恶性胶质脑瘤的诊断和治疗具有重大意义，为癌症研究打开了一质脑瘤的诊断和治疗具有重大意义，为癌症研究打开了一扇新窗口。扇新窗口。“六年来我一直在进行脑部肿瘤的基因研究，但我从未见六年来我一直在进行脑部肿瘤的基因研究，但我从未见过像这个研究那么显着的基因突变。过像这个研究那么显着的基因突变。”Yan H,et al.N Engl J Med.2009;360(8):765IDH突变与胶质瘤突变与胶质瘤异柠檬酸异柠檬酸盐脱氢酶（盐脱氢

13、酶（isocitrate dehydrogenase 1，IDH）突变是恶性胶质脑瘤最原始的基因突变，即癌变组织中每突变是恶性胶质脑瘤最原始的基因突变，即癌变组织中每个癌变的细胞内都发生了这一基因突变；个癌变的细胞内都发生了这一基因突变；IDH1和和IDH2基因突变只出现在恶性胶质瘤中，在正常的组基因突变只出现在恶性胶质瘤中，在正常的组织细胞中则没有，增生织细胞中则没有，增生的星形细胞的星形细胞阴性（阳性阴性（阳性是肿瘤，阴是肿瘤，阴性不是一定是增生的的性不是一定是增生的的星形细胞）；星形细胞）；IDH1或或IDH2基因发生突变的病人平均能活基因发生突变的病人平均能活31个月，相比之个月，相比

14、之下，肿瘤中这两种基因都没有发生突变的患者平均存活时下，肿瘤中这两种基因都没有发生突变的患者平均存活时间为间为15个月。个月。IDH1 and IDH2 Mutations in Human GliomasYan H,et al.N Engl J Med.2009;360(8):765Survival of Adult Patients with Malignant Gliomas with or without IDH Gene MutationsPutative mechanisms of IDH mutation in glioma tumorigenesis.Building cell

15、s with glucose and glutamine1.Reduction of glucose entry into the cell2.Inhibition of glycolysis3.Inhibition of pentose phophate pathway4.Promotion of oxidative phosphorylation5.Inhibition of HIF-1Abbreviations:2-DG,2-deoxyglucose;LND,lonidamine;3-BrPA,3-bromopyruvate;3-PO,3-(3-pyridinyl)-l-(4-pyridinyl)-2-propen-l-one;6-AN,6-aminonicotinamide;DCA,dichloroacetate;GA,geldanamycin;2ME2,2-methoxyoestradiol;PX-478,S-2-amino-3-4-N,N,-bis(2-chloroethyl)aminophenyl propionic acid N-oxide dihydrochloride.Reduction of glucose entry into the cell2-deoxyglucoseONCOTHYREON INC.