Kaushik Dutta - Academia.edu (original) (raw)
Papers by Kaushik Dutta
Structure (London, England : 1993), Mar 2, 2017
The membrane ring that equatorially circumscribes the nuclear pore complex (NPC) in the perinucle... more The membrane ring that equatorially circumscribes the nuclear pore complex (NPC) in the perinuclear lumen of the nuclear envelope is composed largely of Pom152 in yeast and its ortholog Nup210 (or Gp210) in vertebrates. Here, we have used a combination of negative-stain electron microscopy, nuclear magnetic resonance, and small-angle X-ray scattering methods to determine an integrative structure of the ∼120 kDa luminal domain of Pom152. Our structural analysis reveals that the luminal domain is formed by a flexible string-of-pearls arrangement of nine repetitive cadherin-like Ig-like domains, indicating an evolutionary connection between NPCs and the cell adhesion machinery. The 16 copies of Pom152 known to be present in the yeast NPC are long enough to form the observed membrane ring, suggesting how interactions between Pom152 molecules help establish and maintain the NPC architecture.
Virulence, Aug 7, 2016
Staphylococcus aureus is a leading infectious cause of life-threatening disease in humans, yet th... more Staphylococcus aureus is a leading infectious cause of life-threatening disease in humans, yet there is currently no vaccine to combat this bacterium. The pathogenesis of S. aureus is mediated by a diverse array of protein toxins including a large family of secreted pyrogenic superantigens. Neutralization of superantigens, including SEB and TSST-1, has proven to be protective in several animal models of toxic shock and sepsis. We demonstrate, for the first time, that a far more prevalent staphylococcal superantigen, SEK, can also induce lethal shock in mice. Additionally, we describe monoclonal antibodies (mAbs) that inhibit SEK-induced mitogenicity as well as protect against SEK-induced lethality, and enhance survival from S. aureus septicemia in murine models. MAb-4G3 (IgG2b), mAb-5G2 (IgG1), and mAb-9H2 (IgG1), all inhibit SEK-induced proliferation and cytokine production of human immune cells. We then demonstrate that passive immunization with a combination of mAb-4G3 and mAb-5G...
Cell, Jan 21, 2016
Oncogenic activation of RAS genes via point mutations occurs in 20%-30% of human cancers. The dev... more Oncogenic activation of RAS genes via point mutations occurs in 20%-30% of human cancers. The development of effective RAS inhibitors has been challenging, necessitating new approaches to inhibit this oncogenic protein. Functional studies have shown that the switch region of RAS interacts with a large number of effector proteins containing a common RAS-binding domain (RBD). Because RBD-mediated interactions are essential for RAS signaling, blocking RBD association with small molecules constitutes an attractive therapeutic approach. Here, we present evidence that rigosertib, a styryl-benzyl sulfone, acts as a RAS-mimetic and interacts with the RBDs of RAF kinases, resulting in their inability to bind to RAS, disruption of RAF activation, and inhibition of the RAS-RAF-MEK pathway. We also find that ribosertib binds to the RBDs of Ral-GDS and PI3Ks. These results suggest that targeting of RBDs across multiple signaling pathways by rigosertib may represent an effective strategy for inac...
Scientific reports, Jan 8, 2015
The F-recruitment site (FRS) of active ERK2 binds F-site (Phe-x-Phe-Pro) sequences found downstre... more The F-recruitment site (FRS) of active ERK2 binds F-site (Phe-x-Phe-Pro) sequences found downstream of the Ser/Thr phospho-acceptor on cellular substrates. Here we apply NMR methods to analyze the interaction between active ERK2 (ppERK2), and a 13-residue F-site-bearing peptide substrate derived from its cellular target, the transcription factor Elk-1. Our results provide detailed insight into previously elusive structural and dynamic features of FRS/F-site interactions and FRS-driven substrate phosphorylation. We show that substrate F-site engagement significantly quenches slow dynamics involving the ppERK2 activation-loop and the FRS. We also demonstrate that the F-site phenylalanines make critical contacts with ppERK2, in contrast to the proline whose cis-trans isomerization has no significant effect on F-site recognition by the kinase FRS. Our results support a mechanism where phosphorylation of the disordered N-terminal phospho-acceptor is facilitated by its increased productiv...
