Peer Review of Synergistic Effects of Pesticides and Metals in Parkinson's
Parkinson's Disease Poster
1
Parkinson’s Disease Mechanisms HGNC Approved Symbol Mutation Gene Locus Inheritance Disease onset SNCA Park 1/Park 4 α-synuclein 4q21.3-q22 Dominant Early PARK2 Park 2 Parkin 6q25.2-q27 Recessive Juvenile; Early PARK3 Park 3 ? 2p13 Dominant Late UCHL1 Park 5 UCHL1 4p13 Dominant Late PINK1 Park 6 PINK1 1p36.12 Recessive Early PARK7 Park 7 DJ-1 1p36.23 Recessive Early LRRK2 Park 8 LRRK2 12q12 Dominant Late ATP13A2 Park 9 ATP13A2 1p36 Recessive Juvenile KRS, Early PD PARK10 Park 10 AAOPD 1p32 Unclear Late PARK11 PARK12 Park 11 GIGYF2 2q36-q37 Recessive Early HTRA2 Park 12 ? Xq21-q25 Unclear Late PLA2G6 Park 13 Omi/HTRA2 2p13.1 Unclear Late FBXO7 Park 14 PLA2G6 22q13.1 Recessive Juvenile LDOPA- responsive dystonia Parkinsonism PARK16 Park 15 FBX07 22q11.2- qter Recessive Early parkinsonian- pyramidal syn. VPS35 Park 16 ? 1q32 Unclear Unclear EIF4G1 Park 17 VSP35 16q12 Unclear Unclear Park 18 EIF4G1 3q27-qter Unclear Unclear PD-related gene mutations α-Synuclein Protofibrils Fibrils Neurodegeneration Decreased Neurotoxicity Protein Degradation Pink Degraded ES Proteosomal Degradation Protective Cell Death Autophagy Clinical Onset 20 year disease stage 20 year prodrome Hyposmia Constipation Bladder Disorder SYMPTOMS HOEN / YAHR STAGE PATHOLOGY Braak Stage 1 2 3 4 5 6 Enteric Plexus; Olfactory Bulb; CNX; Dorsal IX/X MN Sleep Disorder, Obesity Depression Coerulus, Caudal Raphe and Magnocellular RF Unilateral Tremor, Rigidity, Bradykinesia Substantia Nigra; Amygdala (CN); Meynert’s Nucleus; PPN Bilateral Disease Temporal Lobe: TEC; CA-2 Plexus; Intralaminar Thalamic Nuclei; Signicant loss of melano-neurons Poor Balance Prefrontal Cortex: Tertiary Sensory Association Areas Falls, Dependency, Cognitive Decline Chair/Bed Bound, Dementia Secondary, then Primary Motor and Sensory Areas Autophagy Parkinson’s Disease Timeline Dopamine Production Pathway α-Synuclein Structure Inflammation Toxicity Excreted Toxicity Excessive ROS Oxidative Stress Excessive destruction or Accumulation of defective mitochondria Interaction with microtubule network Synaptic vesicle formation Amphipathic Region Helix 1 Point mutations A30P E46K A53T Helix 2 NAC Region Acidic Tail Calcium homeostasis regulation Catecholamine metabolism in DAergic neurons Increased Mitophagy Parkin α-Methyl-para tyrosine Carbidopa Benserazide Pargyline Tyrosine hydroxylase (TH) (tetrahydrobiopterin) L-aromatic amino acid decarboxylase (AADC) (Pyridoxal phosphate) Monoamine oxidase (MAO) Aldehyde dehydrogenase (ALDH) Catechol-o-methyl transferase (COMT) Tyrosine MPTP MAO-B DAT D2 Autoreceptor Rotenone BLOOD VESSEL ASTROCYTE POSTSYNAPTIC CELL MPP+ Dihydroxy-phenylalanine (L-DOPA) Dihydroxyphenyl- acetaldehyde (DOPAL) Dihydroxyphenyl- acetic acid (DOPAG) Homovanillic acid (HVA) Oxidative Stress O 2 - Tetrabenazine UCHL1 Caspases 1,8 Clioquinol