Prion biology problem space: Mad cows, itchy sheep and protein structure.

Slides:

Advertisements

Similar presentations

Chemistry 2100 Lecture 10.

Advertisements

Distinctive characteristics

Proteins: Structure reflects function….. Fig. 5-UN1 Amino group Carboxyl group carbon.

TAYLOR GOLDBECK Brain Trust Chapters 8 & s- Farmers report sheep with scrapie-like symptoms Creutzfeldt observes a patient with CJD 1918-

Proteins Function and Structure.

Review: Amino Acid Side Chains Aliphatic- Ala, Val, Leu, Ile, Gly Polar- Ser, Thr, Cys, Met, [Tyr, Trp] Acidic (and conjugate amide)- Asp, Asn, Glu, Gln.

Mouse Prion Protein Domain PrP( ) Andreas Razen Geometric Computations in Molecular Biology 2 May 2007.

CENTER FOR BIOLOGICAL SEQUENCE ANALYSISTECHNICAL UNIVERSITY OF DENMARK DTU Homology Modeling Anne Mølgaard, CBS, BioCentrum, DTU.

Protein-a chemical view A chain of amino acids folded in 3D Picture from on-line biology bookon-line biology book Peptide Protein backbone N / C terminal.

1 Levels of Protein Structure Primary to Quaternary Structure.

Amino Acids and Proteins 1.What is an amino acid / protein 2.Where are they found 3.Properties of the amino acids 4.How are proteins synthesized 1.Transcription.

1 Transmissible Spongiform Encephalopathies. 2 Kuru Since the early 1900’s the Fore people of New Guinea have honored their dead by cooking and consuming.

Sequence analysis June 18, 2008 Learning objectives-Understand the concept of sliding window programs. Understand difference between identity, similarity.

Prions Fact or Science Fiction?. Stanley Prusiner, 1982 Born in Des Moines, Ia. Suggested that spongiform encephalopathies in animals and humans are caused.

Proteins Function and Structure. Proteins more than 50% of dry mass of most cells functions include – structural support – storage, transport – cellular.

CLINICAL ASPECTS OF BIOCHEMISTRY NEURODEGENERATIVE DISEASES Prion diseases Alzheimer's disease.

© Elsevier, 2011.Principles of Molecular Virology Subviral Agents Satellites and viroids – parasites of parasites! Prions - infectious protein molecules.

The relative orientation observed for  helices packed on ß sheets.

Protein Structure Elements Primary to Quaternary Structure.

Protein Structure FDSC400. Protein Functions Biological?Food?

You Must Know How the sequence and subcomponents of proteins determine their properties. The cellular functions of proteins. (Brief – we will come back.

Proteins. The central role of proteins in the chemistry of life Proteins have a variety of functions. Structural proteins make up the physical structure.

Proteins are polymers of amino acids.

Proteins account for more than 50% of the dry mass of most cells

Prion Diseases Microbes and Society Fall What is a Prion? Prion- small proteinaceous infectious particles which resist inactivation by procedures.

Mad Cow Disease The Past History of Mad Cow Disease

Proteins account for more than 50% of the dry mass of most cells

Transmissible Spongiform Encephalopathies (TSEs) a.k.a. Prion Diseases Transmissible  can be spread Spongiform  resembling a sponge Encephalopathies.

BIOCHEMISTRY REVIEW Overview of Biomolecules Chapter 4 Protein Sequence.

Prions: Proteins Gone Bad

Dr. Stuart Reichler Bio 325. DateSubject Sept 6Introduction, Philosophy of Science, and Strong Inference 11DNA and Gene Structure 13Signal Transduction.

Labs start today, or Thursday Inquiry 1 proposal due 9/9 or 9/13 Class communication via Blackboard, webpage, and/or .

PRIONS Kalina Estrada TA: Yu-Chen Hwang Thursday, 7-8pm.

Amino Acids & Side Groups Polar Charged ◦ ACIDIC negatively charged amino acids  ASP & GLU R group with a 2nd COOH that ionizes* above pH 7.02nd COOH.

Secondary structure prediction

Learning Targets “I Can...” -State how many nucleotides make up a codon. -Use a codon chart to find the corresponding amino acid.

Outline 1.What is an amino acid / protein naturally occurring amino acids 3.Codon – triplet coding for an amino acid 1.How are proteins synthesized.

Membrane Proteins FOB Guided Exploration 9.

Outline What is an amino acid / protein

A program of ITEST (Information Technology Experiences for Students and Teachers) funded by the National Science Foundation Background Session #3 DNA &

1 Protein synthesis How a nucleotide sequence is translated into amino acids.

Amino Acids ©CMBI 2001 “ When you understand the amino acids, you understand everything ”

Proteins Structure of proteins Proteins are made of C, H, O and nitrogen and may have sulfur. The monomers of proteins are amino acids An amino acid.

