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Papers by hang kang

Journal of Biological Chemistry, 2006

Previously, we have reported that BRCA1 regulates the expression of various classes of genes, inc... more Previously, we have reported that BRCA1 regulates the expression of various classes of genes, including genes involved in xenobiotic stress responses (Bae, I., Fan, S., Meng, Q., Rih, J. K., Kim, H. J., Kang, H. J., Xu, J., Goldberg, I. D., Jaiswal, A. K., and Rosen, E. M. (2004) Cancer Res. 64, 7893-7909). In the present study, we have investigated the effects of BRCA1 on xenobiotic stress-inducible gene expression. In response to aryl hydrocarbon receptor (AhR) ligands, cytoplasmic AhR becomes activated and then translocates to the nucleus where it forms a complex with the aryl hydrocarbon receptor nuclear translocator (ARNT). Subsequently, the AhR.ARNT complex binds to the enhancer or promoter of genes containing a xenobiotic stress-responsive element and regulates the expression of multiple target genes including cytochrome P450 subfamily polypeptide 1 (CYP1A1). In this study, we have found that endogenous and overexpressed exogenous wild-type BRCA1 affect xenobiotic stress-induced CYP1A1 gene expression. Using a standard chromatin immunoprecipitation assay, we have demonstrated that BRCA1 is recruited to the promoter regions of CYP1A1 and CYP1B1 along with ARNT and/or AhR following xenobiotic exposure. Our findings suggest that BRCA1 may be physiologically important for mounting a normal response to xenobiotic insults and that it may function as a coactivator for ARNT activity. Using immunoprecipitation, Western blotting, and glutathione S-transferase capture assays, a xenobiotic-independent interaction between BRCA1 and ARNT has been identified, although it is not yet known whether this is a direct or indirect interaction. We have also found that the inducibility of CYP1A1 and CYP1B1 transcripts following xenobiotic stress was significantly attenuated in BRCA1 knockdown cells. This reduced inducibility is associated with an altered stability of ARNT and was almost completely reversed in cells transfected with an ARNT expression vector. Finally, we have found that xenobiotic (TCDD) treatments of breast cancer cells containing reduced levels of BRCA1 cause the transcription factor ARNT to become unstable.

Journal of Biological Chemistry, 2010

Cell surface pili are polymeric protein assemblies that enable bacteria to adhere to surfaces and... more Cell surface pili are polymeric protein assemblies that enable bacteria to adhere to surfaces and to specific host tissues. The pili expressed by Gram-positive bacteria constitute a unique paradigm in which sortase-mediated covalent linkages join successive pilin subunits like beads on a string. These pili are formed from two or three distinct types of pilin subunit, typically encoded in small gene clusters, often with their cognate sortases. In Group A streptococci (GAS), a major pilin forms the polymeric backbone, whereas two minor pilins are located at the tip and the base. Here, we report the 1.9-Å resolution crystal structure of the GAS basal pilin FctB, revealing an immunoglobulin (Ig)-like N-terminal domain with an extended proline-rich tail. Unexpected structural homology between the FctB Ig-like domain and the N-terminal domain of the GAS shaft pilin helps explain the use of the same sortase for polymerization of the shaft and its attachment to FctB. It also enabled the identification, from mass spectral data, of the lysine residue involved in the covalent linkage of FctB to the shaft. The proline-rich tail forms a polyproline-II helix that appears to be a common feature of the basal (cell wall-anchoring) pilins. Together, our results indicate distinct structural elements in the pilin proteins that play a role in selecting for the appropriate sortases and thereby help orchestrate the ordered assembly of the pilus.

Journal of Biological Chemistry, 2009

The pili expressed by Streptococcus pyogenes and certain other Gram-positive bacterial pathogens ... more The pili expressed by Streptococcus pyogenes and certain other Gram-positive bacterial pathogens are based on a polymeric backbone in which individual pilin subunits are joined end-to-end by covalent isopeptide bonds through the action of sortase enzymes. The crystal structure of the major pilin of S. pyogenes, Spy0128, revealed that each domain of the two domain protein contained an intramolecular isopeptide bond cross-link joining a Lys side chain to an Asn side chain. In the present work, mutagenesis was used to create mutant proteins that lacked either one isopeptide bond (E117A, N168A, and E258A mutants) or both isopeptide bonds (E117A/E258A). Both the thermal stability and proteolytic stability of Spy0128 were severely compromised by loss of the isopeptide bonds. Unfolding experiments, monitored by circular dichroism, revealed a transition temperature T m of 85°C for the wild type protein. In contrast, mutants with only one isopeptide bond showed biphasic unfolding, with the domain lacking an isopeptide bond having a T m that was ϳ30°C lower than the unaltered domain. High resolution crystal structures of the E117A and N168A mutants showed that the loss of an isopeptide bond did not change the overall pilin structure but caused local disturbance of the protein core that was greater for E117A than for N168A. These effects on stability appear also to be important for pilus assembly. The abbreviations used are: GAS, group A streptococcus; ESI-TOF, electrospray ionization-time of flight; WT, wild type; MOPS, 4-morpholinepropanesulfonic acid; N domain, N-terminal domain; C domain, C-terminal domain.

