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Targets for Drug Action: Overview01:26

Targets for Drug Action: Overview

6.6K
Drugs target macromolecules to modify ongoing cellular processes. Primary drug targets include receptors, ion channels, transporters, and enzymes.
Receptors are either membrane-spanning or intracellular proteins, which upon binding a ligand, get activated and transmit the signal downstream to elicit a response. Drugs bind receptors, either mimicking the action of endogenous ligands or blocking the receptor activity to bring about a modified response. Nearly 35% of approved drugs target the G...
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Targeted Cancer Therapies02:57

Targeted Cancer Therapies

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The targeted cancer therapies, also known as “molecular targeted therapies,” take advantage of the molecular and genetic differences between the cancer cells and the normal cells. It needs a thorough understanding of the cancer cells to develop drugs that can target specific molecular aspects that drive the growth, progression, and spread of cancer cells without affecting the growth and survival of other normal cells in the body.
There are several types of targeted therapies against...
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Drug Discovery: Overview01:26

Drug Discovery: Overview

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Drug discovery is a multifaceted process involving extensive screening, testing, and optimization of lead compounds to identify potential new drugs for therapeutic use. It combines several approaches, including screening large numbers of natural products, chemical modification of known active molecules, identification of new drug targets, and rational design based on biological mechanisms and drug-receptor structure. These approaches are carried out in both academic research laboratories and...
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Treatment Resistant Cancers02:56

Treatment Resistant Cancers

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Cancer is the second leading cause of death in the United States. A cancer cell is genetically unstable and hence can mutate faster. They can also modify their microenvironment and escape immune surveillance. The difficulties in treating cancer are further compounded by the emergence of rapid resistance to anticancer drugs. The most common ways to attain resistance in cancer cells include alteration in drug transport and metabolism, modification of drug target, elevated DNA damage response, or...
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Cellular Membranes and Drug Transport01:24

Cellular Membranes and Drug Transport

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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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Drug-Receptor Bonds01:25

Drug-Receptor Bonds

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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.
In...
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Video Experimental Relacionado

Updated: Aug 4, 2025

Looking for Driver Pathways of Acquired Resistance to Targeted Therapy: Drug Resistant Subclone Generation and Sensitivity Restoring by Gene Knock-down
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Looking for Driver Pathways of Acquired Resistance to Targeted Therapy: Drug Resistant Subclone Generation and Sensitivity Restoring by Gene Knock-down

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Dirigirse a los no drogados

Samuel F Bakhoum1,2

  • 1Human Oncology and Pathogenesis Program, Memorial Sloan Kettering Cancer Center (MSKCC), New York, NY, USA.

Science (New York, N.Y.)
|April 6, 2023
PubMed
Resumen
Este resumen es generado por máquina.

La investigación biológica básica descubre una nueva estrategia terapéutica para el tratamiento de cánceres caracterizados por la inestabilidad cromosómica. Este enfoque se dirige a los procesos biológicos fundamentales para combatir estos tumores agresivos.

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Área de la Ciencia:

  • La genética
  • En el campo de la oncología
  • Biología molecular

Sus antecedentes:

  • La inestabilidad cromosómica es una característica de muchos cánceres, contribuyendo a la progresión del tumor y la resistencia al tratamiento.
  • Comprender los mecanismos biológicos básicos que subyacen a la inestabilidad cromosómica es crucial para desarrollar terapias efectivas contra el cáncer.

Objetivo del estudio:

  • Explorar las vías biológicas fundamentales que pueden ser terapéuticamente dirigidas en cánceres cromosómicamente inestables.
  • Identificar una nueva estrategia de tratamiento basada en conocimientos de la biología básica.

Principales métodos:

  • Investigó los mecanismos moleculares clave involucrados en el mantenimiento de la estabilidad cromosómica.
  • Utilizó enfoques genéticos y de biología celular para validar objetivos terapéuticos potenciales.

Principales resultados:

  • Se identificó una vía biológica específica que, cuando se modula, afecta la viabilidad de las células cancerosas en contextos cromosómicamente inestables.
  • Demostró el potencial de dirigirse a esta vía como una estrategia terapéutica.

Conclusiones:

  • La investigación biológica básica puede dar lugar a tratamientos innovadores para enfermedades complejas como el cáncer.
  • Dirigirse a los procesos celulares fundamentales ofrece una vía prometedora para el tratamiento de cánceres cromosómicamente inestables.