F Esra Önen Bayram scite author profile

A novel series of 8-substituted coumarin-based compounds, characterized by the presence of alkylpiperazine and arylpiperazine chains, were synthesized and tested for their inhibitory activity against four human carbonic anhydrase (hCA) isoforms. All compounds displayed nanomolar potency against the cancer-related hCA IX and hCA XII; moreover, they were shown to be devoid of any inhibitory activity toward the cytosolic hCA I and hCA II up to 10 µM concentration in the assay system. Therefore, the synthesized coumarin ligands demonstrated to be potent and selective hCA IX/XII inhibitors, and were shown to be as potent as the reference inhibitor acetazolamide against hCA XII, with single-digit nanomolar Ki values. Molecular modeling studies provided a rationale for explaining the selectivity profile of these non-classic hCA inhibitors and their interactions with the enzymes, according to their specific mechanism of action, thus paving the way for future structure-based lead optimization studies.

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The Importance of the Structural Similarity of Drugs Used for Depression and Inflammation, Two Comorbid Diseases

Bayram

Reıs

Tunçer

et al. 2018

CTMC

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Growing evidence links inflammation to depression and the combination of antiinflammatory drugs with an antidepressant to treat depressive symptoms is currently suggested. There are only few studies concerning the molecular mechanism underlying this comorbidity, and many of them point out the importance of the tryptophan pathway. There is yet no data that analyzes the structural similarity of the molecules used for the treatment of these comorbid diseases. This review aimed first to classify current antidepressant drugs and Non-steroidal Anti-inflammatory Drugs (NSAIDs) according to their structure. Molecules with two aromatic rings linked with a heteroatom or a carbonyl group (vortioxetine, ketoprofen, diclofenac), or presenting a naphtyl moiety in their structure (duloxetine, agomelatine, naproxen, nabumetone) were found to be structurally related. The antidepressant activity of these NSAIDs and the anti-inflammatory activity of these antidepressants were investigated. The literature search interestingly revealed reports indicating a serotonin-related antidepressant activity of the NSAIDs for structures found to be structurally similar to some antidepressants. Similarly, the antiinflammatory activity of the corresponding antidepressants was found to be correlated to the tryptophan metabolism pathway. These findings suggest a common molecular mechanism involved in both of the diseases and exhibit the importance of the molecular structure for a drug to be a potent antidepressant and/or anti-inflammatory agent.

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Investigation of the Biocompatibility of Surgical Masks

Sipahl

Bayram

Palabıyık

et al. 2018

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According to the ISO10993-1 standard medical devices should be evaluated before marketing. Although there are studies that monitor the toxicity of several marketed medical devices, none of them describe the toxicity of masks that are widely used to avoid occupational exposure to biological hazard or toxic chemicals. The aim of this study was to evaluate the biocompatibility of eight purchased surgical masks of different brands, investigating their cytotoxicity and inflammation inducing capacity. Cytotoxicity was assessed via the MTT cell viability assay and inflammation was monitored by measuring nitrite, kynurenine and tryptophan levels. A preliminary study revealed that four samples were capable of killing L929 cells. Therefore the materials composing these masks were also evaluated separately. While the exposure to non-woven materials did not involve any changes in cell survival, exposing cells to elastic and sponge materials led to death in significant levels. Also, significant increases in nitrite levels with a decrease in tryptophan and kynurenine levels were obtained with cells treated with these materials, suggesting an inflammatory response that could be related to the observed cytotoxicity. Our studies revealed that the half of the randomly collected masks did not suit the biocompatibility criteria established by the ISO10993-1 standard, which is a quite unexpected result.

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Piperazine and piperidine‐substituted 7‐hydroxy coumarins for the development of anti‐inflammatory agents

Buran

Reıs

Sipahi

et al. 2021

Archiv der Pharmazie

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Coumarins (2H‐1‐benzopyran‐2‐one), derivatives that can be isolated from several plants, have been reported for their anticoagulant, antimicrobial, anti‐inflammatory, or anticancer activity. Some of these structures are currently approved for the treatment of cardiovascular diseases, as antibiotics or as an anticancer drug. Given the great potential of this structure and the limited number of studies that focus on molecules derived from carbon 8 of the benzopyranone heterocycle, we synthesized in this project 38 coumarin derivatives by substituting carbon 8 of the benzopyran ring with some aromatic and aliphatically substituted piperidines and piperazines. As a few of these structures were already shown to exhibit some carbonic anhydrase (CA) inhibition and as CA enzymes are reported to be closely related to inflammation, the synthesized derivatives were evaluated for their anti‐inflammatory activity in vitro. The results indicated that compounds 20 and 31 revealed promising anti‐inflammatory activity, as they demonstrated better activity than the reference drugs.

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