A review on progress of thiazole derivatives as potential anti-inflammatory agents

Kereyagalahally H. Narasimhamurthy , Toreshettahally R. Swaroop , Kanchugarakoppal S. Rangappa
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Abstract

Inflammation is a body response against infection that activates other biological components that include various cytokines, chemokines and other biological compounds that trigger body response against pathological activities. The Arachidonic acid pathway is involved in the inflammation that is connected with lipoxygenase (LOX) and cyclooxygenase (COX) enzymes. The importance of the isoforms of LOX and COX in inflammation is well studied. At the cellular level, some of the thiazole derivatives showed potent anti-inflammatory activities especially to block LOX5 and COX2 in the inflammation. These factors include both acute and chronic inflammation in various tissues like the heart, kidney, pancreas, brain, intestine, lungs and other organs as well that lead to the damage of the organs or cells. Whether it's the infectious or non-infectious response it will further activate some of the downstream signaling pathways like lipoxygenase, cyclooxygenase, cytochrome 450, JAK-STAT, MAPK, JNK, TNF-α, Nfr2, and many more pathways that lead to activation of another chronic disease in the body. In this review, we will concentrate on thiazole molecules that serve as anti-inflammatory responses to both acute and chronic inflammation. Further, we discussed the evidence that correlates the possible connection with LOX and COX enzymes in the inflammatory pathways and their blocking ability especially through thiazole derivatives has been discussed in this present review. The current assessment is the best part of the present consequence of thiazole derivatives on anti-inflammatory studies, covering articles published from 1973 to 2023.

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噻唑衍生物作为潜在抗炎剂的研究进展综述
炎症是机体对感染的一种反应,它会激活其他生物成分,包括各种细胞因子、趋化因子和其他生物化合物,从而引发机体对病理活动的反应。花生四烯酸途径参与了炎症,它与脂氧合酶 (LOX) 和环氧合酶 (COX) 有关。LOX 和 COX 同工酶在炎症中的重要性已得到深入研究。在细胞水平上,一些噻唑衍生物显示出强大的抗炎活性,尤其是在炎症中阻断 LOX5 和 COX2。这些因素包括心脏、肾脏、胰腺、大脑、肠道、肺部和其他器官等各种组织中的急性和慢性炎症,这些炎症会导致器官或细胞受损。无论是感染性反应还是非感染性反应,都会进一步激活一些下游信号通路,如脂氧合酶、环氧化酶、细胞色素 450、JAK-STAT、MAPK、JNK、TNF-α、Nfr2 等,从而导致体内另一种慢性疾病的激活。在这篇综述中,我们将集中讨论作为急性和慢性炎症抗炎反应的噻唑分子。此外,我们还讨论了与炎症途径中的 LOX 和 COX 酶可能存在关联的证据,以及它们的阻断能力,特别是通过噻唑衍生物的阻断能力。目前的评估是目前噻唑衍生物在抗炎研究中的最佳结果,涵盖了从 1973 年到 2023 年发表的文章。
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