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第42卷第12期            江戎琦,邓 杰,孟恩清,等. 非编码RNA编码微肽/蛋白与肿瘤代谢的研究进展[J].
                 2022年12月                    南京医科大学学报(自然科学版),2022,42(12):1690-1696                      ·1695 ·


                                                                       lncRNA MIR155HG suppresses autoimmune inflamma⁃
                3  总结与展望
                                                                       tion via modulating antigen presentation[J]. Sci Adv,
                    ncRNA 编码的微肽/蛋白不仅能通过调控代谢                            2020,6(21):z2059
                相关酶的表达和转录因子来调控肿瘤代谢重编程,                           [10] GUO B,WU S,ZHU X,et al. Micropeptide CIP2A⁃BP en⁃
                                                                       coded by LINC00665 inhibits triple⁃negative breast can⁃
                还能通过调控线粒体的功能影响肿瘤的能量代谢,
                                                                       cer progression[J]. EMBO J,2020,39(1):e102190
                从而影响肿瘤的发生发展。
                                                                 [11] CHEN J,BRUNNER A,COGAN J Z,et al. Pervasive func⁃
                    这些 ncRNA 编码微肽/蛋白的功能研究丰富了
                                                                       tional translation of noncanonical human open reading
                我们对癌症调控机制的认识,为我们靶向肿瘤细胞                                 frames[J]. Sci,2020,367(6482):1140⁃1146
                代谢重编程提供了许多新的治疗靶点。但目前仍                            [12] WU P,MO Y,PENG M,et al. Emerging role of tumor⁃re⁃
                存在许多问题,对于ncRNA编码性的研究仍处于初                               lated functional peptides encoded by lncRNA and cir⁃
                级阶段,目前发现的 ncRNA 编码的微肽/蛋白仅占                             cRNA[J]. Mol Cancer,2020,19(1):22
                极小一部分,能够鉴定出具有生物学功能的更是少                           [13] LI X L,PONGOR L,TANG W,et al. A small protein en⁃
                之又少。不过,相信随着质谱、RNA测序、核糖体图                               coded by a putative lncRNA regulates apoptosis and tu⁃
                                                                       morigenicity in human colorectal cancer cells[J]. eLife,
                谱分析等技术的发展和进步,未来能够发现越来越
                                                                       2020,9 e53734:
                多的与肿瘤相关 ncRNA 编码的微肽/蛋白,这也意
                                                                 [14] WANG Y,WU C,DU Y,et al. Expanding uncapped trans⁃
                味着一个个新的肿瘤预后标志物和抗癌药物干预
                                                                       lation and emerging function of circular RNA in carcino⁃
                靶点的出现,为癌症的研究提供新的方向。                                    mas and noncarcinomas[J]. Mol Cancer,2022,21(1):13
                    综上所述,深入了解代谢重编程中ncRNA编码                       [15] MARTÍNEZ⁃REYES I,CHANDEL N S. Cancer metabo⁃
                的微肽/蛋白介导的调控机制,将有助于人们认识肿                                lism:looking forward[J]. Nat Rev. Cancer,2021,21
                瘤发生发展的机制。同时,代谢相关的ncRNA编码                              (10):669-680
                的微肽/蛋白也能作为潜在的肿瘤诊断/预后标志物                          [16] SUN L,SUO C,LI S,et al. Metabolic reprogramming for
                和治疗靶点,为肿瘤的治疗做出更大的贡献。                                   cancer cells and their microenvironment:Beyond the War⁃
                                                                       burg Effect[J]. Biochim Biophys Acta Rev Cancer,2018,
               [参考文献]
                                                                       1870(1):51-66
               [1] PAVLOVA N N,THOMPSON C B. The emerging hall⁃  [17] 龚俊杰,刘秀秀,王        平,等. 代谢组学在胶质母细胞瘤
                    marks of cancer metabolism[J]. Cell Metab,2016,23  相关研究中的应用[J]. 南京医科大学学报(自然科学
                    (1):27-47                                          版),2021,41(2):296-305
               [2] WANG Y,XIA Y,LU Z. Metabolic features of cancer cells  [18] PASCALE R M,CALVISI D F,SIMILE M M,et al. The
                    [J]. Cancer Commun,2018,38(1):65                   warburg effect 97 years after its discovery[J]. Cancers,
               [3] YE M,ZHANG J,WEI M,et al. Emerging role of long non⁃  2020,12(10):2819
                    coding RNA⁃encoded micropeptides in cancer[J]. Cancer  [19] GE T,YANG J,ZHOU S,et al. The role of the pentose
                    Cell Int,2020,20:506                               phosphate pathway in diabetes and cancer[J]. Front En⁃
               [4] CHAN J,TAY Y. Noncoding RNA:RNA regulatory net⁃     docrinol,2020,11:365
                    works in cancer[J]. Int J Mol Sci,2018,19(5):1310  [20] LI A M,YE J. Reprogramming of serine,glycine and one⁃
               [5] 潘春峰,刘锦源. 长链非编码RNA TPTEP1在肺腺癌中                       carbon metabolism in cancer[J]. Biochim Biophys Acta
                    的表达及作用研究[J]. 南京医科大学学报(自然科学                         Mol Basis Dis,2020,1866(10):165841
                    版),2022,42(5):673-678                        [21] DEY P,KIMMELMAN A C,DEPINHO R A. Metabolic
               [6] 马    佩 ,方    圆 ,查 全 斌 ,等. 长 链 非 编 码 RNA             codependencies in the tumor microenvironment[J]. Can⁃
                    LINC01197调节胃癌进展的机制研究[J]. 南京医科大                     cer Discov,2021,11(5):1067⁃1081
                    学学报(自然科学版),2021,41(7):992-998                [22] LU S,WANG Y. Nonmetabolic functions of metabolic en⁃
               [7] CHOI S W,KIM H W,NAM J W. The small peptide world   zymes in cancer development[J]. Cancer Commun,2018,
                    in long noncoding RNAs[J]. Brief Bioinform,2019,20  38(1):63
                    (5):1853-1864                                [23] ZAHRA K,DEY T,ASHISH,et al. Pyruvate kinase M2
               [8] LI P,SONG R,YIN F,et al. circMRPS35 promotes malig⁃  and cancer:the role of PKM2 in promoting tumorigenesis
                    nant progression and cisplatin resistance in hepatocellu⁃  [J]. Front Oncol,2020,10:159
                    lar carcinoma[J]. Mol Ther,2022,30(1):431-447  [24] PUCKETT D L,ALQURAISHI M,CHOWANADISAI W,
               [9] NIU L,LOU F,SUN Y,et al. A micropeptide encoded by  et al. The role of PKM2 in metabolic reprogramming:in⁃
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