α-Sp22 Synphillin-1 SIAH HSP70 CHIP Ubc6/7 CDCRel-1/Septin5 EPRS Cyclin E Ataxin Proteasome Tubulins Synaptotagmin XI UbCH7/8 UBA1 AMP + PPi ATP cullin1 Ligase Hydrolase FBXw7 PAELR PAELR PINK1 p64 DA Oxidation O-glycosylation Glycation Accumulation of unfolded PAELR Increased inhibition of DA release Mutant decreases hydrolase activity Cx I e - MAO NF-κB NADH NAD + DA DOPAL + H 2 O 2 α-KG Succiny-CoA ADP+PI ATP Cx II CoQ Cx III Cyto C Cx IV Cx V LRRK2 Tau PINK1 p64 PINK1 p60 CCCP MG132 LRRK2-IN-1 Caspase-9, Inhibitor I Caspase-3 Inhibitor V PINK1 MTS TOM TOM Parkin Parkin Accumulation of misfolded pPINK1 Depolarized Mitochondrion Release of IMS Proteins PINK1 p64 Abnormal Phosphorylation Ca 2+ Disfunction DJ1 Apaf1 ATP Cyto C DOPAMINE ex2 ex3 ex4 ex5 ex6 N N N + -20y -10y 0 10y 20y Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub Ub HO NH 2 COOH HO HO NH 2 COOH L-Dopa HO HO NH 2 Dopamine Dopamine o-quinone Oxidation (H + + 2e - ) O O NH 2 HO OH O HO OH O OH HO O O OH CH 3 Succinate Fumerate VMAT D2R DAT DA 3-MT HVA DMHPA MAO COMT ALDH VSSC CaV 1.2/1.3/2.1/2.2 GIRK VGCC Ca 2+ Na + Ca 2+ K + MFN VDAC FIS1 Ub Ub Ub Ub TOM TOM TIM TIM TIM MPP PARL PINK1 p53 MG132 Sensitive Protease TIM Cyto C Bax Bcl2 p53 Caspases 3,6,7 Caspase 9 p50 p65 IκB p50 p65 ASC NLRP3 Pro-IL-18 Pro-Caspase-1 JNK/c-Jun kinase AIF TRX TXNIP Caspase-1 Pro-IL-1β IL-18 IL-1β ? PINK1 p64 DNA Strand Breaks ATP Depletion Astrocyte & microglia IL-1 Pro-Inflammatory signals Quinacrine HCl Mitophagy I. II. III. IV. V. Lewy Bodies Lewy Neurites PINK1 MTS TM A68P A168P H271Q I II III IV V VI VII VIII IX X XI Substrate Recognition C N G309D L347P E417G W437X LRRK2 ANK LRR R1441C R1441G R1441H R1628P ROC COR Kinase WD40 C N 12012T 12020T Y1699C G2019S G2385R Parkin Ubiquitin V15M R33Q P37L R42P A46P AB2E A92V KN61N S167N M192L M192V K211R K211N C212Y T240R T240N C253Y R256C R271S R275W A339S T351P R366W V380L D394N T415N G430D C431F P437L D280N G284R C289G Q100H RING1 IBR RING2 C N D1R D2R D3R D4R D5R Platforms & Technologies Antibodies & Immunoassays EMD Millipore offers an extensive portfolio of antibodies and immunoassays for Alzheimer’s and Parkinson’s disease research. With the expertise of Upstate® and Chemicon®, and backed by excellent service and support, EMD Millipore provides validated and published products in major research areas. Our diverse portfolio includes pathway, cell type, and state-specific antibodies, neurodegenerative markers, stains and assays. Small Molecules & Cell-based Assays Use the power of chemical genetics to elucidate mechanisms of neurodegeneration using our wide range of quality, highly published inhibitor and activator small molecules developed by Calbiochem®. Together with our significant portfolio of cell-based activity assays and reporter systems, they facilitate direct and indirect analyses of cell health, migration and neurite extension. Cells & Cell Culture EMD Millipore’s