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1. Comprehensive live-cell imaging analysis of cryptotanshinone and synergistic drug-screening effects in various human and canine cancer cell lines

   https://doi.org/10.1371/journal.pone.0236074  

   Bittner, Michael L.; Lopes, Rosana; Hua, Jianping; Sima, Chao; Datta, Aniruddha; Wilson-Robles, Heather (February 2021, PLOS ONE)

   Mohan, Chakrabhavi Dhananjaya (Ed.)

   Background Several studies have highlighted both the extreme anticancer effects of Cryptotanshinone (CT), a Stat3 crippling component from Salvia miltiorrhiza , as well as other STAT3 inhibitors to fight cancer. Methods Data presented in this experiment incorporates 2 years of in vitro studies applying a comprehensive live-cell drug-screening analysis of human and canine cancer cells exposed to CT at 20 μM concentration, as well as to other drug combinations. As previously observed in other studies, dogs are natural cancer models, given to their similarity in cancer genetics, epidemiology and disease progression compared to humans. Results Results obtained from several types of human and canine cancer cells exposed to CT and varied drug combinations, verified CT efficacy at combating cancer by achieving an extremely high percentage of apoptosis within 24 hours of drug exposure. Conclusions CT anticancer efficacy in various human and canine cancer cell lines denotes its ability to interact across different biological processes and cancer regulatory cell networks, driving inhibition of cancer cell survival. 

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2. Enhancing Anti-Tumorigenic Efficacy of Eugenol in Human Colon Cancer Cells Using Enzyme-Responsive Nanoparticles

   https://doi.org/10.3390/cancers15041145  

   Wijewantha, Nisitha; Sane, Sanam; Eikanger, Morgan; Antony, Ryan M; Potts, Rashaun A; Lang, Lydia; Rezvani, Khosrow; Sereda, Grigoriy (February 2023, Cancers)

   This study is focused on the selective delivery and release of the plant-based anticancer compound eugenol (EUG) in colorectal cancer cells (CRC). EUG is an apoptotic and anti-growth compound in diverse malignant tumors, including CRC. However, EUG’s rapid metabolization, excretion, and side effects on normal cells at higher dosages are major limitations of its therapeutic potential. To address this problem, we developed a “smart” enzyme-responsive nanoparticle (eNP) loaded with EUG that exposes tumors to a high level of the drug while keeping its concentration low among healthy cells. We demonstrated that EUG induces apoptosis in CRC cells irrespective of their grades in a dose- and time-dependent manner. EUG significantly decreases cancer cell migration, invasion, and the population of colon cancer stem cells, which are key players in tumor metastasis and drug resistance. The “smart” eNPs–EUG show a high affinity to cancer cells with rapid internalization with no affinity toward normal colon epithelial cells. NPs–EUG enhanced the therapeutic efficacy of EUG measured by a cell viability assay and showed no toxicity effect on normal cells. The development of eNPs–EUG is a promising strategy for innovative anti-metastatic therapeutics. 

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3. Nanomaterials for Protein Delivery in Anticancer Applications

   https://doi.org/10.3390/pharmaceutics13020155  

   Yau, Anne; Lee, Jinhyung; Chen, Yupeng (February 2021, Pharmaceutics)

   null (Ed.)

   Nanotechnology platforms, such as nanoparticles, liposomes, dendrimers, and micelles have been studied extensively for various drug deliveries, to treat or prevent diseases by modulating physiological or pathological processes. The delivery drug molecules range from traditional small molecules to recently developed biologics, such as proteins, peptides, and nucleic acids. Among them, proteins have shown a series of advantages and potential in various therapeutic applications, such as introducing therapeutic proteins due to genetic defects, or used as nanocarriers for anticancer agents to decelerate tumor growth or control metastasis. This review discusses the existing nanoparticle delivery systems, introducing design strategies, advantages of using each system, and possible limitations. Moreover, we will examine the intracellular delivery of different protein therapeutics, such as antibodies, antigens, and gene editing proteins into the host cells to achieve anticancer effects and cancer vaccines. Finally, we explore the current applications of protein delivery in anticancer treatments. 

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4. Curcumin Downregulates the Expression of p44/42 MAPK and Causes Caspase-mediated Cell Inhibition in MCF-7 Breast Cancer Cells

   Adewumi, H; Carter, G; Bhuiyan, S (January 2020, Bioresearch communications)

   Curcumin is a derivative of the turmeric spice, which is a yellow-pigmented root crop with a resilient sheath and bright orange flesh. It is originally known to be utilized in Asian dishes but, has been discovered to have antioxidant, anti-inflammatory, antiviral, antibacterial and anticancer characteristics. Different researchers have established great possibilities of curcumin's ability to prohibit the growth of cancer cells especially, because of its potentiality to differentiate between normal and cancerous cells. Research questions include understanding the effects of curcumin on the MCF-7 breast cancer cells with regards to the biomolecules of the cells. The results indicated that after attachment of cells for 48 hours, the concentration of curcumin at 15 µM showed more than 90% inhibition of cells within 24 hours. The analysis was carried out on the viability of the cells, western blotting and reverse transcriptase-polymerase chain reaction. Western blot analysis of signaling proteins from curcumin-treated cells showed that the expression level of phosphorylated protein p44/42 in the MAP kinase pathway was significantly decreased and the apoptotic marker cleaved caspase 3 was increased as compared to the curcumin-untreated control cells. Moreover, RT-PCR analysis of the reference genes in the apoptotic pathway (p53, caspase 9, BCL-2 and Bax) demonstrated the upregulation of p53, Bax and caspase 9 genes. The results assembled from this present study suggested that curcumin inhibited the growth and induced caspase-mediated apoptosis of MCF-7 cells via the MAPK signaling pathway. Therefore, breast cancer treatment with curcumin seems to be a promising remedial path in near future. 

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5. New triorganotin( iv ) compounds with aromatic carboxylate ligands: synthesis and evaluation of the pro-apoptotic mechanism

   https://doi.org/10.1039/D0RA06695H  

   Rashid, Faisal; Uddin, Noor; Ali, Saqib; Haider, Ali; Tirmizi, Syed Ahmad; Diaconescu, Paula L.; Iqbal, Jamshed (January 2021, RSC Advances)

   Three new organotin( iv ) carboxylate compounds were synthesized and structurally characterized by elemental analysis and FT-IR and multinuclear NMR ( 1 H, 13 C, 119 Sn) spectroscopy. Single X-ray crystallography reveals that compound C2 has a monoclinic crystal system with space group P 2 1 / c having distorted bipyramidal geometry defined by C 3 SnO 2 . The synthesized compounds were screened for drug-DNA interactions via UV-Vis spectroscopy and cyclic voltammetry showing good activity with high binding constants. Theoretical investigations also support the reactivity of the compounds as depicted from natural bond orbital (NBO) analysis using Gaussian 09. Synthesized compounds were initially evaluated on two cancer (HeLa and MCF-7) cell lines and cytotoxicity to normal cells was evaluated using a non-cancerous (BHK-21) cell line. All the compounds were found to be active, with IC 50 values less than that of the standard drug i.e. cisplatin. The cytotoxic effect of the most potent compound C2 was confirmed by LDH cytotoxicity assay and fluorescence imaging after PI staining. Apoptotic features in compound C2 treated cancer cells were visualized after DAPI staining while regulation of apoptosis was observed by reactive oxygen species generation, binding of C2 with DNA, a change in mitochondrial membrane potential and expression of activated caspase-9 and caspase-3 in cancer cells. Results are indicative of activation of the intrinsic pathway of apoptosis in C2 treated cancer cells. 

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