Sandbox GGC4

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Revision as of 00:38, 15 November 2020

Apolipoprotein A-I

Structure

Apolipoproteins are proteins that coat lipoprotein surface that binds lipids such as cholesterol, low-density lipoprotein (LDL), or high-density lipoproteins (HDL) in lipid metabolism. They function in the transport of such lipids in their structure that acts as a ligand to cell receptors and lipid transport proteins. ^[1] They are important in the binding and transportation of lipids throughout the body, necessary in energy structural components, and nutrients.

Apolipoprotein A-I is a protein of APOA1 gene located on the 11th chromosome found in humans that is a component of HDL. Gene for APOA1 protein contains a total of 4 exons that is synthesized for the protein, used in lipid metabolism of HDL. ^[2] Apolipoprotein a-1 (apoA-I) is a fairly small molecule that consists of a total of 243 residues and is 29-kD polypeptide in size. Structure in is shown in rainbow, in arrangement from N-terminus (red) of amine group to C-terminus (dark blue) end of carboxyl group.

1 Function
2 Clinical significance
3 Diseases
4 Structural highlights

Function

Apolipoprotein A-I is responsible in the reverse transport of cholesterol to the liver. It contains amphipathic structure sequences of helices in its repeating hydrophilic and non-polar hydrophobic groups that form helices are what allows the interaction between hydrophobic properties of water, such as in the blood stream and hydrophobic lipids.

Apolipoprotein A-I is a protein APOA1 gene in humans that is a component of HDL, which a form of good cholesterol in human's diet, used in the transport of cholesterol and phospholipids in the body through the bloodstream in the reverse transport of cholesterol from the tissues to the liver of hepatocytes. They promote cholesterol efflux, a pathway in transferring intracellular cholesterol to extracellular acceptors, from tissues and act as a cofactor for the lecithin cholesterol acyltransferase (LCAT).^[3]

Clinical significance

Apolipoprotein A-1 is found to be as an indicator for cardiovascular disease and atherosclerotic cardiovascular disease. Since APOA1 is a component of HDL associated with good form of cholesterol, when ABOAB (apolipoprotein B) a component of LDL, a form of bad cholesterol levels are elevated in blood can signal as a risk factor for development in hardening of arterial walls and blockage. ^[4] High-density lipoprotein complex is important in the clearing of fats through absorption of cholesterol that is transported into the liver where it is synthesized into bile salts or excreted.^[5]^[6]

Apolipoprotein A-I (Milano) is a mutant form of apolipoprotein A-I associated in reducing coronary artery disease to those genetically predisposition. ^[7] Mutation Milano was first discovered in from a patient in Limone sul Garda, Northern Italy or alarming elevated triglycerides and low HDL with no signs of atherosclerosis or cardiovascular disease. Mutation occurs at 173 residue of replaced with cysteine. ^[8]

Diseases

Tangier disease

Genetic disorder with significantly reduced HDL in the blood caused by mutation of APOA1 gene (ABCA1) caused by abnormal pre-mRNA spicing, in the loss of 22 amino acids of premature stop codon.^[9] As a result of decreased apolipoprotein A-1 synthesized, cells undergo large lipid fluxes and accumulated cholesterol and fats. Accumulation of cholesterol in cell due to lack of transport is toxic and impairs cell function. Visible signs of the disease include yellow-orange tonsils and formation of foam cells of lipid-laden macrophages.^[10]

Amyloidosis

Rare disease caused from abnormal protein amyloid is built up in areas of the heart, kidneys, liver, and other organs. Amyloid, not normally found in the body, is produced from mutation of APOA1 gene that can be caused by 13 of 50 known variants of apolipoprotein A-1 gene between residues 50 to 93 and 170 to 178. Three of mutations are known to cause gene variations that lead to two different frameshifts at amino acids asparagine and alanine (p.Asn74fs and p.Ala154fs) and single amino acid exchange (p.Leu170Pro). ^[11]