innovative cell culture solutions help optimize cell growth and maintenance. We offer an extensive range of human and rodent stem cells, primary cells and media designed for most types of stem cells, including embryonic, mesenchymal, and neural stem cells. These optimized media include serum-free, feeder-free formulations, and are supported by our feeder cells, supplements, reagents, sterile filtration and cultureware. Flow Cytometry Assays & Benchtop Systems Flow cytometry is an essential tool for in-depth cell analysis, with the capacity to simultaneously measure multiple parameters on individual cells and now high-speed imaging analysis. Our Muse™, guava® easyCyte™ and Amnis® platforms offer a continuum of precision benchtop flow cytometry, from easy, low-cost instruments to high resolution spatial imaging systems. EMD Millipore also offers many specialized reagents and kits for neural stem cell development, cell signaling, oxidative stress and apoptosis analyses in neurodegenerative disease. MILLIPLEX® MAP Multiplex Assays MILLIPLEX® MAP bead-based neuroscience panels, using trusted Luminex® xMAP® technology, enable multivariate analysis of complex physiologies underlying neuropathology. EMD Millipore offers the widest range of neuroscience related biomarkers. Our assays measure multiple neurodegenerative disease biomarkers simultaneously using small sample volumes. Your neural connection for antibodies, proteins, kits and assays: www.millipore.com/neuroscience EMD Millipore and the M mark, Muse, and guava easyCyte are trademarks and MILLIPLEX, Calbiochem, Upstate, and Chemicon are registered trademarks of Merck KGaA, Darmstadt, Germany. Luminex xMAP is a registered trademark of Luminex Corporation. Amnis is a registered trademark of Amnis Corporation. Lit. No. PS4465EN00 09/2012 Job No. LS-SBU-12-06497 Printed in the U.S.A. ©2012 EMD Millipore Corporation, Billerica, MA, USA. www.emdmillipore.com EMD Millipore is a division of Merck KGaA, Darmstadt, Germany
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Parkinson's Disease Mechanisms
Transcript of Parkinson's Disease Poster
Parkinson’s Disease Mechanisms
HGNC Approved Symbol Mutation Gene Locus Inheritance Disease onset
SNCA Park 1/Park 4 α-synuclein 4q21.3-q22 Dominant Early
PARK2 Park 2 Parkin 6q25.2-q27 Recessive Juvenile; Early
PARK3 Park 3 ? 2p13 Dominant Late
UCHL1 Park 5 UCHL1 4p13 Dominant Late
PINK1 Park 6 PINK1 1p36.12 Recessive Early
PARK7 Park 7 DJ-1 1p36.23 Recessive Early
LRRK2 Park 8 LRRK2 12q12 Dominant Late
ATP13A2 Park 9 ATP13A2 1p36 Recessive Juvenile KRS, Early PD
PARK10 Park 10 AAOPD 1p32 Unclear Late
PARK11PARK12
Park 11 GIGYF2 2q36-q37 Recessive Early
HTRA2
Park 12 ? Xq21-q25 Unclear Late
PLA2G6
Park 13 Omi/HTRA2 2p13.1 Unclear Late
FBXO7
Park 14 PLA2G6 22q13.1 Recessive Juvenile LDOPA-responsive dystonia Parkinsonism
PARK16
Park 15 FBX07 22q11.2-qter
Recessive Early parkinsonian- pyramidal syn.
