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BACKGROUND: Targeted therapies, specifically ErbB family tyrosine kinase inhibitors, have demonstrated potential for improving outcomes in patients with ErbB2-positive breast cancer. Despite their effectiveness, these therapies are associated with limitations, including high costs, side effects, drug resistance, lack of specificity, and toxicity. To overcome these challenges, drug repurposing has emerged as a promising strategy in breast cancer treatment. OBJECTIVE: The aim of this investigation was to assess the influence of calcitriol on breast cancer cell lines expressing ErbB2 and comparing its effects with the conventional treatment, neratinib. METHODS: We employed an MTT test to determine cell viability and utilized staining techniques to assess cell apoptosis. Flow cytometry was used to evaluate cell cycle arrest, while a scratch wound healing test was performed to examine cancer cell migration ability. Additionally, gene expression studies were conducted for calcitriol and neratinib to support our hypothesis regarding the ErbB2 gene. RESULTS: The repurposing of calcitriol demonstrated enhanced efficacy in suppressing cancer cell growth in ErbB2- positive breast cancer. Proportionally, calcitriol significantly reduced the viability of SK-BR-3 cells, similar to neratinib. Furthermore, calcitriol exhibited significant cytotoxicity against neratinib and substantially reduced breast cancer cell growth. These findings were corroborated by the wound healing assay, cell cycle arrest analysis, and gene expression studies, demonstrating comparable efficacy to the standard treatment, neratinib. CONCLUSION: The findings from this investigation offer compelling proof that highlights the promising role of calcitriol as an adjuvant drug with antiproliferative and antitumoral effects in the management of ErbB2-positive breast carcinoma patients. Therefore, we recommend further evaluation of calcitriol in clinical settings, particularly for the treatment of ErbB2-positive breast cancer, as it shows promise as a valuable therapeutic option.

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New drug development for a disease is a tedious, time-consuming, complex, and expensive process. Even if it is done, the chances for success of newly developed drugs are still very low. Modern reports state that repurposing the pre-existing drugs will have more efficient functioning than newly developed drugs. This repurposing process will save time, reduce expenses and provide more success rate. The only limitation for this repurposing is getting a desired pharmacological and characteristic parameter of various drugs from vast data about medications, their effects, and target mechanisms. This drawback can be avoided by introducing computational methods of analysis. This includes various network analysis types that use various biological processes and relationships with various drugs to simplify data interpretation. Some of the data sets now available in standard, and simplified forms include gene expression, drug-target interactions, protein networks, electronic health records, clinical trial results, and drug adverse event reports. Integrating various data sets and interpretation methods allows a more efficient and easy way to repurpose an exact drug for the desired target and effect. In this review, we are going to discuss briefly various computational biological network analysis methods like gene regulatory networks, metabolic networks, protein-protein interaction networks, drug-target interaction networks, drugdisease association networks, drug-drug interaction networks, drug-side effects networks, integrated network-based methods, semantic link networks, and isoform-isoform networks. Along with this, we briefly discussed the drug's limitations, prediction methodologies, and data sets utilised in various biological networks for drug repurposing.

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OBJECTIVE: To evaluate the wound healing and antimicrobial activity of root extracts of Ixora coccinea (I. coccinea). METHODS: To investigate the wound healing efficacy of root extract of I. coccinea Linn, five groups of animals were divided each containing six animals. Two wound models including incision and excision wound models were used in this study. The parameters studied were tensile strength on incision wound model and in terms of wound contraction for excision wound model were compared with standard Nitrofurazone (NFZ) ointment (0.2% w/w). Six extracts (ethanol, aqueous, petroleum ether, benzene, chloroform and ethyl acetate) of I. coccinea were screened for in vitro growth inhibiting activity against different bacterial strains viz, Staphylococcus aureus, Bacillus pumilius, Enterococcus faecalis, Escherichia coli, Salmonella typhi and Pseudomonas aeruginosa and fungi Candida albicans and Aspergillus niger were compared with the standard drugs ciprofloxacin and chloramphenicol for antibacterial and griseofulvin for antifungal screening. The serial dilution and cup (or) well plate methods were used for the antimicrobial study and MIC was determined. RESULTS: The ethanolic extract showed significant (P<0.001) wound healing activity when compared to standard drug NFZ with respect to normal control group. Amongst all, ethanolic extract showed highly significant antibacterial activity against all bacterial strains used in this study when compared to standard. The aqueous extract showed moderate significant inhibition against all bacterial strains when compared to standard. All the extracts were shown negligible activity against the fungal strains used in this study. CONCLUSIONS: The ethanolic root extract of I. coccinea showed pronounced wound healing and antibacterial activity. The probable reason to heal the wound was that the external application of the extract prevented the microbes to invade through the wound thus the protection of wound occurs against the infection of the various organisms.

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