Membrane progesterone receptor: Difference between revisions

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'''Membrane progesterone receptor''' (mPR) is a [[protein]] that in humans is encoded by the PAQR7 [[gene]]. mPR is a member of the [[progesterone receptor]] family, which is a group of proteins that are activated by the [[steroid hormone]] progesterone.
{{Short description|Overview of membrane progesterone receptors}}


== Function ==
== Membrane Progesterone Receptors ==


The primary function of the membrane progesterone receptor is to mediate the effects of progesterone, which is a hormone that plays important roles in the [[menstrual cycle]], [[pregnancy]], and [[embryogenesis]] of humans and other species. mPR is a [[G protein-coupled receptor]] that activates a [[second messenger]] system to initiate a complex series of events within the cell.
[[File:Progesterone.png|thumb|right|Chemical structure of progesterone]]


== Structure ==
'''Membrane progesterone receptors''' (mPRs) are a class of [[receptor proteins]] that are located on the cell membrane and are involved in the non-genomic actions of the hormone [[progesterone]]. Unlike the classical nuclear progesterone receptors, which act by regulating gene transcription, mPRs mediate rapid cellular responses to progesterone.


The structure of mPR is characterized by seven transmembrane domains, which is a common feature of G protein-coupled receptors. The receptor is located in the [[cell membrane]], where it binds to progesterone.
== Structure and Function ==


== Clinical significance ==
Membrane progesterone receptors are part of the [[progestin and adipoQ receptor family]] (PAQR). They are characterized by their seven-transmembrane domain structure, which is typical of [[G protein-coupled receptors]] (GPCRs). However, mPRs are distinct from classical GPCRs in their signaling mechanisms.


Alterations in the function of the membrane progesterone receptor can lead to a variety of health conditions. For example, reduced activity of mPR has been associated with [[premenstrual syndrome]] and [[infertility]]. Conversely, increased activity of mPR has been linked to the development of certain types of [[breast cancer]] and [[endometrial cancer]].
mPRs are involved in various physiological processes, including the regulation of [[reproductive system|reproductive functions]], [[immune response]], and [[nervous system]] activities. They are known to mediate rapid signaling events such as the activation of [[second messenger systems]] like [[cyclic AMP]] and [[calcium ion]] fluxes.


== See also ==
== Types of Membrane Progesterone Receptors ==
 
There are several types of membrane progesterone receptors, including:
 
* '''mPR_ (alpha)'''
* '''mPR_ (beta)'''
* '''mPR_ (gamma)'''
* '''mPR_ (delta)'''
* '''mPR_ (epsilon)'''
 
Each subtype has distinct tissue distributions and physiological roles. For example, mPR_ is predominantly expressed in the [[ovary]] and [[brain]], while mPR_ is found in the [[placenta]] and [[testes]].
 
== Mechanism of Action ==
 
[[File:Cell membrane drawing.png|thumb|left|Diagram of a cell membrane showing receptor locations]]
 
Membrane progesterone receptors initiate signaling cascades upon binding to progesterone. This binding leads to the activation of intracellular signaling pathways, such as the [[mitogen-activated protein kinase]] (MAPK) pathway, which can result in changes in cell function and behavior.
 
The rapid actions of mPRs are crucial for processes such as [[oocyte maturation]], [[sperm motility]], and [[neuroprotection]]. These receptors can also modulate the activity of ion channels and influence [[cellular metabolism]].
 
== Clinical Significance ==
 
The study of membrane progesterone receptors has significant implications for understanding various health conditions. Abnormal mPR function has been linked to disorders such as [[infertility]], [[cancer]], and [[neurodegenerative diseases]].
 
Research into mPRs is ongoing, with potential therapeutic applications in developing drugs that target these receptors to treat reproductive and neurological disorders.
 
== Related Pages ==


* [[Progesterone receptor]]
* [[Progesterone receptor]]
* [[Steroid hormone]]
* [[G protein-coupled receptor]]
* [[G protein-coupled receptor]]
* [[Hormone signaling]]
* [[Reproductive endocrinology]]


== References ==
[[Category:Receptors]]
 
[[Category:Endocrinology]]
{{reflist}}
[[Category:Cell signaling]]
 
[[Category:Protein]]
[[Category:Gene]]
[[Category:Hormone]]
[[Category:Receptor]]
{{protein-stub}}
{{gene-stub}}
{{medicine-stub}}
<gallery>
File:Membrane-progesterone-receptor-alpha.png|Membrane progesterone receptor alpha
File:Membrane-progesterone-receptor-beta.png|Membrane progesterone receptor beta
File:Membrane-progesterone-receptor-gamma.png|Membrane progesterone receptor gamma
File:Membrane-progesterone-receptor-delta.png|Membrane progesterone receptor delta
File:Membrane-progesterone-receptor-epsilon.png|Membrane progesterone receptor epsilon
File:Mpr_pathway_example.png|Membrane progesterone receptor pathway example
</gallery>

Revision as of 17:43, 18 February 2025

Overview of membrane progesterone receptors


Membrane Progesterone Receptors

Chemical structure of progesterone

Membrane progesterone receptors (mPRs) are a class of receptor proteins that are located on the cell membrane and are involved in the non-genomic actions of the hormone progesterone. Unlike the classical nuclear progesterone receptors, which act by regulating gene transcription, mPRs mediate rapid cellular responses to progesterone.

Structure and Function

Membrane progesterone receptors are part of the progestin and adipoQ receptor family (PAQR). They are characterized by their seven-transmembrane domain structure, which is typical of G protein-coupled receptors (GPCRs). However, mPRs are distinct from classical GPCRs in their signaling mechanisms.

mPRs are involved in various physiological processes, including the regulation of reproductive functions, immune response, and nervous system activities. They are known to mediate rapid signaling events such as the activation of second messenger systems like cyclic AMP and calcium ion fluxes.

Types of Membrane Progesterone Receptors

There are several types of membrane progesterone receptors, including:

  • mPR_ (alpha)
  • mPR_ (beta)
  • mPR_ (gamma)
  • mPR_ (delta)
  • mPR_ (epsilon)

Each subtype has distinct tissue distributions and physiological roles. For example, mPR_ is predominantly expressed in the ovary and brain, while mPR_ is found in the placenta and testes.

Mechanism of Action

File:Cell membrane drawing.png
Diagram of a cell membrane showing receptor locations

Membrane progesterone receptors initiate signaling cascades upon binding to progesterone. This binding leads to the activation of intracellular signaling pathways, such as the mitogen-activated protein kinase (MAPK) pathway, which can result in changes in cell function and behavior.

The rapid actions of mPRs are crucial for processes such as oocyte maturation, sperm motility, and neuroprotection. These receptors can also modulate the activity of ion channels and influence cellular metabolism.

Clinical Significance

The study of membrane progesterone receptors has significant implications for understanding various health conditions. Abnormal mPR function has been linked to disorders such as infertility, cancer, and neurodegenerative diseases.

Research into mPRs is ongoing, with potential therapeutic applications in developing drugs that target these receptors to treat reproductive and neurological disorders.

Related Pages

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