The Journal of biological chemistry, Jan 13, 2015
Staphylococcal enterotoxin B (SEB) is a superantigen that cross-links the major histocompatibilit... more Staphylococcal enterotoxin B (SEB) is a superantigen that cross-links the major histocompatibility complex class II and specific V-β chains of the T-cell receptor, thus forming a ternary complex. Developing neutralizing mAb to disrupt the ternary complex and abrogate the resulting toxicity is a major therapeutic challenge because SEB is effective at very low concentrations. We show that combining two SEB-specific mAbs enhances their efficacy, even though one of the two mAbs by itself has no effect on neutralization. Crystallography was employed for fine-mapping conformational epitopes in binary and ternary complexes between SEB and Fab fragments. NMR spectroscopy was used to validate and identify subtle allosteric changes induced by mAbs binding to SEB. The mapping of epitopes established that a combination of different mAbs can enhance efficacy of mAb-mediated protection from SEB induced lethal shock by two different mechanisms: one mAb mixture promoted clearance of the toxin both ...
Biomolecular NMR Assignments, 2011
DNA ligase D (LigD), consisting of polymerase, ligase and phosphoesterase domains, is the essenti... more DNA ligase D (LigD), consisting of polymerase, ligase and phosphoesterase domains, is the essential catalyst of the bacterial non-homologous end-joining pathway of DNA double-strand break repair. The phosphoesterase (PE) module performs manganese-dependent 3 0-phosphomonoesterase and 3 0-ribonucleoside resection reactions that heal broken ends in preparation for sealing. LigD PE exemplifies a structurally and mechanistically unique class of DNA end-processing enzymes. Here, we present the resonance assignments of the PE domain of Pseudomonas aeruginosa LigD comprising the N-terminal 177 residues.
Biomolecular NMR Assignments, 2012
Protein tyrosine kinases in bacteria are structurally and functionally distinct from their eukary... more Protein tyrosine kinases in bacteria are structurally and functionally distinct from their eukaryotic counterparts. The largest family of bacterial tyrosine kinases, the BY-kinase family, is highly conserved in Gram-negative and Gram-positive species, and plays a central role in biofilm and capsule formation. In Escherichia coli the BY-kinase, Wzc, is a critical component of the machinery responsible for the synthesis and export of the exo-polysaccharide colanic acid, a key constituent of biofilms. Here we present the main-chain (1)H(N), (15)N, (13)C' and (13)Cα, side-chain (13)Cβ resonance assignments for a construct that encodes the entire 274-residue cytosolic catalytic domain of Wzc.
Protein Science, 2011
Amelogenins are an intrinsically disordered protein family that plays a major role in the develop... more Amelogenins are an intrinsically disordered protein family that plays a major role in the development of tooth enamel, one of the most highly mineralized materials in nature. Monomeric porcine amelogenin possesses random coil and residual secondary structures, but it is not known which sequence regions would be conformationally attractive to potential enamel matrix targets such as other amelogenins (self-assembly), other matrix proteins, cell surfaces, or biominerals. To address this further, we investigated recombinant porcine amelogenin (rP172) using "solvent engineering" techniques to simultaneously promote native-like structure and induce amelogenin oligomerization in a manner that allows identification of intermolecular contacts between amelogenin molecules. We discovered that in the presence of 2,2,2-trifluoroethanol (TFE) significant folding transitions and stabilization occurred primarily within the N- and C-termini, while the polyproline Type II central domain was largely resistant to conformational transitions. Seven Pro residues (P2, P127, P130, P139, P154, P157, P162) exhibited conformational response to TFE, and this indicates these Pro residues act as folding enhancers in rP172. The remaining Pro residues resisted TFE perturbations and thus act as conformational stabilizers. We also noted that TFE induced rP172 self-association via the formation of intermolecular contacts involving P4-H6, V19-P33, and E40-T58 regions of the N-terminus. Collectively, these results confirm that the N- and C-termini of amelogenin are conformationally responsive and represent potential interactive sites for amelogenin-target interactions during enamel matrix mineralization. Conversely, the Pro, Gln central domain is resistant to folding and this may have important functional significance for amelogenin.