VPS35
Park 16 ? 1q32 Unclear Unclear
EIF4G1
Park 17 VSP35 16q12 Unclear Unclear
Park 18 EIF4G1 3q27-qter Unclear Unclear
PD-related gene mutations
α-Synuclein
Protofibrils
Fibrils
Neurodegeneration
Decreased Neurotoxicity
ProteinDegradation
PinkDegraded
ES ProteosomalDegradation Protective
Cell Death
Autophagy
Clinical Onset20 year disease stage20 year prodrome
HyposmiaConstipation
Bladder DisorderSYMPTOMS
HOEN / YAHR STAGE
PATHOLOGY
Braak Stage 1 2 3 4 5 6
Enteric Plexus;Olfactory Bulb;
CNX; Dorsal IX/X MN
Sleep Disorder,Obesity
Depression
Coerulus,Caudal Raphe
and Magnocellular RF
Unilateral Tremor,Rigidity, Bradykinesia
Substantia Nigra;Amygdala
(CN); Meynert’s Nucleus; PPN
BilateralDisease
Temporal Lobe: TEC;CA-2 Plexus; Intralaminar
Thalamic Nuclei; Signicant loss of melano-neurons
Poor Balance
Prefrontal Cortex: Tertiary Sensory Association Areas
Falls,Dependency,
Cognitive Decline
Chair/Bed Bound,Dementia
Secondary, then Primary Motor and Sensory Areas
Autophagy
Parkinson’s Disease Timeline
Dopamine Production Pathway
α-Synuclein Structure
Inflammation
Toxicity
Excreted
Toxicity
Excessive ROS Oxidative Stress
Excessive destruction or Accumulation of defective
mitochondria
Interaction with microtubule network
Synaptic vesicle formation
Amphipathic Region
Helix 1
Point mutations A30P E46K A53T
Helix 2
NAC Region Acidic Tail
Calcium homeostasis regulation
Catecholamine metabolismin DAergic neurons
Increased Mitophagy
Parkin
α-Methyl-paratyrosine
CarbidopaBenserazide
Pargyline
Tyrosine hydroxylase (TH)(tetrahydrobiopterin)
L-aromatic amino aciddecarboxylase (AADC)(Pyridoxal phosphate)
Monoamine oxidase (MAO)
Aldehyde dehydrogenase (ALDH)
Catechol-o-methyltransferase (COMT)
Tyrosine
MPTPMAO-B
DAT
D2 Autoreceptor
Rotenone
BLOO
D VE
SSEL
ASTROCYTE
POSTSYNAPTIC CELL
MPP+
Dihydroxy-phenylalanine(L-DOPA)
Dihydroxyphenyl-acetaldehyde
(DOPAL)
Dihydroxyphenyl-acetic acid(DOPAG)
Homovanillicacid (HVA)
OxidativeStress
O2-
Tetrabenazine
UCHL1
Caspases 1,8
Clioquinol
α-Sp22
Synphillin-1
SIAH
HSP70
CHIP
Ubc6/7
CDCRel-1/Septin5
EPRS
Cyclin E
Ataxin
Proteasome
Tubulins
Synaptotagmin XIUbCH7/8
UBA1 AMP + PPiATP
cullin1
Ligase
Hydr
olas
e
FBXw7
PAELRPAELR
PINK1p64
DA Oxidation
O-glycosylation
Glycation
Accumulation ofunfolded PAELR
Increased inhibitionof DA release
Mutant decreases hydrolase activity
Cx Ie-
MAO
NF-κB
NADH
NAD+
DA
DOPAL + H2O2
α-KG
Succiny-CoA
ADP+PI ATPCx IICoQ
Cx IIICyto C
Cx IVCx V
LRRK2
Tau
PINK1p64
PINK1p60
CCCP
MG132
LRRK2-IN-1
Caspase-9, Inhibitor I
Caspase-3 Inhibitor V
PINK1MTS
TOM
TOM
ParkinParkin
Accumulation of misfolded pPINK1
DepolarizedMitochondrion
Release ofIMS Proteins
PINK1p64
Abnormal Phosphorylation
Ca2+ Disfunction
DJ1
Apaf1ATP
Cyto C
DOPAMINE
ex2 ex3 ex4 ex5 ex6
NNN +
-20y -10y 0 10y 20y
UbUb
Ub
UbUb
Ub
UbUb
UbUb
UbUb
UbUb
UbUb
UbUb
UbUb
UbUb
UbUb
UbUb
Ub
Ub
UbUb
UbUbUb
HO
NH2
COOH
HO
HO NH2
COOH
L-Dopa
HO
HO NH2
Dopamine
Dopamine o-quinone
Oxidation (H+ + 2e-)
O
O NH2
HO
OH
O
HO
OH
O
OH
HO
O
O
OH
CH3
SuccinateFumerate
VMAT
D2R
DAT
DA
3-MT
HVA
DMHPA
MAO
COMT
ALDH
VSSC CaV 1.2/1.3/2.1/2.2
GIRK
VGCC
Ca2+
Na+ Ca2+
K+
MFNVDACFIS1Ub
UbUb
Ub
TOM
TOM
TIM
TIM
TIMMPP PARL
PINK1p53
MG132SensitiveProtease
TIM
Cyto C
BaxBcl2
p53
Caspases 3,6,7
Caspase 9 p50 p65
IκB
p50 p65
ASC NLRP3
Pro-IL-18
Pro-Caspase-1
JNK/c-Jun kinase
AIF
TRX
TXNIP
Caspase-1
Pro-IL-1β
IL-18IL-1β
?
