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1. Human Gastric Lipase (1HLG) Presented by Melanie Thomas, Ankur Patel, & Brett Williams
Biocomputing 3100
2. I. Background Information Melanie Thomas
3. Gastric Lipase Function: Enzyme aiding in fat digestion
Location of action: Secreted by the stomach
4. How Gastric Lipase Works Gastric lipase catalyzes the hydrolysis of stored triacylglycerols
Substrate: triacylglycerol
Products: long chain fatty acid and glycerol
No cofactors
5. How Gastric Lipase Works Hydrolyze substrate
Present in intersurface between water and lipids
Conformational Change
Enzyme binds to intersurface ( between water and lipids)
Activation occurs
Active site of lipase is exposed
Lipase binds to intersurface
Helix moves
Substrate binds at active site
6. Sources Organism
Humans
1st mammalian lipase structure to be described
Hydrolyzes 10-30% of fats in adults
Most fats digested by pancreatic lipase
Majority of mammals
Rabbits
Dogs
Other Related Mammalian Lipases
Lingual
Rats
7. Humans Premature infants
95% of dietary fat in human milk and infant formula is triglyceride
Gastric lipase is main digestive enzyme
25-60% of total lipid digestion
Pancreatic lipase is not fully developed
Researching ways to modify enzyme to benefit babies born prematurely.
8. Humans Obesity in America
Health problems
Hypertension
Diabetes
High Cholesterol Levels
Fats are most difficult part of diet to digest
Anti-obesity drugs
Suppress appetite
9. Diet Pills Aim to inhibit the action of digestive lipases
Reducing fat absorption
Blocks lipases active site
Inhibiting triglyceride digestion
10. Diet Pills Orlistat
Specifically targeted to inhibit gastric lipase and other digestive lipases
Made from lipstatin
Covalent inhibitor of digestive enzymes
Much research many clinical trials
Must be taken with a meal
Inhibited 46.6 91.4% of activity of gastric lipase
Reduced 11-33% of fat absorption by the stomach
11. Disease Deficiency of Lipase
Health problems
Gall Stones
Heart Problems
Minimum nutrient absorption
Wolman Disease
Cholesteryl Ester Storage Disease
12. Disease Caused by storage of triglycerides in body
Not being absorbed or removed
Excess fats in feces
Lipids build up in the cells, blood, and lymph and causes damage
Many digestive system problems
13. Special Applications Vitamins
Patients with lipase deficiency
Some Medical Conditions cause an absence of lipase
Cystic Fibrosis Patients
Post Surgery Patients
Some Cancer Patients
Supplements
Corn has been engineered to produce gastric lipase
Still a work in progress
Under clinical trials
14. II. Structure of Human Gastric Lipase Ankur Patel
15. Crystal Structure Of Human Gastric Lipase PDB number: 1HLG (Human Gastric Lipase)
Method used to determine structure: X-Ray diffraction
16. General Structure Information Number of chains: 2 (chain A and chain B)
Both are identical
Amino acid chains
Each chain composed of 368 amino acids (excluding gaps)
379 amino acids with gaps included
Gap 1: from amino acid 1 8 (8 residues)
Gap 2: from amino acid 54 - 56 (3 residues)
Total of 46 helices
Total of 19 strands
2 total disulfide bridges
17. Structure Showing Gaps 1 and 2 Shows only chain A
Gap 1 = at N- terminus
Gap 2 = 54- 56 residuesGap 1 = at N- terminus
Gap 2 = 54- 56 residues
18. Helices CHOFAS:
19. Helices Cn3D
20. Helices Protein Explorer
21. Compiling information from Chofas, GOR4, PELE, Cn3D and Protein explorer Notice that each method shows a different number of helices
Chofas, GOR4 and Pele only PREDICT helices
The prediction algorithms show fewer helices than Protein explorer
Protein explorer determines the helices by looking at the actual crystal structureProtein explorer determines the helices by looking at the actual crystal structure
22. Strands CHOFAS Note: lot of overlaps between strands and helices which is not possible. Thus, Chofas is not the best method to calculate the number of strands present.
Note: lot of overlaps between strands and helices which is not possible. Thus, Chofas is not the best method to calculate the number of strands present.
23. Strands Cn3D
24. Strands Protein Explorer
25. Compiling information from Chofas, Pele, GOR4, Cn3d and Protein Explorer Biology workbench algorithms predict a high number of strands in each chain.
The results from protein explorer and Cn3d show less strands
26. Disulfide Bridges 2 total disulfide bridges
Each is an intra-chain disulfide bridge
Disulfide bridge: between cysteine 227 and cysteine 236 Common to find disulfide bridges between cysteien residues because cysteine has SH group. The SH sulfhydrl groups of two cysteine molecules can undergo oxidation to form a disulfide bridge. Common to find disulfide bridges between cysteien residues because cysteine has SH group. The SH sulfhydrl groups of two cysteine molecules can undergo oxidation to form a disulfide bridge.
27. Ligand Animation
28. Domains 2 Domains present
Globular/core domain (colored purple)
belongs to the alpha/beta hydrolase-fold family
Between residues 9 189
Between residues 307 379
Cap domain (colored blue)
Between residues 190 - 286 Shown by BLIMPS Shown by BLIMPS
29. Alpha/beta hydrolase fold family:
All have a classical catalytic triad;
(Ser-153, His-353, Asp-324)
Posses an oxayanion hole (stabilizes the oxayanion hole transition state).
Hydrogen bonds between 2 main chain groups
The cap domain has a lid.
Covers catalytic SER-153
SER-153 is therefore not freely accessible to substrates
Lid must be displaced in order for substrate to bind to catalytic SER-153
Info from research paperso did prosearch to prove thisInfo from research paperso did prosearch to prove this
30. PROSEARCH Motif of interest: Lipase_SER
Confirms presence of catalytic triad
Typical catalytictriad (Ser-153, His-353, Asp-324).
The catalytic serine is deeply buried under a segment consisting of 29residues the Lid. Triglyceride lipases are lipolytic enzymes that hydrolyzes the ester bond of triglycerides.
The most conserved region is centered around a serine residue which has been shown to participate, with an histidine and an aspartic acid residue.
which can be defined as a lid and belonging to the cap domain
Triglyceride lipases are lipolytic enzymes that hydrolyzes the ester bond of triglycerides.
The most conserved region is centered around a serine residue which has been shown to participate, with an histidine and an aspartic acid residue.
which can be defined as a lid and belonging to the cap domain
31. Different angles shown.
Lid covers the SER 153 deep into enzymeDifferent angles shown.
Lid covers the SER 153 deep into enzyme
32. Active Sites One active site per chain in the core domain
Residues: SER 153; ASP 324; HIS 353.
33. Active Site
34. Dog Gastric Lipase (1K8Q) Structure has been crystallized with a phosponate inhibitor.
C11 - Undecyl-Phosphinic Acid Butyl Ester
Makes crevice
BOG - B-Octylglucoside
Fills up remainder of crevice
35. Interaction of Inhibitor and Catalytic Serine Reverse viewReverse view
