Sandbox Ben Whiteside: Difference between revisions
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The <scene name='10/1038819/Amidated_c_term/9'>C-Terminus</scene> of amylin contains an amide group, rather than a carboxylic acid group. This chemical modification allows for more extensive hydrogen bonding to nearby residues, due to the added hydrogen bond donor on the NH2 group. In turn, this allows for favorable hydrogen bonds between S129 of the transmembrane domain and the main chain of Y37 on amylin. This interaction causes a "kink" in the random coil of amylin, displacing Y37 into a hydrophobic pocket, allowing for favorable hydrophobic interactions with W79 of the transmembrane domain. This amidation is thought to be a post-translational modification. | The <scene name='10/1038819/Amidated_c_term/9'>C-Terminus</scene> of amylin contains an amide group, rather than a carboxylic acid group. This chemical modification allows for more extensive hydrogen bonding to nearby residues, due to the added hydrogen bond donor on the NH2 group. In turn, this allows for favorable hydrogen bonds between S129 of the transmembrane domain and the main chain of Y37 on amylin. This interaction causes a "kink" in the random coil of amylin, displacing Y37 into a hydrophobic pocket, allowing for favorable hydrophobic interactions with W79 of the transmembrane domain. This amidation is thought to be a post-translational modification. | ||
=== Two-Domain Model of Amylin Binding === | === Two-Domain Model of Amylin Binding === | ||
It is hypothesized that amylin binds to the receptor via a two-domain model. The model suggests a series of steps for how amylin binds. First, the c-terminus of amylin binds to the n terminus of the extracellular domain of the receptor. This binding factors the alignment of amylin's n-terminus to the primary GPCR binding site | It is hypothesized that amylin binds to the receptor via a two-domain model. The model suggests a series of steps for how amylin binds. First, the c-terminus of amylin binds to the n terminus of the extracellular domain of the receptor. This binding factors the alignment of amylin's n-terminus to the primary GPCR binding site. [[Image:Domain_drawingnew.jpg|300px|left|thumb|Figure 1: The Two Domain Model]] | ||
===RAMP-CTR Interface=== | ===RAMP-CTR Interface=== | ||
<scene name='10/1038828/Ramp_ctr_interface/9'>RAMP CTR Interface </scene> is a key interaction that stabilizes the protein complex and positions the receptor to favorably bind to amylin. The RAMP-CTR interface extends into the plasma membrane, providing additional non-covalent bonding between the protein complex and the cell membrane. | <scene name='10/1038828/Ramp_ctr_interface/9'>RAMP CTR Interface </scene> is a key interaction that stabilizes the protein complex and positions the receptor to favorably bind to amylin. The RAMP-CTR interface extends into the plasma membrane, providing additional non-covalent bonding between the protein complex and the cell membrane. | ||
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== | == Clinical Significance == | ||
===Drug Development=== | ===Drug Development=== | ||
[https://en.wikipedia.org/wiki/Pramlintide Pramlintide] is a synthetic analog of amylin that is commonly used in accordance with mealtime [https://en.wikipedia.org/wiki/Insulin insulin] to help treat type 1 and 2 diabetic patients <ref name="Hay"/>. This drug binds to AMYR competitively, increasing the AMYR GPCR signaling. Increased action of the AMYR receptor has been shown to modestly lower HbA1c levels, which is often accompanied by weight loss <ref name="Hoogwerf">PMID: 18561511</ref>. Pramlintide binds with more affinity than amylin due to mutations from hydrophobic residues A29, S28, S29, and S37 to proline. The proline residues increase the rigidity of the ligand by creating unfavorable phi and psi angles, which improves the ability of the ligand to bind AMYR. Pramlintide treatment has also been shown to consistently reduce [https://en.wikipedia.org/wiki/Amyloid_plaques Amyloid β plaque] aggregation in rodent models with [https://en.wikipedia.org/wiki/Alzheimer%27s_disease Alzheimer’s disease] <ref name="Gingell">PMID:24169554</ref>. | [https://en.wikipedia.org/wiki/Pramlintide Pramlintide] is a synthetic analog of amylin that is commonly used in accordance with mealtime [https://en.wikipedia.org/wiki/Insulin insulin] to help treat type 1 and 2 diabetic patients <ref name="Hay"/>. This drug binds to AMYR competitively, increasing the AMYR GPCR signaling. Increased action of the AMYR receptor has been shown to modestly lower HbA1c levels, which is often accompanied by weight loss <ref name="Hoogwerf">PMID: 18561511</ref>. Pramlintide binds with more affinity than amylin due to mutations from hydrophobic residues A29, S28, S29, and S37 to proline. The proline residues increase the rigidity of the ligand by creating unfavorable phi and psi angles, which improves the ability of the ligand to bind AMYR. Pramlintide treatment has also been shown to consistently reduce [https://en.wikipedia.org/wiki/Amyloid_plaques Amyloid β plaque] aggregation in rodent models with [https://en.wikipedia.org/wiki/Alzheimer%27s_disease Alzheimer’s disease] <ref name="Gingell">PMID:24169554</ref>. | ||