Adenylyl cyclase

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Adenylyl Cyclase is an [[Enzyme|enzyme]] that catalysis the conversion of  [[ATP|ATP]] into [[CAMP|Cyclic AMP]] ([[CAMP|cAMP]]), which acts as a [[Secondary messenger|secondary messenger]]. As the diagram shows below a [[pyrophosphate|pyrophosphate]] [[Molecule|molecule]] is removed in this reaction.   
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Adenylyl Cyclase is an [[Enzyme|enzyme]] that catalysis the conversion of  [[ATP|ATP]] into [[CAMP|Cyclic AMP]] ([[CAMP|cAMP]]), which acts as a [[Secondary messenger|secondary messenger]]. As the diagram shows below a [[Pyrophosphate|pyrophosphate]] [[Molecule|molecule]] is removed in this reaction.   
  
'''            Adenylyl Cyclase'''
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'''            Adenylyl Cyclase'''  
  
 
ATP --------------------------------> cAMP  +  PPi  
 
ATP --------------------------------> cAMP  +  PPi  
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It's&nbsp;activity is&nbsp;altered through the binding of various&nbsp;[[Hormones|hormones]],&nbsp;[[Epinephrine|epinephrine]], [[Vasopressin|vasopressin]] and [[Glucagon|glucagon]]&nbsp;<ref>Heldin and Purton:(1996:223)</ref>, to the [[G-protein coupled receptor|G-protein coupled receptor]]. cAMP in the cell binds to [[Protein kinase A|protein kinase A]] (PKA)&nbsp;activating it. Therefore, adenylyl cyclase has a major role in alterining the activity of enzymes within the cell depending on its own activity i.e how much&nbsp;[[CAMP|cAMP it]] is producing.&nbsp;&nbsp;<br>  
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It's&nbsp;activity is&nbsp;altered through the binding of various&nbsp;[[Hormones|hormones]],&nbsp;[[Epinephrine|epinephrine]], [[Vasopressin|vasopressin]] and [[Glucagon|glucagon]]&nbsp;<ref>Heldin and Purton:(1996:223)</ref>, to the [[G-protein_Coupled_Receptor|G-protein_Coupled_Receptor]]. cAMP in the cell binds to [[Protein kinase A|protein kinase A]] (PKA)&nbsp;activating it. Therefore, adenylyl cyclase has a major role in alterining the activity of enzymes within the cell depending on its own activity i.e how much&nbsp;[[CAMP|cAMP it]] is producing.&nbsp;&nbsp;<br>  
  
 
=== Structure  ===
 
=== Structure  ===
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=== Role of cAMP  ===
 
=== Role of cAMP  ===
  
As mentioned above cAMP&nbsp;increases [[Protein_kinase_A|PKA]]&nbsp;activity, however&nbsp;PKA has different effect in&nbsp;the cells of different oragans. For instance: in [[adipose tissue|adipose tissue]] [[Epinephrine|epinephrine]] results in higher&nbsp;cAMP thus incraesed PKA&nbsp;activity and then the PKA&nbsp;phosphorylates the appropriate&nbsp;enzymes resulting in [[trigylceride hydrolysis|trigylceride hydrolysis]].&nbsp;This is different in cardiac muscle where&nbsp;epinephrine activates PKA&nbsp;which phosphorylates&nbsp;proteins/enzymes for increased contraction rate&nbsp;<ref>cAMP signal transduction in the heart: understanding spatial control for the development of novel therapeutic strategies. Zaccolo M. Br J Pharmacol. 2009 September; 158(1): 50–60</ref>.  
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As mentioned above cAMP&nbsp;increases [[Protein kinase A|PKA]]&nbsp;activity, however&nbsp;PKA has different effect in&nbsp;the cells of different oragans. For instance: in [[Adipose tissue|adipose tissue]] [[Epinephrine|epinephrine]] results in higher&nbsp;cAMP thus incraesed PKA&nbsp;activity and then the PKA&nbsp;phosphorylates the appropriate&nbsp;enzymes resulting in [[Trigylceride hydrolysis|trigylceride hydrolysis]].&nbsp;This is different in cardiac muscle where&nbsp;epinephrine activates PKA&nbsp;which phosphorylates&nbsp;proteins/enzymes for increased contraction rate&nbsp;<ref>cAMP signal transduction in the heart: understanding spatial control for the development of novel therapeutic strategies. Zaccolo M. Br J Pharmacol. 2009 September; 158(1): 50–60</ref>.  
  
