- Application of niclosamide and analogs as small molecule inhibitors of Zika virus and SARS-CoV-2 infection
-
Zika virus has emerged as a potential threat to human health globally. A previous drug repurposing screen identified the approved anthelminthic drug niclosamide as a small molecule inhibitor of Zika virus infection. However, as antihelminthic drugs are generally designed to have low absorption when dosed orally, the very limited bioavailability of niclosamide will likely hinder its potential direct repurposing as an antiviral medication. Here, we conducted SAR studies focusing on the anilide and salicylic acid regions of niclosamide to improve physicochemical properties such as microsomal metabolic stability, permeability and solubility. We found that the 5-bromo substitution in the salicylic acid region retains potency while providing better drug-like properties. Other modifications in the anilide region with 2′-OMe and 2′-H substitutions were also advantageous. We found that the 4′-NO2 substituent can be replaced with a 4′-CN or 4′-CF3 substituents. Together, these modifications provide a basis for optimizing the structure of niclosamide to improve systemic exposure for application of niclosamide analogs as drug lead candidates for treating Zika and other viral infections. Indeed, key analogs were also able to rescue cells from the cytopathic effect of SARS-CoV-2 infection, indicating relevance for therapeutic strategies targeting the COVID-19 pandemic.
- Shamim, Khalida,Xu, Miao,Hu, Xin,Lee, Emily M,Lu, Xiao,Huang, Ruili,Shah, Pranav,Xu, Xin,Chen, Catherine Z.,Shen, Min,Guo, Hui,Chen, Lu,Itkin, Zina,Eastman, Richard T.,Shinn, Paul,Klumpp-Thomas, Carleen,Michael, Sam,Simeonov, Anton,Lo, Donald C.,Ming, Guo-li,Song, Hongjun,Tang, Hengli,Zheng, Wei,Huang, Wenwei
-
supporting information
(2021/03/30)
-
- Identification and synthesis of low-molecular weight cholecystokinin B receptor (CCKBR) agonists as mediators of long-term synaptic potentiation
-
Recently, He et al. reported that CCKB receptors located in the neocortex of the brain when bound to their bound natural ligand, CCK peptides, enhance memory, bringing up the possibility that agonists targeting the CCKB receptor may act as therapeutic agents in diseases in which memory loss is marked as observed in dementia and Alzheimer’s. In this report, we describe the synthesis of novel low-molecular weight benzoamine CCKB receptor agonists. The compounds made in this series were determined to be mostly partial agonists, although some antagonists were identified, as well, capable of triggering calcium release in a cell line that overexpresses the CCKB receptor. Compound 35 demonstrated an EC50 of 0.15 μM in the cell-based assay, but more importantly, several of the compounds, including 35, demonstrated a physiological effect, inducing long-term potentiation in rat brains comparable to the CCK-8 peptide albeit at much higher concentrations. Based on these findings, benzoamines may be the basis for a new series of CCKB receptor agonists in drug-discovery efforts that seek to develop therapeutics to prevent memory loss.
- Zhang, Yanmei,Wang, Yican,Guo, Yiping,Liao, Jinxi,Tu, Zhengchao,Lu, Yongzhi,Ding, Ke,Tortorella, Micky D.,He, Jufang
-
p. 387 - 393
(2019/02/01)
-
- Niclosamide is a Negative Allosteric Modulator of Group I Metabotropic Glutamate Receptors: Implications for Neuropathic Pain
-
Purpose: Novel therapeutics are greatly needed that target specific pathological receptors and pathways involved in Neuropathic Pain (NP). Extending our previous work published in this Journal on Group I metabotropic glutamate receptor (mGluR) modulators, we now investigate the therapeutic potential of niclosamide in modulating aberrant glutamate transmission in NP. Method: Calcium mobilization assays and cross-receptor selectivity experiments are conducted to characterize the pharmacological activity of niclosamide. A focused series of niclosamide analogues is then prepared to elucidate key structural determinants that emerged from computational molecular modeling analysis on drug-receptor interactions. Finally, niclosamide and a carbamate derivative are studied to assess their efficacy in an NP-evoked mechanical hyperalgesia model in rats. Results: Niclosamide is a low-nanomolar allosteric antagonist of Group I mGluRs with high selectivity for Group I over homologous Group III mGluRs. The phenolic hydroxyl group of niclosamide forms a crucial hydrogen bond with mGluR1/5. Its bioactive coplanar conformation is further stabilized by the nitro substituent on the B ring and an intramolecular bond. Mechanical hyperalgesia in NP rats is reversed by niclosamide through three different dosing routes. Conclusion: To our knowledge, this is the first report of the salicylanilide class of compounds as potential treatments for NP.
