Molecular docking analysis of aspirin analogues with β-catenin

Canonical Wnt signaling pathway plays a crucial role in cancer cell proliferation, which links by the growth of β-catenin in cell due to inactivation of glycogen synthetase kinase-3. Therefore, it is of interest to design novel candidates to bind with β-catenin. Hence, we document the molecular docking analysis data of aspirin analogues with β-catenin for further consideration.


Abstract:
Canonical Wnt signaling pathway plays a crucial role in cancer cell proliferation, which links by the growth of β-catenin in cell due to inactivation of glycogen synthetase kinase-3. Therefore, it is of interest to design novel candidates to bind with β-catenin. Hence, we document the molecular docking analysis data of aspirin analogues with β-catenin for further consideration Keywords: Colon cancer, Wnt signaling, molecular docking, ADME

Background:
Colorectal cancer (CRC) is the most common form of cancer in oncologic pathology, and it is ranked as second most recurrent cause of death associated to cancer, it affecting the both men as well as women in the same manner worldwide, developed and underdeveloped Countries. It is also predicted to overcome the death ratio of chronic diseases in the upcoming years [1]. Almost 1.8 million new cases were identified in 2018 all over the word. In case of India, it has been expected that about 1 in 23 (4.4%) for men and 1 in 25 (4.1%) for women respectively. The Wnt/β-Catenin signaling pathway plays a crucial role in the transcriptional regulation process that impacts cell growth, development, and differentiation in many malignancies, including CRC [2]. β-Catenin, activitation deregulate the Wnt proteins, so a downstream activator of the Wnt signaling pathway, have been concerned in several cancers [3]. The majority of sporadic forms of colorectal cancer having mutation in key element of the Wnt/β-Catenin signaling cascade, particularly in Adenomatous polyposis coli (APC) and β-Catenin, thereby increasing the transcriptional activity of the latter [4]. β-Catenin target genes play an ultimate role in tissue homeostasis, initiation and progression of CRC through the regulation of various cellular processes, including proliferation, stem cell fate, survival, differentiation, migration and angiogenesis [5].. Particularly, the genes involved in proliferation and migration ware over expressed in CRC [5]. Many drugs to inhibit the proliferation targeted these genes. Aspirin is one of the bestmarketed drug to act against Wnt signaling pathway. It reduces the death rate of colon cancer patients [6] and also shrinks the size of colonic adenomatous polyps both in human and animal studies [7]. Aspirin have the capacity to modulate the Wnt signaling at many levels, including effector pathways of COX-2/PGE2, activity of the β-catenin destruction complex, and the expression of key Wnt target genes involved in tumorigenesis Therefore, it is of interest to design novel candidates to bind with β-catenin. The nine analogues ( Table 1) were used in the present study.
Ligand data: Structure data for aspirin and its analogues were downloaded from pubchem database. All compounds were converted as PDB file format using the Online Smile Translator. Energy minimizations were done using ChemBio 3D Ultra 12.0 as per the standard method.

ADME analysis of selected compounds:
The drug capability and pharmacokinetic estimation of the compounds were carried out by Lipinski filter (http://www.scfbioiitd.res.in/software/drugdesign/lipinski.jsp), according to which an orally active drug must follow at least of four of the five laid down condition for drug likeness namely: molecular mass, cLogP, hydrogen donor and acceptor and molar refractive index [11].

Results and Discussion:
The molecular docking analysis data of aspirin analogues with βcatenin is given in Table 1 to 3. The interaction of aspirin analogues with β-catenin is given in Figure 1  interacting amino acids were present in the binding site through MetaPocket. The docking results of aspirin and its nine analogues were shown in Table 1. The atomic contact energy of (ACE) value of aspirin analogues ranges from -195.31 Kcal/mol to -76.36 Kcal/mol. The marketed FDA drug Aspirin showed the ACE value --137.01 Kcal/mol, this shows that analogues of aspirin also showed the similar affinity towards the beta-catenin protein.   Absorption, Distribution, Metabolism and Excretion (ADME) is simple and essential analysis tool. Now days, it is usually accepted in the primary stage of drug development process, as of its exclusive feature nature. In the present, Drug-likeness properties of these five compounds was calculated using Lipinski rule of five and shown in Table 2. Results of ADME studies showed that selected compounds have good gastrointestinal (GI) absorption effect. Hence, the results of PatchDock and ADME analysis evidently proved that selected five analogues compounds have the ability to inhibit the β-catenin protein and act as potent anti cancer agents.

Conclusion:
We document the molecular docking analysis data of aspirin analogues with β-catenin for further consideration.