Biochemical Journal, 2008

The HBV (hepatitis B virus) core is a phosphoprotein whose assembly, replication, encapsidation a... more The HBV (hepatitis B virus) core is a phosphoprotein whose assembly, replication, encapsidation and localization are regulated by phosphorylation. It is known that PKC (protein kinase C) regulates pgRNA (pregenomic RNA) encapsidation by phosphorylation of the C-terminus of core, which is a component packaged into capsid. Neither the N-terminal residue phosphorylated by PKC nor the role of the C-terminal phosphorylation have been cleary defined. In the present study we found that HBV Cp149 (core protein C-terminally truncated at amino acid 149) expressed in Escherichia coli was phosphorylated by PKC at Ser 106 . PKC-mediated phosphorylation increased core affinity, as well as assembly and capsid stability. In vitro phosphorylation with core mutants (S26A, T70A, S106A and T114A) revealed that the Ser 106 mutation inhibited phosphorylation of core by PKC. CD analysis also revealed that PKC-mediated phosphorylation stabilized the secondary structure of capsid. When either pCMV/FLAG-Cp149[WT (wild-type)] or pCMV/FLAG-S106A Cp149 was transfected into Huh7 human hepatoma cells, mutant capsid level was decreased by 2.06-fold with the S106A mutant when compared with WT, although the same level of total protein was expressed in both cases. In addition, when pUC1.2x and pUC1.2x/S106A were transfected, mutant virus titre was decreased 2.31-fold compared with WT virus titre.

Journal of Crystal Growth, 2006

We study the magnetic and electronic properties of V-and Mn-doped hexagonal ZnO and cubic GaN by ... more We study the magnetic and electronic properties of V-and Mn-doped hexagonal ZnO and cubic GaN by using the full-potential linear muffin-tin orbital method. The calculations are made at several concentrations from about 4% to 12% of dopant atoms in the 48 and 64 atoms supercell for ZnO and GaN, respectively. For Zn 1Àx M x O (M ¼ V and Mn) at x ¼ 0:083 (pair impurities), the energetically favorable magnetism is the antiferromagnetic states. For V-doped ZnO with the defect, the results show that it is strongly correlated between the energy states by the defect of Zn or O site and those by V impurity in ZnO. r 2005 Published by Elsevier B.V.

Journal of Biological Chemistry, 2006

Previously, we have reported that BRCA1 regulates the expression of various classes of genes, inc... more Previously, we have reported that BRCA1 regulates the expression of various classes of genes, including genes involved in xenobiotic stress responses (Bae, I., Fan, S., Meng, Q., Rih, J. K., Kim, H. J., Kang, H. J., Xu, J., Goldberg, I. D., Jaiswal, A. K., and Rosen, E. M. (2004) Cancer Res. 64, 7893-7909). In the present study, we have investigated the effects of BRCA1 on xenobiotic stress-inducible gene expression. In response to aryl hydrocarbon receptor (AhR) ligands, cytoplasmic AhR becomes activated and then translocates to the nucleus where it forms a complex with the aryl hydrocarbon receptor nuclear translocator (ARNT). Subsequently, the AhR.ARNT complex binds to the enhancer or promoter of genes containing a xenobiotic stress-responsive element and regulates the expression of multiple target genes including cytochrome P450 subfamily polypeptide 1 (CYP1A1). In this study, we have found that endogenous and overexpressed exogenous wild-type BRCA1 affect xenobiotic stress-induced CYP1A1 gene expression. Using a standard chromatin immunoprecipitation assay, we have demonstrated that BRCA1 is recruited to the promoter regions of CYP1A1 and CYP1B1 along with ARNT and/or AhR following xenobiotic exposure. Our findings suggest that BRCA1 may be physiologically important for mounting a normal response to xenobiotic insults and that it may function as a coactivator for ARNT activity. Using immunoprecipitation, Western blotting, and glutathione S-transferase capture assays, a xenobiotic-independent interaction between BRCA1 and ARNT has been identified, although it is not yet known whether this is a direct or indirect interaction. We have also found that the inducibility of CYP1A1 and CYP1B1 transcripts following xenobiotic stress was significantly attenuated in BRCA1 knockdown cells. This reduced inducibility is associated with an altered stability of ARNT and was almost completely reversed in cells transfected with an ARNT expression vector. Finally, we have found that xenobiotic (TCDD) treatments of breast cancer cells containing reduced levels of BRCA1 cause the transcription factor ARNT to become unstable.

