Jae-Hoon Jeong

Promyelocytic Leukemia Activates Chk2 by Mediating Chk2 Autophosphorylation

Chk2 is a kinase critical for DNA damage-induced apoptosis and is considered a tumor suppressor. Chk2 is essential for p53 transcriptional and apoptotic activities. Although mutations of p53 are present in more than half of all tumors, mutations of Chk2 in cancers are rare, suggesting that Chk2 may be inactivated by unknown alternative mechanisms. Here we elucidate one such alternative mechanism regulated by PML (promyelocytic leukemia) that is involved in acute promyelocytic leukemia (APL). Although p53-inactivating mutations are extremely rare in APL, t(15;17) chromosomal translocation which fuses retinoic acid receptor (RARα) to PML is almost always present in APL, while the other PML allele is intact. We demonstrate that PML interacts with Chk2 and activates Chk2 by mediating its autophosphorylation step, an essential step for Chk2 activity that occurs after phosphorylation by the upstream kinase ATM (ataxia telangiectasia-mutated). PML/RARα in APL suppresses Chk2 by dominantly inhibiting the auto-phosphorylation step, but inactivation of PML/RARα with alltrans retinoic acid (ATRA) restores Chk2 autophosphorylation and activity. Thus, by fusing PML with RARα, the APL cells appear to have achieved functional suppression of Chk2 compromising the Chk2-p53 apoptotic pathway.

ATR, PML, and CHK2 Play a Role in Arsenic Trioxide-induced Apoptosis

Arsenic trioxide (ATO) is a potent anti-leukemic chemotherapeutic agent for acute promyelocytic leukemia (APL) that results from a t (15, 17) chromosomal translocation that produces PML-RARα, a fusion protein between a tumor suppressor PML and the retinoic acid receptor RARα. APL patients are initially treated with retinoic acid, but most develop resistance and relapse. In contrast, ATO induces prolonged remissions even in the relapsed cases. However, the molecular mechanisms by which ATO kills the leukemic cells are not fully understood. We find that ATO induces apoptosis, at least in part, by activating proapoptotic kinase Chk2. ATO does this by stimulating ATR (ataxia telangiectasia mutated and Rad3-related) kinase, a Chk2-activating kinase. In conjunction, ATO degrades PML-RARα, resulting in the restoration of PML, which is required for autophosphorylation and full activation of Chk2. As a result, the p53-dependent apoptosis pathway is activated. Based on this, we propose that a pathway composed of ATR, PML, Chk2, and p53 plays a role in ATO-mediated apoptosis, a notion that is consistent with the observation that Chk2 is genetically intact and mutations in the p53 gene are extremely rare in APL.

The terminal protein of a linear mitochondrial plasmid is encoded in the N-terminus of the DNA polymerase gene in white-rot fungus Pleurotus ostreatus

Abstract The gene structure and expression of the linear mitochondrial plasmids of the white-rot fungus Pleurotus ostreatus, pMLP1 and pMLP2, were analyzed. Cleavage by proteinase K and exonucleases indicated that the 5′ ends of pMLP1 and pMLP2 DNAs were associated with terminal proteins. Nucleotide sequencing of the entire pMLP1 DNA revealed that it consists of 9,879u2009bp with terminal inverted repeat (TIR) sequences of 381u2009bp. The end sequence of TIR in pMLP1 is 3′-CCCCC-5′, similar to those of Escherichia coli phage PRD1. The pMLP1 plasmid harbors two long open reading frames (ORF1 and ORF2) and at least one minor ORF (mORF1). The deduced product of ORF1 is homologous to RNA polymerases of yeast mitochondria and several bacteriophages, whereas that of ORF2 is homologous to the protein-primed DNA polymerases of family B type. The mORF1 encodes a highly basic protein, most likely a TIR-binding protein, with no apparent sequence homology in the database. Expression of the predicted gene products from pMLP1 in mitochondria was demonstrated by Western blot analysis using antibodies against various expressed regions of pMLP1 ORFs. A plasmid-free strain, generated by curing with ethidium bromide, did not express any of these gene products. Terminal proteins of 70u2009kDa (TP1) and 73u2009kDa (TP2) were identified from pMLP1 and pMLP2, respectively. Western blot analysis indicated that TP1 was generated from the N-terminal half of the full-length product of ORF2 encoding a putative DNA polymerase.

Inactivation of Homocitrate Synthase Causes Lysine Auxotrophy in Copper/Zinc-containing Superoxide Dismutase-deficient Yeast Schizosaccharomyces pombe

The fission yeast Schizosaccharomyces pombe lacking copper/zinc-containing superoxide dismutase (CuZn-SOD) is auxotrophic for lysine and sulfurous amino acids under aerobic growth conditions. A multicopy suppressor gene (phx1+) that restored the growth of CuZn-SOD-deficient cells on minimal medium was isolated. It encodes a putative DNA-binding protein with a conserved homeobox domain. Overproduction of Phx1 increased the amount of several proteins, and one of those turned out to be a putative homocitrate synthase (HCS) encoded by the lys4+ gene in S. pombe as judged by mass spectrometric analysis. Consistent with this observation, overexpression of the lys4+ gene increased HCS enzyme activity and was sufficient to suppress the lysine requirement of the CuZn-SOD-deficient cells. Enzyme activity and Western blot analyses revealed that the activity and protein level of HCS were dramatically reduced upon depletion of CuZn-SOD. Treatment of exponentially growing S. pombe cells with paraquat, a superoxide generator, caused a decrease in the amount of Lys4 protein as expected. These results led us to conclude that HCS, the first enzyme in the α-aminoadipate-mediated pathway for lysine synthesis common in fungi and some bacteria, is a labile target of oxidative stress caused by CuZn-SOD depletion and that its synthesis is positively regulated by the putative transcriptional regulator Phx1.

