Structural environment dictates the biological significance of heme-responsive motifs and the role of Hsp90 in the activation of the heme activator protein Hap1

Heme-responsive motifs (HRMs) mediate heme regulation of diverse regulatory proteins. The heme activator protein Hap1 contains seven HRMs, but only one of them, HRM7, is essential for heme activation of Hap1. To better understand the molecular basis underlying the biological significance of HRMs, we examined the effects of various mutations of HRM7 on Hap1. We found that diverse mutations of HRM7 significantly diminished the extent of Hap1 activation by heme and moderately enhanced the interaction of Hap1 with Hsp90. Furthermore, deletions of nonregulatory sequences completely abolished heme activation of Hap1 and greatly enhanced the interaction of Hap1 with Hsp90. These results show that the biological functions of HRMs and Hsp90 are highly sensitive to structural changes. The unique role of HRM7 in heme activation stems from its specific structural environment, not its mere presence. Likewise, the role of Hsp90 in Hap1 activation is dictated by the conformational or structural state of Hap1, not by the mere strength of Hap1-Hsp90 interaction. It appears likely that HRM7 and Hsp90 act together to promote the Hap1 conformational changes that are necessary for Hap1 activation. Such fundamental mechanisms of HRM-Hsp90 cooperation may operate in diverse regulatory systems to mediate signal transduction.     

Identification of immunodominant Th1-type T cell epitopes from Schistosoma japonicum 28 kDa glutathione-S-transferase, a vaccine candidate

Th1-type cytokines produced by the stimulation of Th 1-type epitopes derived from defined schistosome-associated antigens are correlated with the development of resistance to the parasite infection. Schistosoma mansoni 28 kDa glutathione-S-transferase （Sm28GST）, a major detoxification enzyme, has been recognized as a vaccine candidate and a phase II clinical trial has been carried out. Sheep immunized with recombinant Schistosoma japonicum 28GST （Sj28GST） have shown immune protection against the parasite infection. In the present study, six candidate peptides （P1, P2, P3, P4, P7 and P8） from Sj28GST were predicted, using software, to be T cell epitopes, and peptides P5 and P6 were designed by extending five amino acids at the N-terminal and C-terminal of P1, respectively. The peptide 190-211 aa in Sj28GST corresponding to the Th1-type epitope （190-211 aa） identified from Sm28GST was selected and named P9. The nine candidate peptides were synthesized or produced as the fusion protein with thioredoxin in the pET32c（＋）/BL21（DE3） system. Their capacity to induce a Th1-type response in vitro was measured using lymphocyte proliferation, cytokine detection experiments and flow cytometry. The results showed that P6 （73-86 aa） generated the strongest stimulation effect on T cells among the nine candidate peptides, and drove the highest level of IFN-γ, and IL-2. Therefore, P6 is a functional Thl-type T cell epitope that is different from that in Sm28GST, and will be useful for the development of effective vaccines which can trigger acquired immunity against S. japonicum. Moreover, our strategy of identifying the Thl-type epitope by a combination of software prediction and experimental confirmation provides a convenient and cost-saving alternative approach to previous methods.     

LGT蛋白质组阳性肿瘤患者免疫功能的观察报告——LGT系列论文之八

目的：了解LGT（lost goodwill target）蛋白质组阳性表达患者CD3^＋、CD4^＋、CD8^＋、CD4^＋/CD8^＋、T细胞和NK细胞的变化规律.方法：对30例LGT蛋白质组阳性表达的肿瘤患者分别采用美国BD公司生产的流式细胞检测仪及提供的相应单克隆抗体检测患者空腹血清CD3^＋、CD4^＋、CD8^＋、CD4^＋/CD8^＋、T细胞和NK细胞并用美国赛费吉（Ciphergen）公司制造的蛋白质指纹仪及该公司提供的弱阳离子交换芯片（WCX2）按其操作方法（SELDI检测技术）配对检测肿瘤患者空腹血清中的蛋白质指纹,对有病情加重的患者均检查两次以上.以指纹图上质荷比（M/Z）为11100＋H～11900＋H之间出现一峰簇样（cluster）的指纹标志为LGT阳性诊断标准,并按蛋白质指纹LGT检测阳性次数分成二组.对二组内CD3^＋、CD4^＋、CD8^＋、CD4^＋/CD8^＋、T细胞和NK细胞与正常参考值之间进行统计学显著性检验.结果：CD3^＋T细胞值在LGT蛋白质组持续阳性表达组是增高的,在另一组是无变化,二者之间有显著性差异,而CD8^＋T细胞在二组内同时增高,CD4^＋T细胞和NK细胞二组同时低下,无显著性差别.结论：本研究提示肿瘤晚期可能存在有酪氨酸蛋白激酶修饰的细胞内信号传导,使之病情加重,而肿瘤早期则不明显.这是一种新的看法,应加强这个方面的研究.     