Journal of biomolecular NMR, 2002
RNA (New York, N.Y.), 2007
The 5'-cloverleaf of the picornavirus RNA genome is essential for the assembly of a ribonucle... more The 5'-cloverleaf of the picornavirus RNA genome is essential for the assembly of a ribonucleoprotein replication complex. Stem-loop D (SLD) of the cloverleaf is the recognition site for the multifunctional viral protein 3Cpro. This protein is the principal viral protease, and its interaction with SLD also helps to position the viral RNA-dependent RNA polymerase (3Dpol) for replication. Human rhinovirus-14 (HRV-14) is distinct from the majority of picornaviruses in that its SLD forms a cUAUg triloop instead of the more common uYACGg tetraloop. This difference appears to be functionally significant, as 3Cpro from tetraloop-containing viruses cannot bind the HRV-14 SLD. We have determined the solution structure of the HRV-14 SLD using NMR spectroscopy. The structure is predominantly an A-form helix, but with a central pyrimidine-pyrimidine base-paired region and a significantly widened major groove. The stabilizing hydrogen bonding present in the uYACGg tetraloop was not found in ...
Uncontrolled fibroblast growth factor (FGF) signaling can lead to human malignancies necessitatin... more Uncontrolled fibroblast growth factor (FGF) signaling can lead to human malignancies necessitating multiple layers of self-regulatory control mechanisms. Fibroblast growth factor receptor (FGFR) autoinhibition mediated by the alternatively spliced immunoglobulin (Ig) domain 1 (D1) and the acid box (AB)containing linker between D1 and Ig domain 2 (D2) serves as the first line of defense to minimize inadvertent FGF signaling. In this report, nuclear magnetic resonance and surface plasmon resonance spectroscopy are used to demonstrate that the AB subregion of FGFR electrostatically engages the heparan sulfate (HS)-binding site on the D2 domain in cis to directly suppress HS-binding affinity of FGFR. Furthermore, the cis electrostatic interaction sterically autoinhibits ligand-binding affinity of FGFR because of the close proximity of HS-binding and primary ligand-binding sites on the D2 domain. These data, together with the strong amino acid sequence conservation of the AB subregion among FGFR orthologs, highlight the universal role of the AB subregion in FGFR autoinhibition.
The basal (ligand-independent) kinase activity of receptor tyrosine kinases (RTKs) promotes trans... more The basal (ligand-independent) kinase activity of receptor tyrosine kinases (RTKs) promotes transphosphorylation on activation loop tyrosines upon ligand-induced receptor dimerization, thus upregulating intrinsic kinase activity and triggering intracellular signaling. To understand the molecular determinants of intrinsic kinase activity, we used X-ray crystallography and NMR spectroscopy to analyze pathogenic FGF receptor mutants with gradations in gain-of-function activity. These structural analyses revealed a ''two-state'' dynamic equilibrium model whereby the kinase toggles between an ''inhibited,'' structurally rigid ground state and a more dynamic and heterogeneous active state. The pathogenic mutations have different abilities to shift this equilibrium toward the active state. The increase in the fractional population of FGF receptors in the active state correlates with the degree of gain-of-function activity and clinical severity. Our data demonstrate that the fractional population of RTKs in the active state determines intrinsic kinase activity and underscore how a slight increase in the active population of kinases can have grave consequences for human health.
