DISCOVERY OF PYRAZOLOPYRIDINE DERIVATIVES DUALLY TARGETING INFLAMMATION AND PROLIFERATION IN COLORECTAL CANCER CELL LINES: IN-SILICO DRUG DESIGN APPROACH

Elimination of inflammation represents a promising strategy for cancer prevention and treatment since cancer and inflammation are related. The combined use of anti-inflammatory agents and cancer therapy is a focal point. In this frame, pyrazolopyridine derivatives DZ-BAU2021-6 and DZ-BAU2021-14, developed in BAU Labs, having promising anti-proliferative activity on colon cancer cells HCT-116 and HT-29 with notable IC50 values and remarkable CDK2 inhibitory effect, were in-silico tested. As an approach to dual anti-inflammatory anticancer potential, their binding modes and energies on the active site of crystalline structure of CDK2 and COX2, (1HCK and 3LN1), respectively were explored. Their physicochemical and pharmacokinetic properties as well as their “drug-likeness” were studied. Computational results declared that DZ-BAU2021-6 and DZ-BAU2021-14 exhibited high binding affinities to CDK2 and COX2 receptors. DZ-BAU2021-14 exhibited lower levels of estimated binding energies with COX2 receptor compared to Celecoxib. It demonstrated high GI absorption, low interference with P-glycoprotein and cytochrome P450 isoforms

DZ-BAU2021-14N AS NOVEL PYRAZOLOPYRIDINE NANOCRYSTALS: APPRAISAL OF ANTICANCER ACTIVITY AGAINST HCT-116 AND HT-29 COLORECTAL CANCER CELL LINES

Mentioning DZ-BAU2021-14 (C19H17N5O2,347.370 g/mol) developed in BAU Labs, its promising preliminary antitumor effect nominated it to be selected as a lead antiproliferative compound against colorectal cancer cell lines owing to its proved Cyclin Dependent Kinase 2 (CDK2) inhibition (Kassem et al., 2021). Solving many problems restricting traditional cancer therapy, nanotechnology is offering safety margins and targeted delivery of poorly soluble drug. The potential effect of this compound was combined with the advantages of nanotechnology, precisely nanocrystals to achieve better antiproliferative and hopeful less cytotoxic patterns. The nanocrystals DZ-BAU2021-14N were prepared by an antisolvent precipitation technique using Poloxamer 407 and Cremophor® RH 40 as stabilizers. The nanocrystals were obtained with a nanometric particle size (89.80 ± 11.2 nm) and a negative zeta potential (-32.6 ± 0.50 mV) and were stable at 4 ± 0.5°C with no significant change in particle size or zeta potential. The anticancer activity of DZ-BAU2021-14 and DZ-BAU2021-14N were assessed. Their antiproliferative effects against colorectal cancer cell lines HCT-116 and HT-29 were studied via viability assay. In addition, their cytotoxic effects on non-tumorigenic cell lines NCM-460D were evaluated and respective IC50 values were determined. Different responses were obtained; DZ-BAU2021-14N provided lower IC50 on HCT-116 compared to the free drug DZ-BAU2021-14 (27 and 22 µM, respectively). The safety profile of the free drug was reflected by its IC50 on NCM-460D of 200µM while that of drug nanocrystals showed relative cytotoxicity with IC50 of 33µM, and this requires further investigation to study this response