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相关概念视频

Phase II Conjugation Reactions: Overview01:14

Phase II Conjugation Reactions: Overview

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Conjugation, a key component of phase II biotransformation reactions, is a vital process in drug detoxification. It involves transferring endogenous substances like glucuronic acid, sulfate, and glycine to drugs or their metabolites formed in phase I reactions. These conjugation reactions, often catalyzed by specific enzymes, transform potentially harmful metabolites into inactive, water-soluble forms easily excreted in urine or bile. By enhancing polarity and eliminating pharmacological...
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Drug-receptor bonds are formed through various chemical forces when drugs interact with target cells. Covalent bonds, strong and irreversible, are exemplified by DNA-alkylating anticancer agents that inhibit cell division. However, such irreversible drug binding lacks selectivity and can modify the DNA of the surrounding healthy cells. Covalent binding often contributes to tissue toxicity, as seen with chloroform and paracetamol metabolites binding to the liver, causing hepatotoxicity.
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Drug Metabolism: Phase II Reactions01:14

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Phase II reactions are essential for the detoxification and elimination of drugs from the body. These reactions involve the conjugation of parent drugs or their phase I metabolites with endogenous molecules, resulting in more hydrophilic drug conjugates. The primary conjugation reactions in this phase are sulfation and glucuronidation. Both sulfation and glucuronidation typically produce biologically inactive metabolites. However, in some cases involving prodrugs, active metabolites may be...
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Combination Therapies and Personalized Medicine02:50

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Combining two or more treatment methods increases the life span of cancer patients while reducing damage to vital organs or tissue from the overuse of a single treatment. Combination therapy also targets different cancer-inducing pathways, thus reducing the chances of developing resistance to treatment.
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Cellular Membranes and Drug Transport01:24

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Drugs must traverse multiple biological barriers, such as multi-layered skin, single-layered intestinal epithelium, and the plasma membrane, to reach their target sites within the body. The plasma membrane, a highly structured composite of phospholipids, carbohydrates, and proteins, is the cell's protective boundary, facilitating selective substance exchange.
Phospholipids arrange themselves into a bilayer, with hydrophilic heads oriented outward and hydrophobic tails facing inward.
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Targets for Drug Action: Overview01:26

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Updated: Jun 22, 2025

Chemical Conjugation of a Purified DEC-205-Directed Antibody with Full-Length Protein for Targeting Mouse Dendritic Cells In Vitro and In Vivo
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细胞药物结合剂的结合剂

Yanfang Wang1,2, Jiaqi Shi1,2, Minhang Xin1

  • 1State Key Laboratory of Advanced Drug Delivery and Release Systems, College of Pharmaceutical Sciences, Zhejiang University, Hangzhou, China.

Nature biomedical engineering
|July 1, 2024
PubMed
概括
此摘要是机器生成的。

细胞药物结合体结合了活细胞和治疗药物,用于先进的药物输送和治疗. 这篇评论探讨了它们的设计,制备和在治疗癌症等疾病中的应用.

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科学领域:

  • 生物技术是生物技术.
  • 药理学 药理学是指药理学的学科.
  • 细胞生物学 细胞生物学

背景情况:

  • 细胞药物结合物将细胞组件与治疗剂合并.
  • 这些合物为药物输送和治疗应用提供了增强的功能.

研究的目的:

  • 审查设计功能细胞药物联合体的策略.
  • 讨论在疾病治疗中的制备技术和应用.
  • 探索这些系统的翻译挑战和机遇.

主要方法:

  • 关于细胞药物合物设计和制备的科学文献的综述.
  • 对详细介绍癌症和自身免疫性疾病治疗应用的研究进行分析.
  • 审查翻译方面的问题和未来的前景.

主要成果:

  • 细胞药物合物可以被设计为特定的功能,如向传递和免疫逃避.
  • 它们显示出治疗各种病理的潜力,包括癌症和自身免疫性疾病.
  • 设计策略和准备方法正在迅速发展.

结论:

  • 细胞药物联合体代表了一个有前途的治疗和药物输送平台.
  • 需要进一步的研究和开发来克服翻译方面的挑战.
  • 这种方法在治疗复杂疾病方面具有重大潜力.