Chapter 3 Proteins.

The History of Chronic Wasting Disease Dr. Trent Bollinger, CCWHC One World, One Health Symposium Sept. 29, 2004.

Labs start next week (first reflection due)

Prions “Scrapie” “mad cow disease” Nobel Prize 1997

Studying Biology: Start with a question. –For example: How? Why? When? Where? Etc? How do we get answers? –Strong Inference presents one method (article.

Dr. Stuart Reichler Bio 311D. DateSubjectTextbook Chapters Jan 14Introduction, Philosophy of Science 16Strong Inferencearticle on webpage 18, 23Meiosis12,

Fibrous Proteins Examples 1. a-keratins 2. Silk Fibroin 3. Collagen

Arginine, who are you? Why so important?. Release 2015_01 of 07-Jan-15 of UniProtKB/Swiss-Prot contains sequence entries, comprising

CLINICAL CORRELATIONS

(Bovine spongiform encephalopathy)

Proteins Primary structure: Amino acids link together to form a linear polypeptide. The primary structure of a protein is a linear chain of amino acids.

Petra Jenišová Veronika Plačková Magdaléna Trojanová

Investigations into Prionic Mutations Mutated Prion Protein (PrPSc)

Prion proteins THE 'protein only' hypothesis' states that a modified form of normal prion protein triggers infectious neurodegenerative diseases, such.

Rabies virus and Prion Dongli Pan

Cathode (attracts (+) amino acids)

Dr. Stuart Reichler Bio 325.

Haixu Tang School of Inforamtics

Proteins Genetic information in DNA codes specifically for the production of proteins Cells have thousands of different proteins, each with a specific.

Levels of Protein Structure

Chapter 18 Naturally Occurring Nitrogen-Containing Compounds

Deadly Conformations—Protein Misfolding in Prion Disease

Proteins Proteins have many structures, resulting in a wide range of functions Proteins do most of the work in cells and act as enzymes 2. Proteins are.

Presentation transcript:

Prion biology problem space: Mad cows, itchy sheep and protein structure

Touring the problem space I. History and introduction to prion biology II. Idea of conformational change III. Exploring sequences of prion proteins IV. Exploring physical properties and structures of prion proteins V. Linking evolution, structure and function of prion proteins

Touring the problem space I. History and introduction to prion biology II. Idea of conformational change III. Exploring sequences of prion proteins IV. Exploring physical properties and structures of prion proteins V. Linking evolution, structure and function of prion proteins

Prion History 17 th ct. “Sheep are strangely dizzy” – scrapie described in Europe 17 th ct. “Sheep are strangely dizzy” – scrapie described in Europe 1950’s: Carleton Gajdusek studied cannibalistic ceremonies of Fore tribe in New Guinea and discovered the Kuru disease 1950’s: Carleton Gajdusek studied cannibalistic ceremonies of Fore tribe in New Guinea and discovered the Kuru disease Kuru attacks dura matter of brain and creates vacuoles, causing infected person to deteriorate and die within 3 months Kuru attacks dura matter of brain and creates vacuoles, causing infected person to deteriorate and die within 3 months

Prion History 1960: Alper - DNA destroying UV radiation doesn’t prevent scrapie infections. 1966: Gajdusek - Chimps get Kuru from ingesting infected brain tissue. 1967: Griffith - Speculated that TSE’s due to protein conformational changes. 1981: Mertz - Fibrils detected in scrapie infected mouse brains. (CONTINUED…) s: Scrapie behavior described

1997: Stanley Prusiner proposed a link between kuru, CJD, scrapie and BSE. 1997: Stanley Prusiner proposed a link between kuru, CJD, scrapie and BSE. -Proposed that “prion” was responsible for spongiform manifestations in BSE-infected patients DEFINITION: PRION = Proteinaceous Infectious Particles Prion protein exists in two forms: Prion protein exists in two forms: PrPc vs. PrPsc PrPc vs. PrPsc

Protein folding as we know it n%26lr%3D%26ie%3DUTF-8%26sa%3DG

Touring the problem space I. History and introduction to prion biology II. Idea of conformational change III. Exploring sequences of prion proteins IV. Exploring physical properties and structures of prion proteins V. Linking evolution, structure and function of prion proteins

Prion protein folding PrPc PrPsc k folding-c k folding-sc k unfolding-sc k unfolding-c Intermediates?

