Diarylpropionitrile: Difference between revisions

Latest revision as of 05:16, 16 February 2025

Diarylpropionitrile[edit]

Chemical structure of Diarylpropionitrile

Diarylpropionitrile (DPN) is a synthetic chemical compound that acts as a selective agonist for the estrogen receptor beta (ER_). It is commonly used in scientific research to study the role of ER_ in various biological processes.

Chemical Structure[edit]

Diarylpropionitrile is characterized by its distinctive chemical structure, which includes two aryl groups attached to a propionitrile moiety. The presence of these aryl groups is crucial for its selective binding affinity towards ER_ over the estrogen receptor alpha (ER_).

Mechanism of Action[edit]

DPN functions by binding to the estrogen receptor beta, which is one of the two main types of estrogen receptors found in the body. Upon binding, DPN activates ER_, leading to the modulation of gene expression and subsequent physiological effects. This selective activation is valuable for distinguishing the specific roles of ER_ in contrast to ER_.

Biological Significance[edit]

The selective activation of ER_ by diarylpropionitrile has been instrumental in elucidating the distinct functions of ER_ in various tissues. Research has shown that ER_ plays a role in the regulation of neuroprotection, inflammation, and cardiovascular health. DPN has been used in studies to explore these effects, providing insights into potential therapeutic applications.

Applications in Research[edit]

Diarylpropionitrile is widely used in preclinical research to investigate the physiological and pathological roles of ER_. It serves as a tool compound in studies aiming to develop selective ER_ modulators for therapeutic purposes. The compound's ability to selectively target ER_ makes it a valuable asset in the study of diseases such as breast cancer, prostate cancer, and osteoporosis.

Safety and Handling[edit]

As with many research chemicals, proper safety protocols should be followed when handling diarylpropionitrile. It should be used in a controlled laboratory environment, with appropriate personal protective equipment to minimize exposure risks.

Related Pages[edit]

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-'''Diarylpropionitrile''' (also known as '''DPN''') is a synthetic, nonsteroidal estrogen that is primarily used in scientific research. It is specifically a selective [[ERβ]] agonist, and has no affinity for [[ERα]]. DPN was first described in 2000 and was the first selective ERβ agonist to be discovered.
+{{DISPLAYTITLE:Diarylpropionitrile}}
-==Pharmacology==
+== Diarylpropionitrile ==
-DPN acts as a selective [[agonist]] of ERβ, one of two main types of [[estrogen receptor]]. It shows no affinity for ERα. The selectivity of DPN for ERβ over ERα is about 70-fold. The compound has been found to possess potent [[estrogenic]] activity in various in vitro and in vivo assays.
+[[File:Diarylpropionitrile.svg|thumb|right|Chemical structure of Diarylpropionitrile]]
-==Chemistry==
+'''Diarylpropionitrile''' (DPN) is a synthetic chemical compound that acts as a selective agonist for the [[estrogen receptor]] beta (ER_). It is commonly used in scientific research to study the role of ER_ in various biological processes.
-DPN is a synthetic compound and is not found in nature. It is a member of the class of compounds known as [[phenols]], which are aromatic compounds that contain a phenolic hydroxyl group. DPN is also a [[nitrile]], which is a compound that contains a cyano functional group (-C≡N).
-==Research==
+== Chemical Structure ==
-DPN has been used in scientific research to study the function of ERβ and its potential roles in disease. It has been found to have anti-inflammatory, neuroprotective, and antidepressant-like effects in animal research, among other actions. DPN has also been used to study the potential therapeutic benefits of selective ERβ activation in various conditions, including [[neurodegenerative diseases]], [[depression]], and [[cancer]].
+Diarylpropionitrile is characterized by its distinctive chemical structure, which includes two aryl groups attached to a propionitrile moiety. The presence of these aryl groups is crucial for its selective binding affinity towards ER_ over the estrogen receptor alpha (ER_).
-==See also==
+== Mechanism of Action ==
-* [[List of estrogen agonists]]
+DPN functions by binding to the estrogen receptor beta, which is one of the two main types of estrogen receptors found in the body. Upon binding, DPN activates ER_, leading to the modulation of gene expression and subsequent physiological effects. This selective activation is valuable for distinguishing the specific roles of ER_ in contrast to ER_.
-* [[List of phenols]]
-[[Category:Estrogens]]
+== Biological Significance ==
-[[Category:Phenols]]
+The selective activation of ER_ by diarylpropionitrile has been instrumental in elucidating the distinct functions of ER_ in various tissues. Research has shown that ER_ plays a role in the regulation of [[neuroprotection]], [[inflammation]], and [[cardiovascular health]]. DPN has been used in studies to explore these effects, providing insights into potential therapeutic applications.
-[[Category:Nitriles]]
-[[Category:Selective ERβ agonists]]
-{{stub}}
+== Applications in Research ==
+Diarylpropionitrile is widely used in [[preclinical research]] to investigate the physiological and pathological roles of ER_. It serves as a tool compound in studies aiming to develop selective ER_ modulators for therapeutic purposes. The compound's ability to selectively target ER_ makes it a valuable asset in the study of diseases such as [[breast cancer]], [[prostate cancer]], and [[osteoporosis]].
+== Safety and Handling ==
+As with many research chemicals, proper safety protocols should be followed when handling diarylpropionitrile. It should be used in a controlled laboratory environment, with appropriate personal protective equipment to minimize exposure risks.
+== Related Pages ==
+* [[Estrogen receptor]]
+* [[Selective estrogen receptor modulator]]
+* [[Neuroprotection]]
+* [[Breast cancer]]
+[[Category:Chemical compounds]]
+[[Category:Estrogen receptor modulators]]