Uncoupling protein 3 adjusts mitochondrial Ca(2+) uptake to high and low Ca(2+) signals

Uncoupling proteins 2 and 3 (UCP2/3) are essential for mitochondrial Ca(2+) uptake but both proteins exhibit distinct activities in regard to the source and mode of Ca(2+) mobilization. In the present work, structural determinants of their contribution to mitochondrial Ca(2+) uptake were explored. Previous findings indicate the importance of the intermembrane loop 2 (IML2) for the contribution of UCP2/3. Thus, the IML2 of UCP2/3 was substituted by that of UCP1. These chimeras had no activity in mitochondrial uptake of intracellularly released Ca(2+), while they mimicked the wild-type proteins by potentiating mitochondrial sequestration of entering Ca(2+). Alignment of the IML2 sequences revealed that UCP1, UCP2 and UCP3 share a basic amino acid in positions 163, 164 and 167, while only UCP2 and UCP3 contain a second basic residue in positions 168 and 171, respectively. Accordingly, mutants of UCP3 in positions 167 and 171/172 were made. In permeabilized cells, these mutants exhibited distinct Ca(2+) sensitivities in regard to mitochondrial Ca(2+) sequestration. In intact cells, these mutants established different activities in mitochondrial uptake of either intracellularly released (UCP3(R171,E172)) or entering (UCP3(R167)) Ca(2+). Our data demonstrate that distinct sites in the IML2 of UCP3 effect mitochondrial uptake of high and low Ca(2+) signals.     

SFTSV infection in rodents and their ectoparasitic chiggers

SFTSV, a tick-borne bunyavirus causing a severe hemorrhagic fever termed as severe fever with thrombocytopenia syndrome (SFTS). To evaluate the potential role of rodents and its ectoparasitic chiggers in the transmission of SFTSV, we collected wild rodents and chiggers on their bodies from a rural area in Qingdao City, Shandong Province, China in September 2020. PCR amplification of the M and L segments of SFTSV showed that 32.3% (10/31) of rodents and 0.2% (1/564) of chiggers (Leptotrombidium deliense) from the rodents were positive to SFTSV. Our results suggested that rodents and chiggers may play an important role in the transmission of SFTSV, although the efficiency of chiggers to transmit SFTSV needs to be further investigated experimentally.     

Pulmonary edema following central nervous system lesions induced by a non- mouse-adapted EV71 strain in neonatal BALB/c mice

Background

Enterovirus (EV) infection has been a serious health issue in Asia-Pacific region. It has been indicated that the occurrence of fatal hand foot and mouth disease (HFMD) cases following EV71 infection is mainly attributed to pulmonary edema. However, the development of pulmonary disorders after EV71 infection remains largely unknown. To establish an EV71-infected animal model and further explore the underlying association of central nervous system (CNS) invasion with pulmonary edema, we isolated a clinical source EV71 strain (ZZ1350) from a severe case in Henan Province.

Methods

We evaluated the cytotoxicity of ZZ1350 strain and the susceptibility in 3-day-old BALB/c mice with intraperitoneal, intracerebral and intramuscular inoculation. Various histopathological and immunohistochemical techniques were applied to determine the target organs or tissue damage after infection. Correlation analysis was used to identify the relationship between CNS injury and pulmonary disorders.

Results

Our experimental results suggested that ZZ1350 (C4 subtype) had high cytotoxicity against African green monkey kidney (Vero) cells and human rhabdomyosarcoma (RD) cells and neonatal BALB/c mice were highly susceptible to the infection with ZZ1350 through three different inoculation routes (2?×?10⁶ pfu/mouse) exhibiting severe neurological and respiratory symptoms that were similar to clinical observation. Viral replication was found in brain, spinal cord, skeletal muscle, lung, spleen, liver, heart of infected mice and these sections also showed histopathological changes. We found that brain histology score was positive correlated with lung histology score in total experimental mice and mice under the three inoculation routes (P?<?0.05). At the same time, there were positive correlations between spinal cord score and lung score in total experimental mice and mice with intracerebral inoculation (P?<?0.05).