Polymer, 1998
The microstructure of poly(trans-4-acryloyloxyazobenzene) P(AB) homopolymer, prepared by solution... more The microstructure of poly(trans-4-acryloyloxyazobenzene) P(AB) homopolymer, prepared by solution polymerization using AlBN as initiator is analysed by one-and two-dimensional NMR spectrotcopy. Sequence distribution was calculated from 13 C{ 1 H}nmr spectrum of the ...
FEBS Journal, 2009
Prostate apoptosis response factor-4 (Par-4) is a ubiquitously expressed pro-apoptotic and tumour... more Prostate apoptosis response factor-4 (Par-4) is a ubiquitously expressed pro-apoptotic and tumour suppressive protein. Par-4 contains a highly conserved coiled coil (CC) region at the Cterminus, particularly the distal 40 residues fulfil the criteria for a leucine zipper (LZ). This Cterminal domain serves as the primary recognition domain for a large number of binding partners. Par-4 is tightly regulated by the aforementioned binding partners and also by posttranslational modifications. Biophysical data presented here describe Par-4 as primarily an intrinsically disordered protein (IDP). Bioinformatic analysis of the highly conserved Par-4 reveals low sequence complexity and enrichment in polar and charged amino acids. High proteolytic susceptibility and increased hydrodynamic radii are consistent with largely extended structures in solution. Spectroscopic measurements using circular dichroism (CD) and nuclear magnetic resonance (NMR) also reveal characteristic features of intrinsic disorder. Under physiological conditions, data show that Par-4 self-associates via the C-terminal domain possibly through coiled coil formation. Analysis of various constructs comprising the Par-4 LZ domain by NMR, CD, light scattering and other techniques reveals an environment-dependent conformational equilibrium between primarily disordered monomers and predominantly coiled coil dimers. Whereas the disordered monomers are easily observed by NMR, the coiled coil fraction is not amenable to NMR studies possibly due to intermediate exchange processes. Mutational approaches that stabilise the coiled coil fraction result in NMR spectra of lower quality compared to the wild-type form. The high degree of sequence conservation suggest that coiled coil formation and intrinsic disorder are essential for Par-4 to function as an effective regulator of apoptosis.
Structure (London, England : 1993), Mar 2, 2017
The membrane ring that equatorially circumscribes the nuclear pore complex (NPC) in the perinucle... more The membrane ring that equatorially circumscribes the nuclear pore complex (NPC) in the perinuclear lumen of the nuclear envelope is composed largely of Pom152 in yeast and its ortholog Nup210 (or Gp210) in vertebrates. Here, we have used a combination of negative-stain electron microscopy, nuclear magnetic resonance, and small-angle X-ray scattering methods to determine an integrative structure of the ∼120 kDa luminal domain of Pom152. Our structural analysis reveals that the luminal domain is formed by a flexible string-of-pearls arrangement of nine repetitive cadherin-like Ig-like domains, indicating an evolutionary connection between NPCs and the cell adhesion machinery. The 16 copies of Pom152 known to be present in the yeast NPC are long enough to form the observed membrane ring, suggesting how interactions between Pom152 molecules help establish and maintain the NPC architecture.
Virulence, Aug 7, 2016
Staphylococcus aureus is a leading infectious cause of life-threatening disease in humans, yet th... more Staphylococcus aureus is a leading infectious cause of life-threatening disease in humans, yet there is currently no vaccine to combat this bacterium. The pathogenesis of S. aureus is mediated by a diverse array of protein toxins including a large family of secreted pyrogenic superantigens. Neutralization of superantigens, including SEB and TSST-1, has proven to be protective in several animal models of toxic shock and sepsis. We demonstrate, for the first time, that a far more prevalent staphylococcal superantigen, SEK, can also induce lethal shock in mice. Additionally, we describe monoclonal antibodies (mAbs) that inhibit SEK-induced mitogenicity as well as protect against SEK-induced lethality, and enhance survival from S. aureus septicemia in murine models. MAb-4G3 (IgG2b), mAb-5G2 (IgG1), and mAb-9H2 (IgG1), all inhibit SEK-induced proliferation and cytokine production of human immune cells. We then demonstrate that passive immunization with a combination of mAb-4G3 and mAb-5G...