Symptoms of amyloidosis is not evident until disease is more progressed. Range of symptoms are also dependent on organ(s) effected that include swelling in legs and ankles, enlarged tongue, shortness of breath, and/or skin conditions such as patches from easily bruising. ^[12]

Alzheimer’s

Structural highlights

Apolipoprotein a-1 (apoA-I) is a fairly small molecule that consists of a total of 243 residues and is 29-kD polypeptide in size. Its structure consists of two helical domains that include a four-helix of antiparallel bundle by N terminal and two helix bundle at the C terminal end. ApoA-I consists of alpha helices including chain A (orange), B (blue), C (red), and D (green) as displayed, in which an infinity like structure. C terminal domain of carboxyl group is known to participate in role in lipid binding for transport, found following between residues At the central region, two antiparallel helices form a flexible domain of connected bundles of each end of helices.^[13]

Apolipoprotein a-1 in the monomer form (lacking 1-43 residues) consists of unique pseudo-continuous alpha helix highlighted by kinks at , spaced approximately every 22 residues.^[14]

Biomarkers of coronary artery disease are also found to be of modification at glutamate residue 243 of truncated APOA1 of single amino acid.

References

1. Voet, D., Voet, J. G., & Pratt, C. W. (2016). Fundamentals of Biochemistry (5th ed.). Hoboken, NJ: John Wiley & Sons.

↑ Voet, D., Voet, J. G., & Pratt, C. W. (2016). Fundamentals of Biochemistry (5th ed.). Hoboken, NJ: John Wiley & Sons.
↑ APOA1 gene: MedlinePlus Genetics. (2020, August 18). Retrieved October 26, 2020, from https://medlineplus.gov/genetics/gene/apoa1/
↑ Yano, K., Ohkawa, R., Sato, M., Yoshimoto, A., Ichimura, N., Kameda, T., . . . Tozuka, M. (2016, November 09). Cholesterol Efflux Capacity of Apolipoprotein A-I Varies with the Extent of Differentiation and Foam Cell Formation of THP-1 Cells. Retrieved November 14, 2020, from https://www.hindawi.com/journals/jl/2016/9891316/
↑ Test ID: APOAB Apolipoprotein A1 and B, Serum. (n.d.). Retrieved November 14, 2020, from Test ID: APOAB Apolipoprotein A1 and B, Serum. (n.d.). Retrieved November 14, 2020, from Test ID: APOAB Apolipoprotein A1 and B, Serum
↑ LDL & HDL: Good & Bad Cholesterol. (2020, January 31). Retrieved November 14, 2020, from https://www.cdc.gov/cholesterol/ldl_hdl.htm
↑ Cohen, D. (2008, April). Balancing cholesterol synthesis and absorption in the gastrointestinal tract. Retrieved November 14, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2390860/
↑ CR;, C. (n.d.). Apolipoprotein A-I(Milano): Current perspectives. Retrieved November 14, 2020, from https://pubmed.ncbi.nlm.nih.gov/12642784/
↑ Lowe, D. (2016, November 16). The Long Saga of Apo-A1 Milano. Retrieved November 14, 2020, from https://blogs.sciencemag.org/pipeline/archives/2016/11/16/the-long-saga-of-apo-a1-milano
↑ Maranghi, M., Truglio, G., Gallo, A., Grieco, E., Verrienti, A., Montali, A., . . . Lucarelli, M. (2018, November 30). A novel splicing mutation in the ABCA1 gene, causing Tangier disease and familial HDL deficiency in a large family. Retrieved November 14, 2020, from https://www.sciencedirect.com/science/article/pii/S0006291X18324781
↑ McConnell, J. (2019, January 17). Tangier Disease. Retrieved November 15, 2020, from https://www.cancertherapyadvisor.com/home/decision-support-in-medicine/labmed/tangier-disease/
↑ Eriksson, M., Schönland, S., Yumlu, S., Hegenbart, U., Von Hutten, H., Gioeva, Z., . . . Röcken, C. (2009, May). Hereditary apolipoprotein AI-associated amyloidosis in surgical pathology specimens: Identification of three novel mutations in the APOA1 gene. Retrieved November 15, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2671344/
↑ Amyloidosis. (2020, March 14). Retrieved November 15, 2020, from https://www.mayoclinic.org/diseases-conditions/amyloidosis/symptoms-causes/syc-20353178
↑ And, X. (2011, November 04). Crystal Structure of C-terminal Truncated Apolipoprotein A-I Reveals the Assembly of High Density Lipoprotein (HDL) by Dimerization. Retrieved November 14, 2020, from https://www.jbc.org/content/286/44/38570.abstract?sid=eee11503-e692-438c-a298-52d329852b25
↑ Nagao, K., Hata, M., Tanaka, K., Takechi, Y., Nguyen, D., Dhanasekaran, P., . . . Saito, H. (2014, January). The roles of C-terminal helices of human apolipoprotein A-I in formation of high-density lipoprotein particles. Retrieved November 14, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3863607/

