Reserpine, a novel N6-methyladenosine regulator, reverses Lenvatinib resistance in hepatocellular carcinoma

Reserpine, a novel N6-methyladenosine regulator, reverses Lenvatinib resistance in hepatocellular carcinoma

Hepatocellular carcinoma (HCC) is an aggressive malignancy and a growing global health problem. Reserpine (Res), a plant-derived hypertension drug, has been reported to possess anti-tumor efficacy. However, the role and function of Res in N6-methyladenosine (m6A) regulation and Lenvatinib (Len) resi...

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Bibliographic Details
Published in:Phytomedicine (Stuttgart) Vol. 135; p. 156002
Main Authors: Zhao, Lei, Ma, Heyao, Jiang, Yuhui, Li, Yingying, Guo, Ning, Chen, Yu, Jiang, Xiaowen, Zhao, Yunpeng, Yang, Jingjing, Liu, Yifei, Wen, Kaishu, Wang, Lihui, Jian, Lingyan, Fan, Xinyu
Format: Journal Article
Language:English
Published: Germany Elsevier GmbH 01-12-2024
Subjects:
Hepatocellular carcinoma
Lenvatinib resistance
m6A
METTL3
Reserpine
PBS
Res
Lenvatinib resistance
DMSO
IHC
PDX
METTL3
Hepatocellular carcinoma
HCC
CETSA
TKI
TUNEL
Len
Nrf2
CDX
FBS
IC50
m6A
CCK-8
HER2
Reserpine
ABCG2
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Summary:Hepatocellular carcinoma (HCC) is an aggressive malignancy and a growing global health problem. Reserpine (Res), a plant-derived hypertension drug, has been reported to possess anti-tumor efficacy. However, the role and function of Res in N6-methyladenosine (m6A) regulation and Lenvatinib (Len) resistance in HCC have not been clarified. To verify whether Res can be used as a natural small-molecule regulator of m6A to reverse Len resistance in HCC. Dot blotting, Western blotting and m6A quantification were used to compare and analyze the differential expression of m6A and its methyltransferase METTL3. Western blotting, Real-Time PCR (RT-PCR), cellular thermal shift assay (CETSA) and molecular docking were used to explore the mechanism of interaction between Res and m6A. The effects of Res on the biological characteristics of Lenvatinib-resistant HCC cells were investigated through CCK-8, clone formation, and Transwell assays. Cell line-derived xenograft (CDX) and patient-derived xenograft (PDX) mouse models were used to assess the ability of Res to reverse Len resistance in vivo. MeRIP m6A sequencing, PATHWAY analysis and Western blotting were used to analyze the downstream signaling pathways and genes involved in Res-mediated reversal of Len resistance. Len resistance in HCC is related to the increased m6A level and the high expression of METTL3. Res affects the activity of METTL3 protein by binding to it, thereby downregulating the level of m6A. In vitro study showed that Res can sensitize HCC cells to the anti-tumor effects of Len treatment, including blocking proliferation, inhibiting migration, and inducing apoptosis. Len-resistant CDX and PDX models revealed that Res can reverse the resistant phenotype, with the tumor inhibition rates of 77.46 % and 62.1 %, respectively, when combined with Len treatment. Analysis of xenograft tissues showed that the combination of Res and Len down-regulates the m6A level, reduces proliferation biomarkers, and induces apoptosis, which is consistent with the in vitro data. Mechanistically, our preliminary results indicate that Res can up-regulate the SMAD3 level by down-regulating m6A in Len-resistant cells. Reserpine, a small-molecule regulator of m6A, reverses Lenvatinib-resistant phenotypes, including proliferation, migration and anti-apoptosis, in vitro and in vivo by targeting SMAD3 and down-regulating the m6A level in HCC.
ISSN:0944-7113
1618-095X
DOI:10.1016/j.phymed.2024.156002