Prion folding model as link between chemistry and biology What do folding rates and equilibrium constants mean? If a protein has stability of 7 kcal mol -1, how many molecules are unfolded at 37 o C? Would you expect PrP to be more or less stable than other proteins? Folded Unfolded Keq

One protein: Two structures PrPc “NORMAL” conformation PrPsc “BAD” conformation

Not all pretty pictures can be trusted! Based on NMR results Proposed based on low- resolution structural studies

PrPc PrPsc PrPc

PrP C PrP SC PrP C

PrP sc fibrils

Plaque

Disease transmission modes Infections (Kuru, scrapie, bovine spongiform encephalophathies, etc) Infections (Kuru, scrapie, bovine spongiform encephalophathies, etc) Inherited (Creutzfeld-Jacob disease, Gerstmann-Straussler-Scheinker disease, Fatal familial insomnia) Inherited (Creutzfeld-Jacob disease, Gerstmann-Straussler-Scheinker disease, Fatal familial insomnia) Sporadic (BSE, CJD ?) Sporadic (BSE, CJD ?) Link to The Case of the Cherry Hill Cluster Link to The Case of the Cherry Hill Cluster By D.T. MAX NY Times magazinePublished: March 28, 2004 By D.T. MAX NY Times magazinePublished: March 28, 2004

Prion diseases and Koch’s postulates I. The agent must be present in every case of the disease II. The agent must be isolated from the host and grown in a lab dish III. The disease must be reproduced when a pure culture of the agent is inoculated into a healthy susceptible host IV. The same agent must be recovered again from the experimentally infected host. Can this be applied to understanding prion diseases?

Touring the problem space I. History and introduction to prion biology II. Idea of conformational change III. Exploring sequences of prion proteins IV. Exploring physical properties and structures of prion proteins V. Linking evolution, structure and function of prion proteins

Global view of the amino acid sequence of PrP

Multiple ways to visualize and analyze protein sequence Use GeneDoc from Pittsburgh Supercomputing Center to analyze multiple prion sequences Use GeneDoc from Pittsburgh Supercomputing Center to analyze multiple prion sequences By using different coloring schemes, can visualize and quantify conservation of different properties By using different coloring schemes, can visualize and quantify conservation of different properties

Comparison of human, cow, sheep and mouse prion protein sequence

Conservarion of polar vs. non-polar pattern PROPERTIES Level 1 DEHKRNQTPOLAR LIVMFYWAGCPNON-POLAR Level 2 DEHKR NQST LIVMFYW AG

Analyzing charge distribution Level 2 DEHKRCHARGED NQSTPOLAR UNCHARGED LIVMFYWHYDROPHOBIC AGSMALL hydrophobic

Expanded amino acid properties

Examples of questions that can be examined through sequence analyses Determining evolutionary relationships among the various organisms examined. Determining evolutionary relationships among the various organisms examined. Investigating how amino acid sequence may be linked to the overall structure of the protein Investigating how amino acid sequence may be linked to the overall structure of the protein Examining the role of repetitive elements in prion homologies. Examining the role of repetitive elements in prion homologies.

Touring the problem space I. History and introduction to prion biology II. Idea of conformational change III. Exploring sequences of prion proteins IV. Exploring physical properties and structures of prion proteins V. Linking evolution, structure and function of prion proteins

Exploring physical characteristics How big is the prion protein? How does that compare to other proteins? Where is it localized in the cell? Is its size or shape unusual? Is the distribution of amino acids unusual?

PROTPARAM: a tool for analysis of physical properties Number of amino acids: 253 Molecular weight: Theoretical pI: 9.23 Amino acid composition: Ala (A) % Arg (R) % Asn (N) % Asp (D) 6 2.4% Cys (C) 4 1.6% Gln (Q) % Glu (E) 9 3.6% Gly (G) % His (H) % Ile (I) 9 3.6% Leu (L) % Lys (K) % Met (M) % Phe (F) 7 2.8% Pro (P) % Ser (S) % Thr (T) % Trp (W) 9 3.6% Tyr (Y) % Val (V) %

Visualizing protein structure with Cn3D

Secondary structural elements can be analyzed in isolation

Helices can be dissected by mapping onto helical wheel

Examples of questions that can be explored through structural analyses Some mutations have been associated with prion diseases. By mapping these onto structures, propose a hypothesis to explain this. Most of the variation seems to be in the N- terminal region. Is there homology to this region in other proteins?

Touring the problem space I. History and introduction to prion biology II. Idea of conformational change III. Exploring sequences of prion proteins IV. Exploring physical properties and structures of prion proteins V. Linking evolution, structure and function of prion proteins

What does PrP do? GPI- anchored cell surface protein Knockout mice mostly normal Might be involved in some signaling cascades Interaction with hypothetical “protein x” might be needed for structural conversion

What makes prion a prion? Why don’t other proteins adopt two drastically different stably folded conformations? Why don’t other proteins adopt two drastically different stably folded conformations? A helix is a helix…but why are helices in prion protein likely to undergo a big structural change? A helix is a helix…but why are helices in prion protein likely to undergo a big structural change? How would you test/further explore these questions?

“Big picture” questions as a platform for development of testable hypotheses Why would nature evolve prions? How would you tell a prion if you saw one? Yeast prions do not cause a disease. Are there other non-harmful prion-like proteins? Can prions be beneficial?