De novo design of pimarane diterpenoid compounds as potential alternatives to sarecycline for acne vulgaris treatment

IF 1.1 Q4 PHARMACOLOGY & PHARMACY

Pharmacia Pub Date : 2023-10-19 DOI:10.3897/pharmacia.70.e113065

Adeola Tawakalitu Kola-Mustapha

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Abstract

Acne vulgaris is a prevalent skin disorder that affects both adolescents and adults and has a major psychological impact. Antibiotic resistance is one issue that current therapies, including antibiotics, must address. A viable approach is to target Cutibacterium acnes , a crucial bacterium in the development of acne. An antibiotic of the tetracycline class called sarecycline shows efficacy despite resistance and adverse effect issues. The purpose of this study is to develop, assess, and compare the efficacy of Sandracopimar (Pimarane diterpenoids) compounds and Sarecycline in the treatment of acne by targeting the 30S ribosomal subunit of Cutibacterium acnes . Sarecycline’s binding affinity and PheSA score were assessed at the 30S ribosomal subunit binding site of Cutibacterium acnes . There were distinct interactions between Sarecycline and the ribosomal subunit, including hydrophobic and hydrogen bonding. Sarecycline demonstrated a strong binding affinity (-8.2 kcal/mol) and a PheSA score of 0.53184 within the Cutibacterium acnes 30S ribosomal subunit binding site. Sandaracopimar-15-ene-6.beta.,8.beta.-diol exhibited a binding affinity of -7.3 kcal/mol and PheSA score of 0.37252. Compound 1, a novel compound derived from Sandaracopimar-15-ene-6.beta.,8.beta.-diol, showed a slightly higher binding affinity (-8.3 kcal/mol) than Sarecycline. The molecular dynamics simulation results reveal that Compound 1 exhibited stability during a specific phase, indicating favorable binding potential with the Cutibacterium acnes 30S ribosomal subunit drug target. The compound demonstrated structural flexibility, advantageous for molecular interactions. The study indicates that Sandracopimar-derived compounds, including Compound 1, show comparable parameters to Sarecycline, suggesting similar activity in targeting the Cutibacterium acnes 30S ribosomal subunit. These compounds may serve as a potential source of novel anti-acne compounds.

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重新设计海玛烷二萜化合物作为治疗寻常性痤疮的沙环素的潜在替代品

寻常痤疮是一种流行的皮肤病，影响青少年和成年人，并有重大的心理影响。抗生素耐药性是目前包括抗生素在内的治疗方法必须解决的一个问题。一种可行的方法是针对痤疮角质杆菌，这是痤疮发展的关键细菌。四环素类的一种抗生素被称为沙环素，尽管存在耐药性和副作用问题，但仍显示出疗效。本研究旨在通过对痤疮表皮杆菌30S核糖体亚基的靶向治疗，开发、评估和比较海马兰二萜类化合物Sandracopimar和沙环素治疗痤疮的疗效。在痤疮表皮杆菌的30S核糖体亚基结合位点评估沙环素的结合亲和力和PheSA评分。沙环素与核糖体亚基之间存在明显的相互作用，包括疏水性和氢键。Sarecycline在痤疮表皮杆菌30S核糖体亚基结合位点表现出较强的结合亲和力(-8.2 kcal/mol)， PheSA评分为0.53184。sandaracopimar, 15 -烯- 6. - beta 8. beta。-diol的结合亲和力为-7.3 kcal/mol, PheSA评分为0.37252。化合物1，一种新化合物，从山檀香-15-烯-6. β，8. β中提取。-二醇的结合亲和力(-8.3 kcal/mol)略高于沙环素。分子动力学模拟结果表明，化合物1在特定阶段表现出稳定性，表明与痤疮表皮杆菌30S核糖体亚基药物靶点具有良好的结合潜力。该化合物具有结构柔韧性，有利于分子间的相互作用。该研究表明，sandracopimar衍生的化合物，包括化合物1，与Sarecycline具有相似的参数，表明其靶向痤疮表皮杆菌30S核糖体亚基的活性相似。这些化合物可作为新型抗痤疮化合物的潜在来源。

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