Conclusions

ZZ1350 strain is effective to establish animal model of EV71 infection with severe neurological and respiratory symptoms. The development of pulmonary disorders after EV71 infection is associated with severity of CNS damage.

     

Single Domain Antibody Multimers Confer Protection against Rabies Infection

Post-exposure prophylactic (PEP) neutralizing antibodies against Rabies are the most effective way to prevent infection-related fatality. The outer envelope glycoprotein of the Rabies virus (RABV) is the most significant surface antigen for generating virus-neutralizing antibodies. The small size and uncompromised functional specificity of single domain antibodies (sdAbs) can be exploited in the fields of experimental therapeutic applications for infectious diseases through formatting flexibilities to increase their avidity towards target antigens. In this study, we used phage display technique to select and identify sdAbs that were specific for the RABV glycoprotein from a naïve llama-derived antibody library. To increase their neutralizing potencies, the sdAbs were fused with a coiled-coil peptide derived from the human cartilage oligomeric matrix protein (COMP48) to form homogenous pentavalent multimers, known as combodies. Compared to monovalent sdAbs, the combodies, namely 26424 and 26434, exhibited high avidity and were able to neutralize 85-fold higher input of RABV (CVS-11 strain) pseudotypes in vitro, as a result of multimerization, while retaining their specificities for target antigen. 26424 and 26434 were capable of neutralizing CVS-11 pseudotypes in vitro by 90–95% as compared to human rabies immunoglobulin (HRIG), currently used for PEP in Rabies. The multimeric sdAbs were also demonstrated to be partially protective for mice that were infected with lethal doses of rabies virus in vivo. The results demonstrate that the combodies could be valuable tools in understanding viral mechanisms, diagnosis and possible anti-viral candidate for RABV infection.     

Simultaneous quantification of tiloronoxim and tilorone in human urine by liquid chromatography-tandem mass spectrometry

A simple, sensitive and specific HPLC method with tandem mass spectrometry (HPLC/MS/MS) detection has been developed and validated for the simultaneous quantification of tiloronoxim and its major active metabolite, tilorone, in human urine. The analytes, together with metoprolol, which was employed as an internal standard (IS), were extracted with a mixture solvent of chloroform/ethyl ether (1/2, v/v). The chromatographic separation was performed on a narrow-bore reversed phase HPLC column with a gradient mobile phase of methanol/water containing 15 mM ammonium bicarbonate (pH 10.5). The API 3,000 mass spectrometer was equipped with a TurboIonSpray interface and was operated on positive-ion, multiple reaction-monitoring (MRM) mode. The mass transitions monitored were m/z 426.3-->100.0, m/z 411.3-->100.0 and m/z 268.3-->116.1 for tiloronoxim, tilorone and the IS, respectively. The assay exhibited a linear dynamic range of 1-100 ng/ml for both tiloronoxim and tilorone based on the analysis of 0.2 ml aliquots of urine. The lower limit of quantification was 1 ng/ml for both compounds. Acceptable precision and accuracies were obtained for concentrations over the standard curve ranges. Run time of 8 min for each injection made it possible to analyze a high throughput of urine samples. The assay has been successfully used to analyze human urine samples from healthy volunteers.     

RT-PCR heteroduplex analysis permits differentiation of transgene and host gene expression in a transgenic animal model

In transgenic animal models, the conservation of DNA sequences between the transgene and the host wild-type gene can complicate the evaluation of the expression of each gene. The potential for gene silencing may complicate matters further. Here we report the use of RT-PCR heteroduplex analysis to differentiate the expression of a transgene and its homologous wild-type, even when these genes are very similar in their respective DNA sequences. We designed RT-PCR primers to amplify identically sized 243-bp fragments within the DNA binding domain of the p53 gene from both human and mouse mRNA samples. Ten samples from human p53 (273H) transgenic mice and 10 samples from wild-type controls were tested. Heteroduplex bands were formed in all transgenic samples but were absent from all wild-type samples. In addition, RT-PCR heteroduplex analysis was able in one sample to differentiate a silenced transgene from its wild-type allele, without the assistance of sequencing or labeling. In summary, the RT-PCR heteroduplex analysis is easy to use and has the ability to screen a large number of samples in a short time. The RT-PCR heteroduplex analysis is especially useful for the detection of expression when a transgene and the host homologous endogenous allele are too conserved in sequence to design species-specific RT-PCR primers.     