Journal of Biological Chemistry, 2010

Cell surface pili are polymeric protein assemblies that enable bacteria to adhere to surfaces and... more Cell surface pili are polymeric protein assemblies that enable bacteria to adhere to surfaces and to specific host tissues. The pili expressed by Gram-positive bacteria constitute a unique paradigm in which sortase-mediated covalent linkages join successive pilin subunits like beads on a string. These pili are formed from two or three distinct types of pilin subunit, typically encoded in small gene clusters, often with their cognate sortases. In Group A streptococci (GAS), a major pilin forms the polymeric backbone, whereas two minor pilins are located at the tip and the base. Here, we report the 1.9-Å resolution crystal structure of the GAS basal pilin FctB, revealing an immunoglobulin (Ig)-like N-terminal domain with an extended proline-rich tail. Unexpected structural homology between the FctB Ig-like domain and the N-terminal domain of the GAS shaft pilin helps explain the use of the same sortase for polymerization of the shaft and its attachment to FctB. It also enabled the identification, from mass spectral data, of the lysine residue involved in the covalent linkage of FctB to the shaft. The proline-rich tail forms a polyproline-II helix that appears to be a common feature of the basal (cell wall-anchoring) pilins. Together, our results indicate distinct structural elements in the pilin proteins that play a role in selecting for the appropriate sortases and thereby help orchestrate the ordered assembly of the pilus.

Journal of Biological Chemistry, 2009

The pili expressed by Streptococcus pyogenes and certain other Gram-positive bacterial pathogens ... more The pili expressed by Streptococcus pyogenes and certain other Gram-positive bacterial pathogens are based on a polymeric backbone in which individual pilin subunits are joined end-to-end by covalent isopeptide bonds through the action of sortase enzymes. The crystal structure of the major pilin of S. pyogenes, Spy0128, revealed that each domain of the two domain protein contained an intramolecular isopeptide bond cross-link joining a Lys side chain to an Asn side chain. In the present work, mutagenesis was used to create mutant proteins that lacked either one isopeptide bond (E117A, N168A, and E258A mutants) or both isopeptide bonds (E117A/E258A). Both the thermal stability and proteolytic stability of Spy0128 were severely compromised by loss of the isopeptide bonds. Unfolding experiments, monitored by circular dichroism, revealed a transition temperature T m of 85°C for the wild type protein. In contrast, mutants with only one isopeptide bond showed biphasic unfolding, with the domain lacking an isopeptide bond having a T m that was ϳ30°C lower than the unaltered domain. High resolution crystal structures of the E117A and N168A mutants showed that the loss of an isopeptide bond did not change the overall pilin structure but caused local disturbance of the protein core that was greater for E117A than for N168A. These effects on stability appear also to be important for pilus assembly. The abbreviations used are: GAS, group A streptococcus; ESI-TOF, electrospray ionization-time of flight; WT, wild type; MOPS, 4-morpholinepropanesulfonic acid; N domain, N-terminal domain; C domain, C-terminal domain.

Biochemical Journal, 2008

The HBV (hepatitis B virus) core is a phosphoprotein whose assembly, replication, encapsidation a... more The HBV (hepatitis B virus) core is a phosphoprotein whose assembly, replication, encapsidation and localization are regulated by phosphorylation. It is known that PKC (protein kinase C) regulates pgRNA (pregenomic RNA) encapsidation by phosphorylation of the C-terminus of core, which is a component packaged into capsid. Neither the N-terminal residue phosphorylated by PKC nor the role of the C-terminal phosphorylation have been cleary defined. In the present study we found that HBV Cp149 (core protein C-terminally truncated at amino acid 149) expressed in Escherichia coli was phosphorylated by PKC at Ser 106 . PKC-mediated phosphorylation increased core affinity, as well as assembly and capsid stability. In vitro phosphorylation with core mutants (S26A, T70A, S106A and T114A) revealed that the Ser 106 mutation inhibited phosphorylation of core by PKC. CD analysis also revealed that PKC-mediated phosphorylation stabilized the secondary structure of capsid. When either pCMV/FLAG-Cp149[WT (wild-type)] or pCMV/FLAG-S106A Cp149 was transfected into Huh7 human hepatoma cells, mutant capsid level was decreased by 2.06-fold with the S106A mutant when compared with WT, although the same level of total protein was expressed in both cases. In addition, when pUC1.2x and pUC1.2x/S106A were transfected, mutant virus titre was decreased 2.31-fold compared with WT virus titre.

Journal of Crystal Growth, 2006

We study the magnetic and electronic properties of V-and Mn-doped hexagonal ZnO and cubic GaN by ... more We study the magnetic and electronic properties of V-and Mn-doped hexagonal ZnO and cubic GaN by using the full-potential linear muffin-tin orbital method. The calculations are made at several concentrations from about 4% to 12% of dopant atoms in the 48 and 64 atoms supercell for ZnO and GaN, respectively. For Zn 1Àx M x O (M ¼ V and Mn) at x ¼ 0:083 (pair impurities), the energetically favorable magnetism is the antiferromagnetic states. For V-doped ZnO with the defect, the results show that it is strongly correlated between the energy states by the defect of Zn or O site and those by V impurity in ZnO. r 2005 Published by Elsevier B.V.