2. APOA1 gene: MedlinePlus Genetics. (2020, August 18). Retrieved October 26, 2020, from https://medlineplus.gov/genetics/gene/apoa1/

3. Mangaraj, M., Nanda, R., & Panda, S. (2016, July). Apolipoprotein A-I: A Molecule of Diverse Function. Retrieved November 04, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4910842

4. Yano, K., Ohkawa, R., Sato, M., Yoshimoto, A., Ichimura, N., Kameda, T., . . . Tozuka, M. (2016, November 09). Cholesterol Efflux Capacity of Apolipoprotein A-I Varies with the Extent of Differentiation and Foam Cell Formation of THP-1 Cells. Retrieved November 14, 2020, from https://www.hindawi.com/journals/jl/2016/9891316/

5. Test ID: APOAB Apolipoprotein A1 and B, Serum. (n.d.). Retrieved November 14, 2020, from Test ID: APOAB Apolipoprotein A1 and B, Serum. (n.d.). Retrieved November 14, 2020, from Test ID: APOAB Apolipoprotein A1 and B, Serum

6. LDL & HDL: Good & Bad Cholesterol. (2020, January 31). Retrieved November 14, 2020, from https://www.cdc.gov/cholesterol/ldl_hdl.htm

7. Cohen, D. (2008, April). Balancing cholesterol synthesis and absorption in the gastrointestinal tract. Retrieved November 14, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2390860/

8. CR;, C. (n.d.). Apolipoprotein A-I(Milano): Current perspectives. Retrieved November 14, 2020, from https://pubmed.ncbi.nlm.nih.gov/12642784/

9. Lowe, D. (2016, November 16). The Long Saga of Apo-A1 Milano. Retrieved November 14, 2020, from https://blogs.sciencemag.org/pipeline/archives/2016/11/16/the-long-saga-of-apo-a1-milano

10. Nagao, K., Hata, M., Tanaka, K., Takechi, Y., Nguyen, D., Dhanasekaran, P., . . . Saito, H. (2014, January). The roles of C-terminal helices of human apolipoprotein A-I in formation of high-density lipoprotein particles. Retrieved November 14, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3863607/

11. And, X. (2011, November 04). Crystal Structure of C-terminal Truncated Apolipoprotein A-I Reveals the Assembly of High Density Lipoprotein (HDL) by Dimerization. Retrieved November 14, 2020, from https://www.jbc.org/content/286/44/38570.abstract?sid=eee11503-e692-438c-a298-52d329852b25

12. Maranghi, M., Truglio, G., Gallo, A., Grieco, E., Verrienti, A., Montali, A., . . . Lucarelli, M. (2018, November 30). A novel splicing mutation in the ABCA1 gene, causing Tangier disease and familial HDL deficiency in a large family. Retrieved November 14, 2020, from https://www.sciencedirect.com/science/article/pii/S0006291X18324781