Cell, Jan 21, 2016
Oncogenic activation of RAS genes via point mutations occurs in 20%-30% of human cancers. The dev... more Oncogenic activation of RAS genes via point mutations occurs in 20%-30% of human cancers. The development of effective RAS inhibitors has been challenging, necessitating new approaches to inhibit this oncogenic protein. Functional studies have shown that the switch region of RAS interacts with a large number of effector proteins containing a common RAS-binding domain (RBD). Because RBD-mediated interactions are essential for RAS signaling, blocking RBD association with small molecules constitutes an attractive therapeutic approach. Here, we present evidence that rigosertib, a styryl-benzyl sulfone, acts as a RAS-mimetic and interacts with the RBDs of RAF kinases, resulting in their inability to bind to RAS, disruption of RAF activation, and inhibition of the RAS-RAF-MEK pathway. We also find that ribosertib binds to the RBDs of Ral-GDS and PI3Ks. These results suggest that targeting of RBDs across multiple signaling pathways by rigosertib may represent an effective strategy for inac...
Scientific reports, Jan 8, 2015
The F-recruitment site (FRS) of active ERK2 binds F-site (Phe-x-Phe-Pro) sequences found downstre... more The F-recruitment site (FRS) of active ERK2 binds F-site (Phe-x-Phe-Pro) sequences found downstream of the Ser/Thr phospho-acceptor on cellular substrates. Here we apply NMR methods to analyze the interaction between active ERK2 (ppERK2), and a 13-residue F-site-bearing peptide substrate derived from its cellular target, the transcription factor Elk-1. Our results provide detailed insight into previously elusive structural and dynamic features of FRS/F-site interactions and FRS-driven substrate phosphorylation. We show that substrate F-site engagement significantly quenches slow dynamics involving the ppERK2 activation-loop and the FRS. We also demonstrate that the F-site phenylalanines make critical contacts with ppERK2, in contrast to the proline whose cis-trans isomerization has no significant effect on F-site recognition by the kinase FRS. Our results support a mechanism where phosphorylation of the disordered N-terminal phospho-acceptor is facilitated by its increased productiv...
The Journal of biological chemistry, Jan 13, 2015
Staphylococcal enterotoxin B (SEB) is a superantigen that cross-links the major histocompatibilit... more Staphylococcal enterotoxin B (SEB) is a superantigen that cross-links the major histocompatibility complex class II and specific V-β chains of the T-cell receptor, thus forming a ternary complex. Developing neutralizing mAb to disrupt the ternary complex and abrogate the resulting toxicity is a major therapeutic challenge because SEB is effective at very low concentrations. We show that combining two SEB-specific mAbs enhances their efficacy, even though one of the two mAbs by itself has no effect on neutralization. Crystallography was employed for fine-mapping conformational epitopes in binary and ternary complexes between SEB and Fab fragments. NMR spectroscopy was used to validate and identify subtle allosteric changes induced by mAbs binding to SEB. The mapping of epitopes established that a combination of different mAbs can enhance efficacy of mAb-mediated protection from SEB induced lethal shock by two different mechanisms: one mAb mixture promoted clearance of the toxin both ...
Biomolecular NMR Assignments, 2011
DNA ligase D (LigD), consisting of polymerase, ligase and phosphoesterase domains, is the essenti... more DNA ligase D (LigD), consisting of polymerase, ligase and phosphoesterase domains, is the essential catalyst of the bacterial non-homologous end-joining pathway of DNA double-strand break repair. The phosphoesterase (PE) module performs manganese-dependent 3 0-phosphomonoesterase and 3 0-ribonucleoside resection reactions that heal broken ends in preparation for sealing. LigD PE exemplifies a structurally and mechanistically unique class of DNA end-processing enzymes. Here, we present the resonance assignments of the PE domain of Pseudomonas aeruginosa LigD comprising the N-terminal 177 residues.
