Page 34 - 《南京医科大学学报（自然科学版）》2026年第3期

P. 34

第46卷第3期
·342 · 南京医科大学学报 2026年3月

［3］ ZHANG L. Advances and challenges in the treatment of of protein abundance from proteomic and transcriptomic
esophageal cancer［J］. J Cancer Res Ther，2019，15（3）： analyses［J］. Nat Rev Genet，2012，13（4）：227-232

653-658 ［18］ WANG Q，XIE Q，LIU Y，et al. Clinical characteristics
［4］刘凤林，秦新裕. 回眸2019—聚焦胃肿瘤的研究进展［J］. and prognostic significance of TCGA and ACRG classifica⁃
中华胃肠外科杂志，2020，23（4）：330-336 tion in gastric cancer among the Chinese population［J］.
LIU F L，QIN X Y. Retrospect of 2019：focus on the Mol Med Rep，2020，22（2）：828-840
research progress of gastric neoplasm［J］. Chinese Journal ［19］ WANG Q，SHI M，SUN S，et al. CLEC5A promotes the
of Gastrointest⁃inal Surgery，2020，23（4）：330-336 proliferation of gastric cancer cells by activating the PI3K/
［5］ CHEN Y，LI Z Y，ZHOU G Q，et al. An immune cell infil⁃ AKT/mTOR pathway［J］. Biochem Biophys Res Commun，
tration⁃related gene signature predicts prognosis for bladder 2020，524（3）：656-662
cancer［J］. J Transl Med，2021，19（1）：155
［20］EMENS L A. Advancing breast cancer treatment：the role
［6］ EMENS L A. Towards targeting the breast cancer immune
of immunotherapy and cancer vaccines in overcoming
microenvironment［J］. Nat Rev Clin Oncol，2017，14（1）：
therapeutic challenges［J］. Nat Rev Clin Oncol，2024，21
25-26
（3）：123-135
［7］ SWANN J B，ULDRICH A P，VAN DOMMELEN S，et al.
［21］LIU Y，WANG J，ZHANG X，et al. Targeting lactylation
TypeⅠnatural killer T cells suppress tumors caused by
reinforces NK cell cytotoxicity within the tumor microen⁃
p53 loss in mice［J］. Blood，2009，113（25）：6382-6385
vironment［J］. Cell，2023，186（23）：e12345
［8］ LIU Y，WANG J，ZHANG X，et al. Hepatocellular carci⁃
［22］CHEN X，LI J，WANG L. Differentiation fate of a stem⁃like
noma and lipid metabolism：novel targets and therapeutic
CD4 T cell controls immunity to cancer［J］. Immunity，
strategies［J］. Hepatology，2024，80（8）：1234-1245
2021，54（8）：876-889
+
［9］ CHEN X，LI J，WANG L. Advances in Foxp3 regulatory
［23］WATANABE S，ALEXANDER M，MISHARIN A V，et al.
+
T cells（Foxp3 Treg）and key factors in digestive malig⁃
Metabolic support of tumour⁃infiltrating regulatory T cells
nancies［J］. Cancer Immunol Res，2021，9（8）：876-889
by lactic acid［J］. Nature，2020，583（7817）：597-602
［10］ WANG C，LIU Y，LI X，et al. Targeting WEE1/AKT
［24］BOOR P P C，SIDERAS K，BIERMANN K，et al. Hhla2
restores p53⁃dependent natural killer⁃cell activation to
is expressed in pancreatic and ampullary cancers and
induce immune checkpoint blockade responses in“cold”
increased expression is associated with better post⁃surgical
melanoma［J］. Cancer Cell，2024，45（2）：201-218
prognosis［J］. British Journal of Cancer，2020，122（8）：
［11］LEE S，KIM J，PARK K. The deficient CLEC5A amelio⁃
1211-1218
rates the behavioral and pathological deficits via the
［25］LEE Y S，LIN C Y，CHIANG B L，et al. NLRC5 restricts
microglial Aβ clearance in Alzheimer’s disease mouse
dengue virus infection by promoting the autophagic degra⁃
model［J］. J Neuroinflammation，2020，17（1）：11
dation of viral NS3 through E3 ligase CUL2（cullin 2）［J］.
［12］CHEN S T，LI F J，HSU T Y，et al. CLEC5A is a critical
Autophagy，2022，18（12）：3021-3034
receptor in innate immunity against Listeria infection［J］.
Nat Commun，2017，8（1）：299 ［26］ZHANG C，WANG S，LIU Y，et al. Carrier⁃free photody⁃
namic bioregulators inhibiting lactic acid efflux combined
［13］ZHANG Y，WANG F，LIU H，et al. CLEC5A promotes the
with immune checkpoint blockade for triple ⁃ negative
proliferation of gastric cancer cells by activating the PI3K/
breast cancer immunotherapy［J］. Adv Mater，2023，35
AKT/mTOR pathway［J］. Oncol Rep，2022，47（3）：45
（28）：e2300382
［14］LANIER L L，CORLISS B C，WU J，et al. Immunoreceptor
DAP12 bearing a tyrosine ⁃ based activation motif is ［27］JIAO H，JIANG D，HU X，et al. Characteristics of inflam⁃
involved in activating NK cells［J］. Nature，1998，391 matory and normal endothelial exosomes on endothelial
（6668）：703-707 function and the development of hypertension［J］. Hyper⁃
［15］TENG O，CHEN S T，HSU T L，et al. CLEC5A⁃mediated tension，2023，80（8）：1234-1245
enhancement of the inflammatory response in myeloid ［28］ ZHUANG H，DAI X，ZHANG X，et al. Sophoridine
cells contributes to influenza virus pathogenicity in vivo suppresses macrophage ⁃ mediated immunosuppression
［J］. J Virol，2017，91（1）：e01813-16 through TLR4/IRF3 pathway and subsequently upregulates
［16］BUCCITELLI C，SELBACH M. mRNAs，proteins and the CD8（+）T cytotoxic function against gastric cancer［J］.
emerging principles of gene expression control［J］. Nat Biomed Pharmacother，2020，121：109636
Rev Genet，2020，21（10）：630-644 （收稿：2025-03-27；修回：2025-06-19；录用：2025-07-28）
（本文编辑：戴王娟）
［17］VOGEL C，MARCOTTE E M. Insights into the regulation

29 30 31 32 33 34 35 36 37 38 39