Purification and characterization of mouse hepatic enzyme that converts selenomethionine to methylselenol by its α,γ-elimination

The objective of this study was to purify and characterize a mouse hepatic enzyme that directly generates CH₃SeH from seleno-l-methionine (l-SeMet) by the α,γ-elimination reaction. The l-SeMet α,γ-elimination enzyme was ubiquitous in tissues from ICR mice and the activity was relatively high in the large intestine, brain, and muscle, as well as the liver. Aging and sex of the mice did not have any significant influence on the activity in the liver. The enzyme was purified from the mouse liver by ammonium sulfate precipitation and four kinds of column chromatography. These procedures yielded a homogeneous enzyme, which was purified approx 1000-fold relative to mouse liver extract. Overall recovery was approx 8%. The purified enzyme had a molecular mass of approx 160 kDa with four identical subunits. The K _m value of the enzyme for the catalysis of l-SeMet was 15.5 m M, and the V _max was 0.29 units/mg protein. Pyridoxal 5′-phosphate (pyridoxal-P) was required as a cofactor because the holoenzyme could be resolved to the apoenzyme by incubation with hydroxylamine and reconstituted by addition of pyridoxal-P. The enzyme showed the optimum activity at around pH 8.0 and the highest activity at 50°C; it catalyzed the α,γ-elimination reactions of several analogs such as d,l-homocysteine and l-homoserine in addition to l-SeMet. This enzyme also catalyzed the α,β-elimination reaction of Se-methylseleno-l-cysteine. However, l-methionine was inerts. Therefore, the purified enzyme was different from the bacterial l-methionine γ-lyase that metabolizes l-SeMet to CH₃SeH, in terms of the substrate specificity. These results were the first identification of a mammalian enzyme that specifically catalyzes the α,γ-elimination reaction of l-SeMet and immediately converts it to CH₃SeH, an important metabolite of Se.     

Tunable DNA release from cross-linked ultrathin DNA/PLL multilayered films

A novel ultrathin enzymatically degradable multilayered film using DNA as building blocks was fabricated by the layer-by-layer (LbL) technique. The UV-vis spectrometry and AFM experiments showed that the buildup of DNA and poly-L-lysine (PLL) was a kind of "exponentially growing films". The dye adsorption experiment suggested that the DNA molecules in the multilayered films were effectively protected by PLL. The films were further cross-linked by glutaraldehyde (GA). The cross-linking density of the films was modulated through the simple controlling of the time of the GA incubation process. An in vitro enzymatic degradation was carried out to investigate the DNA release profiles. The UV-vis spectrometry and fluorescence measurements indicated that the DNA release profiles were accordingly changed with the cross-linking density of the films. The nanoscale, easily processed enzymatically biodegradable PLL/DNA film with the ability to precisely control DNA release profiles may serve as a novel DNA delivery system, which may have great potential for gene therapy applications in implantable materials and biomedical devices.     

Asparagales Telomerases which Synthesize the Human Type of Telomeres

The order of monocotyledonous plants Asparagales is attractive for studies of telomere evolution as it includes three phylogenetically distinct groups with telomeres composed of TTTAGGG (Arabidopsis-type), TTAGGG (human-type) and unknown alternative sequences, respectively. To analyze the molecular causes of these switches in telomere sequence (synthesis), genes coding for the catalytic telomerase subunit (TERT) of representative species in the first two groups have been cloned. Multiple alignments of the sequences, together with other TERT sequences in databases, suggested candidate amino acid substitutions grouped in the Asparagales TERT synthesizing the human-type repeat that could have contributed to the changed telomere sequence. Among these, mutations in the C motif are of special interest due to its functional importance in TERT. Furthermore, two different modes of initial elongation of the substrate primer were observed in Asparagales telomerases producing human-like repeats, which could be attributed to interactions between the telomerase RNA subunit (TR) and the substrate. Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

Ruthenium(II) mixed-ligand complexes containing 2-(6-methyl-3-chromonyl)imidazo[4,5-f][1,10]-phenanthroline: Synthesis, DNA-binding and photocleavage studies

Two novel Ru(II) complexes [Ru(bpy)₂(MCMIP)]²⁺ (1) and [Ru(phen)₂(MCMIP)]²⁺ (2) (bpy = 2,2′-bipyridine; phen = 1,10-phenanthroline; MCMIP = 2-(6-methyl-3-chromonyl)imidazo[4,5-f][1,10]-phenanthroline) have been synthesized and characterized by elemental analysis, mass spectra and ¹H NMR. The DNA-binding properties of the complexes were investigated by absorption, emission, melting temperature and viscosity measurements. Experimental results indicate that the two complexes can intercalate into DNA base pairs. Upon irradiation at 365 nm, two Ru(II) complexes were found to promote the cleavage of plasmid pBR 322 DNA from supercoiled form I to nicked form II, and the mechanisms for DNA cleavage by the complexes were also investigated.     

Sex differences in morphine-induced analgesia of visceral pain are supraspinally and peripherally mediated

Increasing evidence suggests there is a sex difference in opioid analgesia of pain arising from somatic tissue. However, the existence of a sex difference in visceral pain and opioid analgesia is unclear. This was examined in the colorectal distention (CRD) model of visceral pain in the current study. The visceromotor response (vmr) to noxious CRD was recorded in gonadally intact male and female rats. Subcutaneous injection of morphine dose-dependently decreased the vmr in both groups without affecting colonic compliance. However, morphine was significantly more potent in male rats than females. Because systemic morphine can act at peripheral tissue and in the central nervous system (CNS), the source of the sex difference in morphine analgesia was determined. The peripherally restricted mu-opioid receptor (MOR) antagonist naloxone methiodide dose-dependently attenuated the effects of systemic morphine. Systemic administration of the peripherally restricted MOR agonist loperamide confirmed peripherally mediated morphine analgesia and revealed greater potency in males compared with females. Spinal administration of morphine dose-dependently attenuated the vmr, but there was no sex difference. Intracerebroventricular administration of morphine also dose-dependently attenuated the vmr with significantly greater potency in male rats. The present study documents a sex difference in morphine analgesia of visceral pain that is both peripherally and supraspinally mediated.