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Identification of Major Esterase Involved in Hydrolysis of Soft Anticholinergic (2R3'R-SGM) Designed From Glycopyrrolate in Human and Rat Tissues.
Author: BodorNicholas, ImaiTeruko, OhuraKayoko, SamirAhmed
Original Abstract of the Article :
The glycopyrrolate soft analog, SGM, designed to be easily hydrolyzed into the significantly less active zwitterionic metabolite, SGa, typifies soft drug that reduces systemic side effects (a problem often seen with traditional anticholinergics) following local administration. In this study, hydroly...See full text at original site
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引用元:
https://doi.org/10.1016/j.xphs.2019.03.030
データ提供:米国国立医学図書館(NLM)
Investigating the Hydrolysis of SGM, a Soft Anticholinergic
The world of pharmaceuticals is a vast desert, filled with intricate pathways and complex interactions. This study explores the metabolism of SGM, a novel anticholinergic designed to be easily hydrolyzed into a less active form, reducing systemic side effects. The researchers investigated the breakdown of SGM in human and rat tissues, identifying plasma paraoxonase 1 (PON1) as the key enzyme responsible for its hydrolysis. This finding has significant implications for the development of targeted and safer drug delivery systems.
SGM: A Soft Drug with a Unique Metabolic Profile
The study found that SGM, a soft anticholinergic, is rapidly metabolized by PON1 in plasma, reducing its systemic side effects. This targeted breakdown ensures localized efficacy while minimizing unwanted systemic effects. The researchers also confirmed that SGM is stable in liver and intestine, suggesting a potentially safer drug delivery system. This innovative approach to drug design could pave the way for more targeted and effective treatments.
Harnessing the Power of Soft Drugs: A New Frontier in Pharmacology
The concept of soft drugs, like SGM, offers a promising approach to drug development, aiming to minimize systemic side effects and maximize localized efficacy. The study's findings suggest that SGM's unique metabolic profile could be leveraged for the development of safer and more effective anticholinergic treatments, leading to improved patient outcomes. This innovative approach to drug design has the potential to revolutionize how we develop and administer medications.
Dr. Camel's Conclusion
The study's findings demonstrate the potential of soft drugs, like SGM, to revolutionize the way we treat various medical conditions. The targeted breakdown of SGM, mediated by PON1, offers a promising strategy for minimizing systemic side effects and maximizing localized efficacy. This research opens a new chapter in drug development, offering exciting possibilities for safer and more effective therapies.
Date :
- Date Completed 2020-08-17
- Date Revised 2020-08-17
Further Info :
Related Literature
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