13. McConnell, J. (2019, January 17). Tangier Disease. Retrieved November 15, 2020, from https://www.cancertherapyadvisor.com/home/decision-support-in-medicine/labmed/tangier-disease/

14. Eriksson, M., Schönland, S., Yumlu, S., Hegenbart, U., Von Hutten, H., Gioeva, Z., . . . Röcken, C. (2009, May). Hereditary apolipoprotein AI-associated amyloidosis in surgical pathology specimens: Identification of three novel mutations in the APOA1 gene. Retrieved November 15, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2671344/

15.Amyloidosis. (2020, March 14). Retrieved November 15, 2020, from https://www.mayoclinic.org/diseases-conditions/amyloidosis/symptoms-causes/syc-20353178

Retrieved from "http://52.214.119.220/wiki/index.php/Sandbox_GGC4"

@@ Line 21: / Line 21: @@
 '''Amyloidosis'''
-Rare disease caused from abnormal protein amyloid is built up in areas of the heart, kidneys, liver, and other organs. Amyloid, not normally found in the body, is produced from mutation of APOA1 gene that can be caused by 13 of 50 known variants of apolipoprotein A-1 gene between residues 50 to 93 and 170 to 178. Three of mutations are known to cause gene variations that lead to two different frameshifts at amino acids asparagine and alanine (p.Asn74fs and p.Ala154fs) and single amino acid exchange (p.Leu170Pro).
+Rare disease caused from abnormal protein amyloid is built up in areas of the heart, kidneys, liver, and other organs. Amyloid, not normally found in the body, is produced from mutation of APOA1 gene that can be caused by 13 of 50 known variants of apolipoprotein A-1 gene between residues 50 to 93 and 170 to 178. Three of mutations are known to cause gene variations that lead to two different frameshifts at amino acids asparagine and alanine (p.Asn74fs and p.Ala154fs) and single amino acid exchange (p.Leu170Pro). <ref>Eriksson, M., Schönland, S., Yumlu, S., Hegenbart, U., Von Hutten, H., Gioeva, Z., . . . Röcken, C. (2009, May). Hereditary apolipoprotein AI-associated amyloidosis in surgical pathology specimens: Identification of three novel mutations in the APOA1 gene. Retrieved November 15, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2671344/</ref>
+Symptoms of amyloidosis is not evident until disease is more progressed. Range of symptoms are also dependent on organ(s) effected that include swelling in legs and ankles, enlarged tongue, shortness of breath, and/or skin conditions such as patches from easily bruising. <ref>Amyloidosis. (2020, March 14). Retrieved November 15, 2020, from https://www.mayoclinic.org/diseases-conditions/amyloidosis/symptoms-causes/syc-20353178</ref>
 '''Alzheimer’s'''
@@ Line 64: / Line 65: @@
 . McConnell, J. (2019, January 17). Tangier Disease. Retrieved November 15, 2020, from https://www.cancertherapyadvisor.com/home/decision-support-in-medicine/labmed/tangier-disease/<references/>
+. Eriksson, M., Schönland, S., Yumlu, S., Hegenbart, U., Von Hutten, H., Gioeva, Z., . . . Röcken, C. (2009, May). Hereditary apolipoprotein AI-associated amyloidosis in surgical pathology specimens: Identification of three novel mutations in the APOA1 gene. Retrieved November 15, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2671344/<references/>
+.Amyloidosis. (2020, March 14). Retrieved November 15, 2020, from https://www.mayoclinic.org/diseases-conditions/amyloidosis/symptoms-causes/syc-20353178<references/>

Sandbox GGC4

From Proteopedia

Revision as of 00:38, 15 November 2020

Apolipoprotein A-I

Structure

Contents

Function

Clinical significance

Diseases

Structural highlights

References

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