Biomolecular NMR Assignments, 2012
Protein tyrosine kinases in bacteria are structurally and functionally distinct from their eukary... more Protein tyrosine kinases in bacteria are structurally and functionally distinct from their eukaryotic counterparts. The largest family of bacterial tyrosine kinases, the BY-kinase family, is highly conserved in Gram-negative and Gram-positive species, and plays a central role in biofilm and capsule formation. In Escherichia coli the BY-kinase, Wzc, is a critical component of the machinery responsible for the synthesis and export of the exo-polysaccharide colanic acid, a key constituent of biofilms. Here we present the main-chain (1)H(N), (15)N, (13)C' and (13)Cα, side-chain (13)Cβ resonance assignments for a construct that encodes the entire 274-residue cytosolic catalytic domain of Wzc.
Protein Science, 2011
Amelogenins are an intrinsically disordered protein family that plays a major role in the develop... more Amelogenins are an intrinsically disordered protein family that plays a major role in the development of tooth enamel, one of the most highly mineralized materials in nature. Monomeric porcine amelogenin possesses random coil and residual secondary structures, but it is not known which sequence regions would be conformationally attractive to potential enamel matrix targets such as other amelogenins (self-assembly), other matrix proteins, cell surfaces, or biominerals. To address this further, we investigated recombinant porcine amelogenin (rP172) using "solvent engineering" techniques to simultaneously promote native-like structure and induce amelogenin oligomerization in a manner that allows identification of intermolecular contacts between amelogenin molecules. We discovered that in the presence of 2,2,2-trifluoroethanol (TFE) significant folding transitions and stabilization occurred primarily within the N- and C-termini, while the polyproline Type II central domain was largely resistant to conformational transitions. Seven Pro residues (P2, P127, P130, P139, P154, P157, P162) exhibited conformational response to TFE, and this indicates these Pro residues act as folding enhancers in rP172. The remaining Pro residues resisted TFE perturbations and thus act as conformational stabilizers. We also noted that TFE induced rP172 self-association via the formation of intermolecular contacts involving P4-H6, V19-P33, and E40-T58 regions of the N-terminus. Collectively, these results confirm that the N- and C-termini of amelogenin are conformationally responsive and represent potential interactive sites for amelogenin-target interactions during enamel matrix mineralization. Conversely, the Pro, Gln central domain is resistant to folding and this may have important functional significance for amelogenin.
Journal of biomolecular NMR, 2002
RNA (New York, N.Y.), 2007
The 5'-cloverleaf of the picornavirus RNA genome is essential for the assembly of a ribonucle... more The 5'-cloverleaf of the picornavirus RNA genome is essential for the assembly of a ribonucleoprotein replication complex. Stem-loop D (SLD) of the cloverleaf is the recognition site for the multifunctional viral protein 3Cpro. This protein is the principal viral protease, and its interaction with SLD also helps to position the viral RNA-dependent RNA polymerase (3Dpol) for replication. Human rhinovirus-14 (HRV-14) is distinct from the majority of picornaviruses in that its SLD forms a cUAUg triloop instead of the more common uYACGg tetraloop. This difference appears to be functionally significant, as 3Cpro from tetraloop-containing viruses cannot bind the HRV-14 SLD. We have determined the solution structure of the HRV-14 SLD using NMR spectroscopy. The structure is predominantly an A-form helix, but with a central pyrimidine-pyrimidine base-paired region and a significantly widened major groove. The stabilizing hydrogen bonding present in the uYACGg tetraloop was not found in ...
