Protein kinases : Role in cell signaling & implication in human pathologies Jayanti Tokas 1, Rubina Begum 1, Shalini Jain 2 and Hariom Yadav 2 1 Department.
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Protein kinases : Role in cell signaling & implication in human
pathologies
Jayanti Tokas1, Rubina Begum1, Shalini Jain2 and Hariom Yadav2
1Department of Biotechnology, JMIT, Radaur
2 NIDDK, National Institute of Health, Bethesda,MD20892, USA
Email: yadavhariom@gmail.com
Protein Kinase
30% of all proteins may be modified
518 protein kinase genes=human kinome space
20% of all eukaryotic genes(human genome project)
218 genes=human diseases
Approx 30=tumor suppressor
Approx 100 dominant oncogenes
Kinases Protein phosphorylation cell signalingKinases Protein phosphorylation cell signaling
Reversible protein phosphorylation as a biological regulatory mechanism
Edmond H. Fischer and Edwin G. Krebs (1992 Nobel Prize for Physiology and Medicine).
Post-translational modification in the cell
• Cell growth/proliferation• Differentiation• Viability/survival• Homeostasis• Effector function (e.g. cytotoxicity, cytokine production)• Cell death
‘signal’
Signal Transduction and Kinase Pathways
Nucleus MAP kinase,• Transcription factors– Bind consensus sequence on
promoter– May form complexes– May itself be transcribed following cellular activation
Adaptor proteins
Effector enzymes
Classification
On the basis of amino acid :
Tyrosine kinases,
Serine threonine (PKC, Plk,Rho Kinases)
Receptor (EGFR,FGFR,PDGFR)
non receptor (JAK,src,Abl,MAPK)
Tyrosine kinase
structure
function:
Related pathologies
Serine threonine kinases Related pathology
Check points
Check points
Structure
Bioblar structure
N and c
N-beta sheets
C-alpha helix
ATP bind-cleft at intetrsection
How they function:
Mechanisms of Activation of Normal TKs.
survivalDifferentiation Motility Proliferation
May oligomerise
ControlAutoinhihibitory transmembrane interactions cytoplasmic juxtamembrane region further inhibits the enzyme by interacting with the kinase domain Autophosphorylation---. reorient critical amino acid residues increasing catalytic activityinhibitor proteins and lipidsIF CONTROL LOST
Loss of function
Gain of function
Mechanisms of TK Dysregulation
oPDGF EGFVEGFFGFKL
oPDGFREGFRHER2c-KITFGFR3
Overexpression of receptor or ligand
EGFRSuperfamily with 4 receptors
C-ERBB
C-ERBB2
C-ERBB3
C-ERBB4
Cell proliferationInhibition of apoptosisAngiogenesisCell motilitymetastasis
Carcinogenesis:colorectal cancer, lung cancer(enhanced responsiveness),glioblastoma
multiforme(constitutive active)
Over expressed & mutated
Deletions(exon 2-7:alternative splicing)
or point mutations(Ile654Val)
Dysregulation
Cell proliferation inh of apoptosis angiogenesis metastasis
Check points
FLT3
C-KIT
PDGFR
EGFRHER2
Mutation in receptor tyrosine kinase causing constitutive expression
PDGFR
Tyrosine kinase
fibroblasts,smooth muscles of lung and airways
Mesenchymal cell migration and proliferation
Angiogenesis and blood vessel maintainance
Dysfunction:
Abnormal vasulature irregular diameter leakiness
• Glioblastoma
• Atherosclerosis
• Pathological conditions:del(4q12) ; t(4;22)
• Adenocarcinoma
• Breast
• Colon
• Prostate
• Stomach
Cell growth
Differentiation
Chemotaxis
Angiogenesis
Cell survival
SKELETAL SYSTEM
Dysfunction
60 mutations
FGFR2 craniosynostosis syndrom(premature ossification of skull)
Pfeiffer syndrome(additional fingers
FGFR3 achondroplasia(dwarfism)
Gly380Arg Gly375Cys
Carcinogenesis:prostate, cervical ,bladder, colorectal cancer
FGFR(1-4)
Check points
Fusion of TK to partner protein
ABLPDGFRFGFR1
FGFR3JAK2
Bcr-Abl
C-Abl
Non receptor tyrosine kinase
Role:
Regulation of cell cycle,cellular response to genotoxic stress
Apoptosis neuronal development
Regulation :actin binding PI3 binding
C-Bcr localised in cytoplasm during mitosis(role in cell cycle regulation)
Bcr-Abl
t(9:22)
Related to CML(chronic myeloid leukemia)
prevent apoptosis even in the absence of growth factors
Mitogenic signaling
Altered adhesion to matrix
TARGET-imatinim mesylate
mechanism
Check points
A serine threonine kinase:PKC
Response to
•Growth factors
•Hormones
•Drugs
11 related kinases
Unregulated in GIST
Diagnostic marker therapeutic target
Therapeutic targetsATP binding domain inhibitors Erbstatin
Targeting Receptor
Monoclonal antibodies
• Herceptin, licensed for Her 2 receptor-positive
• Breast cancer
Small molecular inhibitors
Various protein tyrosine kinase inhibitors
TYRosine PHOSphorylation INhibitors
tyrophosphins
Competitive with substrate(eg.Itaconic acid)
Competitive with ATP(Quinolines)(main thrust) ATP binding fold more
specific
1. How many other kinase targets opened for exploration?
2. Majority of kinases remain largely uncharacterized.
A LOOK AHEAD
Current challenges and future directions
THANK YOU
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