PINK1p64
DNA Strand Breaks
ATP Depletion
Astrocyte µglia IL-1
Pro-Inflammatory signals
Quinacrine HCl
Mitophagy
I. II. III. IV. V.
Lewy Bodies
Lewy Neurites
PINK1
MTS TM
A68P A168P H271Q
I II III IV V VI VII VIII IX X XISubstrate Recognition
CN
G309D
L347P
E417G
W437X
LRRK2
ANK LRR
R1441CR1441GR1441H R1628P
ROC COR Kinase WD40
CN
12012T 12020T
Y1699C G2019S G2385R
Parkin
Ubiquitin
V15MR33Q
P37LR42P
A46PAB2E
A92V
KN61N
S167N
M192LM192V
K211RK211N
C212Y
T240RT240N
C253YR256CR271S
R275W
A339ST351P
R366WV380L
D394N
T415N
G430D
C431FP437L
D280NG284R
C289G
Q100H
RING1 IBR RING2
CN
D1R D2R D3R D4R D5R
Platforms & TechnologiesAntibodies & ImmunoassaysEMD Millipore offers an extensive portfolio of antibodies and immunoassays for Alzheimer’s and Parkinson’s disease research. With the expertise of Upstate® and Chemicon®, and backed by excellent service and support, EMD Millipore provides validated and published products in major research areas. Our diverse portfolio includes pathway, cell type, and state-specific antibodies, neurodegenerative markers, stains and assays.
Small Molecules & Cell-based AssaysUse the power of chemical genetics to elucidate mechanisms of neurodegeneration using our wide range of quality, highly published inhibitor and activator small molecules developed by Calbiochem®. Together with our significant portfolio of cell-based activity assays and reporter systems, they facilitate direct and indirect analyses of cell health, migration and neurite extension.
Cells & Cell CultureEMD Millipore’s innovative cell culture solutions help optimize cell growth and maintenance. We offer an extensive range of human and rodent stem cells, primary cells and media designed for most types of stem cells, including embryonic, mesenchymal, and neural stem cells. These optimized media include serum-free, feeder-free formulations, and are supported by our feeder cells, supplements, reagents, sterile filtration and cultureware.
Flow Cytometry Assays & Benchtop SystemsFlow cytometry is an essential tool for in-depth cell analysis, with the capacity to simultaneously measure multiple parameters on individual cells and now high-speed imaging analysis. Our Muse™, guava® easyCyte™ and Amnis® platforms offer a continuum of precision benchtop flow cytometry, from easy, low-cost instruments to high resolution spatial imaging systems. EMD Millipore also offers many specialized reagents and kits for neural stem cell development, cell signaling, oxidative stress and apoptosis analyses in neurodegenerative disease.
MILLIPLEX® map Multiplex AssaysMILLIPLEX® map bead-based neuroscience panels, using trusted Luminex® xMAP® technology, enable multivariate analysis of complex physiologies underlying neuropathology. EMD Millipore offers the widest range of neuroscience related biomarkers. Our assays measure multiple neurodegenerative disease biomarkers simultaneously using small sample volumes.
Your neural connection for antibodies, proteins, kits and assays:www.millipore.com/neuroscience
EMD Millipore and the M mark, Muse, and guava easyCyte are trademarks and MILLIPLEX, Calbiochem, Upstate, and Chemicon are registered trademarks of Merck KGaA, Darmstadt, Germany. Luminex xMAP is a registered trademark of Luminex Corporation.Amnis is a registered trademark of Amnis Corporation. Lit. No. PS4465EN00 09/2012 Job No. LS-SBU-12-06497 Printed in the U.S.A. ©2012 EMD Millipore Corporation, Billerica, MA, USA.
www.emdmillipore.comEMD Millipore is a division of Merck KGaA, Darmstadt, Germany