Uncontrolled fibroblast growth factor (FGF) signaling can lead to human malignancies necessitatin... more Uncontrolled fibroblast growth factor (FGF) signaling can lead to human malignancies necessitating multiple layers of self-regulatory control mechanisms. Fibroblast growth factor receptor (FGFR) autoinhibition mediated by the alternatively spliced immunoglobulin (Ig) domain 1 (D1) and the acid box (AB)containing linker between D1 and Ig domain 2 (D2) serves as the first line of defense to minimize inadvertent FGF signaling. In this report, nuclear magnetic resonance and surface plasmon resonance spectroscopy are used to demonstrate that the AB subregion of FGFR electrostatically engages the heparan sulfate (HS)-binding site on the D2 domain in cis to directly suppress HS-binding affinity of FGFR. Furthermore, the cis electrostatic interaction sterically autoinhibits ligand-binding affinity of FGFR because of the close proximity of HS-binding and primary ligand-binding sites on the D2 domain. These data, together with the strong amino acid sequence conservation of the AB subregion among FGFR orthologs, highlight the universal role of the AB subregion in FGFR autoinhibition.
The basal (ligand-independent) kinase activity of receptor tyrosine kinases (RTKs) promotes trans... more The basal (ligand-independent) kinase activity of receptor tyrosine kinases (RTKs) promotes transphosphorylation on activation loop tyrosines upon ligand-induced receptor dimerization, thus upregulating intrinsic kinase activity and triggering intracellular signaling. To understand the molecular determinants of intrinsic kinase activity, we used X-ray crystallography and NMR spectroscopy to analyze pathogenic FGF receptor mutants with gradations in gain-of-function activity. These structural analyses revealed a ''two-state'' dynamic equilibrium model whereby the kinase toggles between an ''inhibited,'' structurally rigid ground state and a more dynamic and heterogeneous active state. The pathogenic mutations have different abilities to shift this equilibrium toward the active state. The increase in the fractional population of FGF receptors in the active state correlates with the degree of gain-of-function activity and clinical severity. Our data demonstrate that the fractional population of RTKs in the active state determines intrinsic kinase activity and underscore how a slight increase in the active population of kinases can have grave consequences for human health.
Polymer, 1998
The microstructure of poly(trans-4-acryloyloxyazobenzene) P(AB) homopolymer, prepared by solution... more The microstructure of poly(trans-4-acryloyloxyazobenzene) P(AB) homopolymer, prepared by solution polymerization using AlBN as initiator is analysed by one-and two-dimensional NMR spectrotcopy. Sequence distribution was calculated from 13 C{ 1 H}nmr spectrum of the ...
FEBS Journal, 2009
Prostate apoptosis response factor-4 (Par-4) is a ubiquitously expressed pro-apoptotic and tumour... more Prostate apoptosis response factor-4 (Par-4) is a ubiquitously expressed pro-apoptotic and tumour suppressive protein. Par-4 contains a highly conserved coiled coil (CC) region at the Cterminus, particularly the distal 40 residues fulfil the criteria for a leucine zipper (LZ). This Cterminal domain serves as the primary recognition domain for a large number of binding partners. Par-4 is tightly regulated by the aforementioned binding partners and also by posttranslational modifications. Biophysical data presented here describe Par-4 as primarily an intrinsically disordered protein (IDP). Bioinformatic analysis of the highly conserved Par-4 reveals low sequence complexity and enrichment in polar and charged amino acids. High proteolytic susceptibility and increased hydrodynamic radii are consistent with largely extended structures in solution. Spectroscopic measurements using circular dichroism (CD) and nuclear magnetic resonance (NMR) also reveal characteristic features of intrinsic disorder. Under physiological conditions, data show that Par-4 self-associates via the C-terminal domain possibly through coiled coil formation. Analysis of various constructs comprising the Par-4 LZ domain by NMR, CD, light scattering and other techniques reveals an environment-dependent conformational equilibrium between primarily disordered monomers and predominantly coiled coil dimers. Whereas the disordered monomers are easily observed by NMR, the coiled coil fraction is not amenable to NMR studies possibly due to intermediate exchange processes. Mutational approaches that stabilise the coiled coil fraction result in NMR spectra of lower quality compared to the wild-type form. The high degree of sequence conservation suggest that coiled coil formation and intrinsic disorder are essential for Par-4 to function as an effective regulator of apoptosis.