Dynamic Nucleotide-dependent Interactions of Cysteine- and Histidine-rich Domain (CHORD)-containing Hsp90 Cochaperones Chp-1 and Melusin with Cochaperones PP5 and Sgt1

Background: Hsp90 cochaperones are regulating interactors of Hsp90, but interactions between themselves are not well known. Results: CHORD-containing Hsp90 cochaperones interact with cochaperones PP5 and Sgt1 in the presence of ATP. Conclusion: Conformational changes induced by ATP binding play an important role in the regulation of interactions between cochaperones. Significance: Interactions between cochaperones might have Hsp90-independent roles that are regulated by cellular ATP concentration. Mammals have two cysteine- and histidine-rich domain (CHORD)-containing Hsp90 cochaperones, Chp-1 and melusin, which are homologs of plant Rar1. It has been shown previously that Rar1 CHORD directly interacts with ADP bound to the nucleotide pocket of Hsp90. Here, we report that ADP and ATP can bind to Hsp90 cochaperones Chp-1 and PP5, inducing their conformational changes. Furthermore, we demonstrate that Chp-1 and melusin can interact with cochaperones PP5 and Sgt1 and with each other in an ATP-dependent manner. Based on the known structure of the Rar1-Hsp90 complex, His-186 has been identified as an important residue of Chp-1 for ADP/ATP binding. His-186 is necessary for the nucleotide-dependent interaction of Chp-1 not only with Hsp90 but also with Sgt1. In addition, Ca2+, which is known to bind to melusin, enhances the interactions of melusin with Hsp90 and Sgt1. Furthermore, melusin acquires the ADP preference for Hsp90 binding in the presence of Ca2+. Our newly discovered nucleotide-dependent interactions between cochaperones might provide additional complexity to the dynamics of the Hsp90 chaperone system, also suggesting potential Hsp90-independent roles for these cochaperones.

A novel controller for switching audio power amplifier with digital input

A new controller, using bi-directional saw-tooth error correction (BSEC) for switching audio power amplifiers with digital PWM input is proposed. This control method is based on a pulsed edge correction approach using PWM audio signal input as a reference for power switching digital to analog converter. The proposed controller has excellent features such as wide error correction range and no limitation on the modulation index. The controller is implemented in the half-bridge class D amplifier and the performance is verified through hardware experiments. It delivers 100W into 4/spl Omega/ load with less than 0.2% of total harmonic distortion (THD) all over operating range with the maximum efficiency of 82%.

Co-expression of bfl-1 enhances host response in the herpes simplex virus-thymidine kinase/ganciclovir gene therapy system

Anticancer suicide gene therapy using herpes simplex virus-thymidine kinase (HSV-tk) and ganciclovir (GCV) features the unique advantage of being able to elicit brisk host immune response against tumors and the host response reportedly can be potentiated with the co-expression of other appropriate immune- or apoptosis-related genes. We introduced a novel antiapoptotic gene, bfl-1, to test its applicability in the HSV-tk/GCV system. CT-26 murine colon cancer cells transfected with HSV-tk, alone or in combination with bcl-xL or bfl-1, were either grown in vitro or injected into syngeneic mice, followed by GCV administration. The co-expression of bfl-1 was associated with the upregulation of CD95 and CD40 ligand (CD40L) in vitro and with pronounced intratumoral T-lymphocyte infiltration in vivo. These results add to the previous findings that antiapoptotic genes can be used as an adjunctive component in the HSV-tk/GCV system to enhance host immune response against tumors.

Design of digital rebalance loop for a dynamically tuned gyroscope using LQG/LTR method

This paper presents the results of a study on the design of a digital rebalance loop for a dynamically tuned gyroscope (DTG). The dynamic model for a DTG is explained briefly. A digital rebalance loop is designed using an LQG/LTR (linear quadratic Gaussian/loop transfer recovery) methodology. It is important that the output of a rebalance loop should follow exactly the angular rate given externally, as well as the the angles of a DTG should be kept small during the transient state. The performance of the digital LQG/LTR rebalance loop is compared with that of a conventional PID rebalance loop through frequency response, simulation, and experiment. The simulation and experimental results show that the performance of the LQG/LTR rebalance loop is better in that the output of the rebalance loop follows external angular rate more quickly, as well as keeping the angle smaller, compared with the conventional PID rebalance loop. The frequency response also shows that the bandwidth of the proposed rebalance loop is wider than that of the PID loop, which also contributes to the performance improvement.