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更新于：2025-10-25

Securinine Nitrate

硝酸一叶萩碱

更新于：2025-10-25

概要

基本信息

药物类型

小分子化药

别名

NSC-107413

靶点

ACHE

作用方式

抑制剂

作用机制

AChE抑制剂(乙酰胆碱酯酶抑制剂)

治疗领域

感染神经系统疾病口颌疾病+ [1]

在研适应症

面瘫脊髓灰质炎

非在研适应症-

原研机构-

在研机构-

非在研机构-

权益机构-

最高研发阶段批准上市

首次获批日期-

最高研发阶段(中国)批准上市

特殊审评-

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结构/序列

分子式C13H16N2O5

InChIKeyGTMBYDCKQUSFCT-CSTPHZADSA-N

CAS号7104-26-9

关联

项与硝酸一叶萩碱相关的临床试验

PACTR201507001055177

/ SuspendedN/A

EVALUATION OF THE EFFICACY OF HEPANTIVIR (SECURININE) IN PATIENTS WITH CHRONIC HEPATITIS B INFECTION

开始日期2015-05-01

申办/合作机构-

100 项与硝酸一叶萩碱相关的临床结果

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100 项与硝酸一叶萩碱相关的转化医学

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100 项与硝酸一叶萩碱相关的专利（医药）

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项与硝酸一叶萩碱相关的文献（医药）

2025-09-01·Acta Pharmaceutica Sinica B

The toxic components, toxicological mechanism and effective antidote for Gelsemium elegans poisoning

Article

作者: Ye, Wencai ; Wang, Lei ; Shi, Lei ; Zhang, Shengyuan ; Zhang, Wei ; Li, Niping ; Jiang, Bin ; Li, Yiyi ; Wang, Liwei ; Chen, Lixin ; Yang, Yaorong ; Wang, Haibo

Gelsemium elegans (G. elegans) is an extremely poisonous plant that is widely distributed in southern China and southeastern Asia. G. elegans poisoning events occur frequently in southern China, and are therefore an urgent public health problem requiring multidisciplinary action. However, the toxic components and toxicological mechanisms remain unclear. Here, we describe a systematic investigation on the toxic components of G. elegans, resulting in the isolation and identification of 120 alkaloids. Based on acute toxicity screening, the structure-toxicity relationship of Gelsemium alkaloids was proposed for the first time. Moreover, gelsedine- and humantenine-type alkaloids were detected in the clinical blood sample, and were confirmed to be causative in the poisoning. The most toxic compound, gelsenicine (1), had selective inhibitory effects toward ventral respiratory group (VRG) neurons in the medulla, which is the main brain region controlling respiration in the central nervous system. Gelsenicine (1) strongly inhibited the firing of action potentials in VRG neurons through its ability to stimulate GABA_A receptors, the main receptors involved in inhibitory neurotransmission. Application of GABA_A receptor antagonists successively reversed action potential firing in gelsenicine (1)-treated VRG neurons. Importantly, the GABA_A receptor antagonists securinine and flumazenil significantly increased the survival of poisoned animals. Our findings provide insight into the components and mechanisms of G. elegans toxicity, and should assist the development of effective emergency treatments for G. elegans poisoning.

2025-02-01·CURRENT ORGANIC SYNTHESIS

Advances in the Total Synthesis of Pharmacologically Important Fused Indolizidine Alkaloids: Securinine, Gephyrotoxin and Lepadiformine

Review

作者: Foo, Jhi B. ; Mohammat, Mohd F. ; Loo, Jason S.E. ; Ali, Afiqah A.A. ; Wibowo, Agustono ; Rosli, Nor H.M.

Indolizidine alkaloids represent a diverse group of naturally occurring compounds which are derived from various sources and possess a wide range of pharmacological activities. Fused indolizidine alkaloids represent a distinct subset of these compounds, where additional rings are fused with the indolizidine core. When combined with the specific stereochemistry typically required for their biological activity, the fused ring structure complicates the synthesis of this important class of compounds. Among the well-studied fused indolizidine alkaloids are securinine, gephyrotoxin, and lepadiformine, which have all exhibited potential in important therapeutic areas. Due to their complex structures, over the years numerous approaches have been proposed to synthesize these compounds. In this article, we review the progress made in synthetic routes for these key fused indolizidine alkaloids throughout history, providing a broad overview and the distinct advantages of the various strategies that could be employed in their synthesis.

2024-07-01·PHYTOMEDICINE

Securinine inhibits carcinogenesis in gastric cancer by targeting AURKA-β-catenin/Akt/STAT3 and the cell cycle pathway

Article

作者: Lv, Caixia ; Dong, Zhuanxia ; Guo, Jianghong ; Zhang, Huanhu ; Kong, Luke ; Li, Zhiyuan ; Yang, Xihua ; Yang, Wenhui ; Chen, Xiaoxia ; Li, Feng ; Guo, Fengtao ; Wang, Yun ; Yang, Mudan

BACKGROUND:

Gastric cancer (GC) is difficult to treat with currently available treatments. Securinine (SCR) has a lengthy history of use in the treatment of disorders of the nervous system, and its anticancer potential has been gaining attention in recent years. The aim of this study was to explore the repressive effect of SCR on GC and its fundamental mechanism.

METHODS:

The efficacy of SCR in GC cells was detected by MTT assays. Colony formation, flow cytometry and Transwell assays were used to assess the changes in the proliferation, apoptosis, cell cycle distribution, migration and invasion of GC cells after treatment. AGS (human gastric carcinoma cell)-derived xenografts were used to observe the effect of SCR on tumor growth in vivo. The molecular mechanism of action of SCR in GC was explored via RNA sequencing, bioinformatics analysis, Western blotting, molecular docking, and immunohistochemistry.

RESULTS:

SCR was first discovered to inhibit the proliferation, migration, and invasion of GC cells while initiating apoptosis and cell cycle arrest in vitro. It was also established that SCR has excellent anticancer effects in vivo. Interestingly, AURKA acts as a crucial target of SCR, and AURKA expression can be blocked by SCR. Moreover, this study revealed that SCR suppresses the cell cycle and the β-catenin/Akt/STAT3 pathways, which were previously reported to be regulated by AURKA.

CONCLUSION:

SCR exerts a notable anticancer effect on GC by targeting AURKA and blocking the cell cycle and β-catenin/Akt/STAT3 pathway. Thus, SCR is a promising pharmacological option for the treatment of GC.

100 项与硝酸一叶萩碱相关的药物交易

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