Exploration of cellular DNA lesion, DNA-binding and biocidal ordeal of novel curcumin based Knoevenagel Schiff base complexes incorporating tryptophan: Synthesis and structural validation

Curcumin Knoevenagel's Schiff Base as a Promising Stabilizer of G-Quadruplex Structure

G-quadruplex DNA sequences present in the promoter and telomere regions of the genomic sequence are considered therapeutic targets for the treatment of cancer. Curcumin, derived from Curcuma longa, has been known as a quadruplex binder and has a potential role in the apoptosis of cancer cells. Here, we have reported the Schiff base ligand of curcumin synthesized through the condensation of the amino acid L-tryptophan and the knoevenagel derivative of curcumin (4-nitrobenzylidene curcumin (NBC)) as a potential G-quadruplex binder. Thus, spectroscopic and biophysical studies reveal a higher binding affinity of the ligand Sb-NBC towards the promoter and telomere G-quadruplex sequence as compared to the parent NBC. The ligand Sb-NBC highly stabilizes the parallel and hybrid G-quadruplex topologies to 10.5 °C-6.4 °C. Interestingly, the ligands also exhibit selective cytotoxicity toward cancer cells over normal cells. Taken together, this work provides evidence of the possibility of applying curcumin Schiff base in cancer therapy to regulate oncogene expression in cancer cells.

Curcumin-derivatives as fluorescence-electrochemical dual probe for ultrasensitive detections of picric acid in aqueous media

We are reporting the two curcumin derivatives, ferrocenyl curcumin (Fc-cur) and 4-nitro-benzylidene curcumin (NBC), as a probe through dual modalities, i.e., fluorescence and electrochemical methods, for the detection of nitro-analytes, such as picric acid (PA). The probes exhibited aggregation-induced enhanced emission (AIEE), and the addition of picric acid (PA) demonstrated good and specific fluorimetric identification of PA in the aggregated state. By using density functional theory (DFT), the mechanism of picric acid's (PA) interactions with the probes was further investigated. DFT studies shows evidence of charge transfer from curcumin derivatives probe to picric acid resulting into the formation of an adduct. The reduction of trinitrophenol (PA) to 2, 4, 6-trinitrosophenol was investigated utilizing a probe-modified glassy carbon electrode (GCE) with a good detection limit of 9.63 ± 0.001 pM and 41.01 ± 0.002 pM, respectively, for Fc-cur@GCE and NBC@GCE, taking into account the redox behavior of the probe. The applicability of the designed sensor has been utilized for real-time application in the estimation of picric acid in several water samples collected from the different source.

Mechanistic aspects of binding of telomeric over parallel G-quadruplex with novel synthesized Knoevenagel condensate 4-nitrobenzylidene curcumin

The introduction of small ligands to stabilise G-quadruplex DNA structures is a promising method for developing anti-cancer drugs. It is challenging to stabilise the G-quadruplex structure, which can take on a variety of topologies and is known to inhibit specific biological processes. To achieve this, 4-nitrobenzylidene curcumin (NBC), the Knoevenagel condensate of curcumin, was synthesized and characterized. The interaction of 4-nitrobenzylidene curcumin with parallel (c-MYC) and hybrid (H-telo) G-quadruplex structures was studied by circular dichroism (CD) spectroscopy, UV-thermal melting, differential scanning calorimetry (DSC), absorption spectroscopy, fluorescence spectroscopy and docking studies. The outcome demonstrates that, in a K+ -rich solution, the ligand NBC can stabilise the parallel c-MYC and hybrid H-telo G-quadruplex structures by 5°C. The absorption and fluorescence studies show that the ligand NBC binds to c-MYC and H-telo with affinities of 0.3 × 106  M-1 and 0.6 × 106  M-1 , respectively. The ligand interacts with the terminal G-quartet of the quadruplex structure via intercalation and the groove mode of binding, well supported by docking studies as well. NBC has more potent antioxidant activity as compared to the curcumin and 4-nitro benzaldehyde. It was also found to have higher cytotoxic activity towards cell line such as HeLa and MCF-7, while less cytotoxic for healthy Vero cells. Overall, the results show that the Knoevenagel product of curcumin can work better as a G-quadruplex binder and could be used as a possible treatment.

Design and synthesis of curcumin nanostructures: Evaluation of solubility, stability, antibacterial and antioxidant activities

By coupling a quaternary pyridinium compound and curcumin (CM), a new antimicrobial agent called CP was obtained. The poor water-solubility was the most important limiting factor in the use of CM and CP. To address this problem, a hydrophilic hyperbranched polyglycerol (PG) was synthesized and reacted with CM and CP via Schiff base reaction to form two new macromolecules. Due to the presence of polymer, the solubility and stability of CM and CP increased significantly in aqueous media. Since the new macromolecules were including the hydrophilic polymeric and curcumin hydrophobic units, they self-assembled into spherical nanostructures, which were characterized by Field emission scanning electron microscopy (FE-SEM) and transmission electron microscopy (TEM) images. The synthetic nanostructures exhibited a controlled release of curcumin unit in the acidic environment. In vitro experiments showed that the new macromolecules are potent antibacterial and antioxidant agents.

Selective targeting of the inactive state of hematopoietic cell kinase (Hck) with a stable curcumin derivative

Hck, a Src family nonreceptor tyrosine kinase (SFK), has recently been established as an attractive pharmacological target to improve pulmonary function in COVID-19 patients. Hck inhibitors are also well known for their regulatory role in various malignancies and autoimmune diseases. Curcumin has been previously identified as an excellent DYRK-2 inhibitor, but curcumin's fate is tainted by its instability in the cellular environment. Besides, small molecules targeting the inactive states of a kinase are desirable to reduce promiscuity. Here, we show that functionalization of the 4-arylidene position of the fluorescent curcumin scaffold with an aryl nitrogen mustard provides a stable Hck inhibitor (Kd = 50 ± 10 nM). The mustard curcumin derivative preferentially interacts with the inactive conformation of Hck, similar to type-II kinase inhibitors that are less promiscuous. Moreover, the lead compound showed no inhibitory effect on three other kinases (DYRK2, Src, and Abl). We demonstrate that the cytotoxicity may be mediated via inhibition of the SFK signaling pathway in triple-negative breast cancer and murine macrophage cells. Our data suggest that curcumin is a modifiable fluorescent scaffold to develop selective kinase inhibitors by remodeling its target affinity and cellular stability.

A review on biological activities of Schiff base, hydrazone, and oxime derivatives of curcumin

Schiff base, hydrazone, and oxime derivatives of curcumin showed enhanced biological activities.

The water soluble peripherally tetra-substituted zinc(ii), manganese(iii) and copper(ii) phthalocyanines as new potential anticancer agents

In this study, [2-(2-morpholin-4-ylethoxy)ethoxy] group substituted zinc(ii), manganese(iii) and copper(ii) phthalocyanines 2–4 and their water soluble derivatives 2a, 3a and 4a were synthesized and the interactions of compounds 2a, 3a and 4a with CT-DNA and supercoiled pBR322 plasmid DNA were investigated.