- Ai, Ni,Wood, Richard D.,Yang, Eric,Welsh, William J.
-
p. 3044 - 3056
(2016/11/13)
-
- CHEMICAL MODULATORS OF SIGNALING PATHWAYS AND THERAPEUTIC USE
-
Described are methods of treating a disease associated with dysregulation of the Wnt/Frizzled signaling pathway. The methods include identifying subjects in need of therapy, administering inhibitors of the Wnt/Frizzled signaling pathway, pharmaceutical compositions including the inhibitors, and methods of using the compounds and compositions for treating cancer, bacterial and viral infection, lupus, type II diabetes, nonalcoholic steatohepatitis (NASH) and nonalcoholic fatty liver disease (NAFLD) in a subject.
- -
-
Paragraph 00173; 00174
(2017/01/09)
-
- Structure-activity studies of Wnt/β-catenin inhibition in the Niclosamide chemotype: Identification of derivatives with improved drug exposure
-
The Wnt signaling pathway plays a key role in regulation of organ development and tissue homeostasis. Dysregulated Wnt activity is one of the major underlying mechanisms responsible for many diseases including cancer. We previously reported the FDA-approved anthelmintic drug Niclosamide inhibits Wnt/β-catenin signaling and suppresses colon cancer cell growth in vitro and in vivo. Niclosamide is a multi-functional drug that possesses important biological activity in addition to inhibition of Wnt/β-catenin signaling. Here, we studied the SAR of Wnt signaling inhibition in the anilide and salicylamide region of Niclosamide. We found that the 4′-nitro substituent can be effectively replaced by trifluoromethyl or chlorine and that the potency of inhibition was dependent on the substitution pattern in the anilide ring. Non-anilide, N-methyl amides and reverse amide derivatives lost significant potency, while acylated salicylamide derivatives inhibited signaling with potency similar to non-acyl derivatives. Niclosamide's low systemic exposure when dosed orally may hinder its use to treat systemic disease. To overcome this limitation we identified an acyl derivative of Niclosamide, DK-520 (compound 32), that significantly increased both the plasma concentration and the duration of exposure of Niclosamide when dosed orally. The studies herein provide a medicinal chemical foundation to improve the pharmacokinetic exposure of Niclosamide and Wnt-signaling inhibitors based on the Niclosamide chemotype. The identification of novel derivatives of Niclosamide that metabolize to Niclosamide and increase its drug exposure may provide important research tools for in vivo studies and provide drug candidates for treating cancers with dysregulated Wnt signaling including drug-resistant cancers. Moreover, since Niclosamide is a multi-functional drug, new research tools such as DK520 could directly result in novel treatments against bacterial and viral infection, lupus, and metabolic diseases such as type II diabetes, NASH and NAFLD.
- Mook, Robert A.,Wang, Jiangbo,Ren, Xiu-Rong,Chen, Minyong,Spasojevic, Ivan,Barak, Larry S.,Lyerly, H. Kim,Chen, Wei
-
p. 5829 - 5838
(2015/11/11)
-
- Method of use of pharmaceutical formulations for the treatment of apicomplexan diseases in animals
-
The present invention is directed to the method of use of effective pharmaceutical formulations for the treatment of diseases caused by apicomplexan parasites, said formulation comprised of a salicylanilide or salicylanilide derivative, disclosed herein,
- -
-
Paragraph 0090
(2014/01/07)
-
- Salicylanilide inhibitors of Toxoplasma gondii
-
Toxoplasma gondii (T. gondii) is an apicomplexan parasite that can cause eye disease, brain disease, and death, especially in congenitally infected and immune-compromised people. Novel medicines effective against both active and latent forms of the parasite are greatly needed. The current study focused on the discovery of such medicines by exploring a family of potential inhibitors whose antiapicomplexan activity has not been previously reported. Initial screening efforts revealed that niclosamide, a drug approved for anthelmintic use, possessed promising activity in vitro against T. gondii. This observation inspired the evaluation of the activity of a series of salicylanilides and derivatives. Several inhibitors with activities in the nanomolar range with no appreciable in vitro toxicity to human cells were identified. An initial structure-activity relationship was explored. Four compounds were selected for evaluation in an in vivo model of infection, and two derivatives with potentially enhanced pharmacological parameters demonstrated the best activity profiles.
- Fomovska, Alina,Mui, Ernest,McLeod, Rima,Wood, Richard D.,Welsh, William J.,Dubey, Jitenter P.,Ferreira, Leandra R.,Hickman, Mark R.,Lee, Patricia J.,Leed, Susan E.,Auschwitz, Jennifer M.,Sommerville, Caroline,Woods, Stuart,Roberts, Craig
-
p. 8375 - 8391,17
(2020/09/15)
-