 
cAMP&nbsp;is also involved in EPAC ([[Exchange proteins directly activated by cAMP|Exchange proteins directly activated by&nbsp;cAMP]]) proteins&nbsp;<ref>British Journal of Pharmacology (2009) 158, 70-86</ref>.&nbsp;&nbsp;&nbsp;&nbsp;  
 
cAMP&nbsp;is also involved in EPAC ([[Exchange proteins directly activated by cAMP|Exchange proteins directly activated by&nbsp;cAMP]]) proteins&nbsp;<ref>British Journal of Pharmacology (2009) 158, 70-86</ref>.&nbsp;&nbsp;&nbsp;&nbsp;  

Revision as of 16:32, 21 October 2013

Adenylyl Cyclase is an enzyme that catalysis the conversion of  ATP into Cyclic AMP (cAMP), which acts as a secondary messenger. As the diagram shows below a pyrophosphate molecule is removed in this reaction. 

            Adenylyl Cyclase

ATP --------------------------------> cAMP  +  PPi

 

It's activity is altered through the binding of various hormonesepinephrine, vasopressin and glucagon [1], to the G-protein_Coupled_Receptor. cAMP in the cell binds to protein kinase A (PKA) activating it. Therefore, adenylyl cyclase has a major role in alterining the activity of enzymes within the cell depending on its own activity i.e how much cAMP it is producing.  

Contents

Structure

It is an integral membrane protein that has the structure of two bundles of six transmembrane segments and two catalytic domains that extend as loops into the cytoplasm, these catalystic domains are also the site of calmodulin binding [2].

The enzyme can exist in at least 9 isoforms that are regulated in different ways by different G protein coupled receptors. These isoforms can be divided into three groups:
Types I, II and VIII  can activated by GαS and Ca2+/calmodulin howvever ALSO can be inhibited by by ßy.

Types II, IV and VII can be activated by GαS and βγ

Types V and VI inhibited by Gαi and free Ca2+.

Role of cAMP

As mentioned above cAMP increases PKA activity, however PKA has different effect in the cells of different oragans. For instance: in adipose tissue epinephrine results in higher cAMP thus incraesed PKA activity and then the PKA phosphorylates the appropriate enzymes resulting in trigylceride hydrolysis. This is different in cardiac muscle where epinephrine activates PKA which phosphorylates proteins/enzymes for increased contraction rate [3].

cAMP is also involved in EPAC (Exchange proteins directly activated by cAMP) proteins [4].    

Removal of cAMP

PK8 Phosphorylates Phosphodiesterase 3D, which lowers cAMP concerntration in the cells through hydrolysis. PK8 also has a negative feedback effect on PKA, decreasing adenylyl cyclase activity as a result. This lowers cAMP levels even more.

              cAMP Phosphodiesterase

cAMP + H2O ---------------------> 5'AMP +   H+(proton)

Reference

  1. Heldin and Purton:(1996:223)
  2. Active-Site Structure of Class IV Adenylyl Cyclase and Transphyletic Mechanism. D. Travis Gallagher. Journal of Molecular Biology:405(3). (2011)
  3. cAMP signal transduction in the heart: understanding spatial control for the development of novel therapeutic strategies. Zaccolo M. Br J Pharmacol. 2009 September; 158(1): 50–60
  4. British Journal of Pharmacology (2009) 158, 70-86
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