香荚兰种子的无菌萌发试验

香荚兰(Vanilla planifolia)是兰科、香荚兰属植物,主产于湿热地区。香荚兰的果实是国际上重要的食用香料的原料。大约在1960年,我国引入香荚兰试栽。生产上,通常用扦插法繁殖;但如用种子繁殖,虽然结实较晚(约7至8年开始结实,较扦插苗晚4—5年),但结实期长,盛产期可维持约15年。而且,在杂交育种过程中,一定要用种子繁殖。     

Expression of modified xynA gene fragments from Bacillus subtilis BE-91

Expression of modified xynA gene fragments in Escherichia coli BL21 was studied, using the complete xynA gene from Bacillus subtilis BE-91 as the positive control. The technical workflow consisted of the following steps: (1) predicting protein structures relative to the xynA gene; (2) designing primers for modifiers; (3) amplifying the modifiers; (4) integrating the modifiers with the pET-28a(+) vector; (5) transferring the recombinant plasmids into E. coli BL21; (6) evaluating and analyzing the expression of modified cells. The results were: (1) the xynA gene from BE-91 with the untranslated region deleted on both ends was able to promote XynA activity by 28.9 %; (2) deletion of the 1- to 16-amino acid (AA) coding sequence in the open reading frame on the 5′-end, deletion of the 209- to 213-AA fragment on the 3′-end and deletion of the 20 AA on both ends could promote XynA activity by 27.2, 27.7 and 24.0 %,respectively; (3) deletion of the 1- to 29-AA fragment on the 5′-end and deletion of the 197- to 213-AA fragment on the 3′-end could reduce XynA activity dramatically by 95.6 and 74.8 %, respectively; (4) inactivation factors of XynA would be either the first β-fold and the hydrophilic structure domain or the last two α-screws and the seventeenth turn region. The results mean that any deletion in the catalytic domain would lead to a decline or inactivation in XynA activity while the deletion of any sequence outside the catalytic domain could effectively promote XynA activity, as such sequences are unnecessary for XynA function.     

Potent inhibition of human immunodeficiency virus type 1 in primary T cells and alveolar macrophages by a combination anti-Rev strategy delivered in an adeno-associated virus vector.

The rate of viral replication appears to play a pivotal role in human immunodeficiency virus type 1 (HIV-1) pathogenesis and disease progression as it outstrips the capacity of the immune system to respond. Important cellular sites for HIV-1 production include T lymphocytes and tissue macrophages. Antiviral strategies, including newer treatment modalities such as gene therapy of HIV-1-susceptible cell populations, must be capable of engendering durable inhibitory effects to HIV-1 replication in both of these primary cell types in order to be effective. Among the potential genetic targets for intervention in the HIV-1 life cycle, the Rev regulatory system, consisting of Rev and its binding site, the Rev-responsive element (RRE), stands out as particularly attractive. Rev is essential for maintaining the stability of the viral genomic RNA as well as viral mRNAs encoding key structural and regulatory proteins. Moreover, it exhibits favorable threshold kinetics, in that Rev concentrations must rise above a critical level to exert their effect. To disable Rev function, primary T cells or macrophages were transduced with anti-Rev single-chain immunoglobulin (SFv) or RRE decoy genes either singly or in combination by employing adeno-associated virus vectors and then challenged with HIV-1. By directing both a protein and a nucleic acid against the normal interaction between Rev and the RRE, this genetic antiviral strategy effectively inhibited infection by either clinical or laboratory virus isolates. These results provide a framework for novel interventions to reduce virus production in the infected host.