Your search keyword '"mouse leukemia viruses"' showing total 1,556 results

101. Culturing Chinese hamster ovary cells on cyclo olefin polymer triggers epithelial‐mesenchymal transition and spheroid formation, which increases the foreign gene expression driven by the Moloney murine leukemia virus long terminal repeat promoter.

Author

Hirano, Takaaki, Adachi, Satoru, Ichimura, Naoya, Kasai, Akira, Kobayashi, Masashi, Okuda, Takashi, Ogawa, Ryohei, and Kagiya, Go

Subjects

CHO cell, MOUSE leukemia viruses, EPITHELIAL-mesenchymal transition, GENE expression, POLYMERS

Abstract

Chinese hamster ovary (CHO) cells are frequently used for recombinant protein production (RPP) as a host. While the RPP has been proven successful, there is still a compelling need for further improvement. Cyclo olefin polymer (COP) is a plastic material widely utilized due to its properties including its low protein absorption. We applied this as a raw material for RPP cell culture to see if the COP is suitable. A recombinant CHO cell line expressing the human erythropoietin (hEPO) gene under the control of the Moloney murine leukemia virus‐long terminal repeat (MMLV‐LTR) was established. When the cells were cultured in a dish made from COP, the cells attached to the bottom, and then started to float and form spheroids. RNASeq data analysis suggested the epithelial‐mesenchymal transition (EMT) was triggered with receptor tyrosine kinase activation shortly after cultivation. It coincided with the hEPO transcription increase. After the cell floating, though EMT marker gene expression subsided, a hEPO expression increase sustained. When fibronectin was applied to COP dish surface, the cell floating was suppressed and hEPO expression decreased. We then treated cells with MβCD, a drug that destroys the lipid raft, eliminating molecules in the raft. This facilitated cell floating and spheroid formation coincided with hEPO expression enhancement. These results suggest interactions between a cell and COP surface might trigger the EMT and the subsequent event, both of which activated the MMLV‐LTR promoter. Thus, employing COP for culturing cells, a potent RPP system could be established with its advantage for efficient protein purification. [ABSTRACT FROM AUTHOR]

Published

2021

102. A review on structure-function mechanism and signaling pathway of serine/threonine protein PIM kinases as a therapeutic target.

Author

Rout, Ajaya Kumar, Dehury, Budheswar, Parida, Satya Narayan, Rout, Sushree Swati, Jena, Rajkumar, Kaushik, Neha, Kaushik, Nagendra Kumar, Pradhan, Sukanta Kumar, Sahoo, Chita Ranjan, Singh, Ashok Kumar, Arya, Meenakshi, and Behera, Bijay Kumar

Subjects

*SERINE/THREONINE kinases, *PROTEIN kinases, *MOUSE leukemia viruses, *CELLULAR signal transduction, *DRUG discovery, *MACHINE learning, *SERINE, *BREAST

Abstract

The proviral integration for the Moloney murine leukemia virus (PIM) kinases, belonging to serine/threonine kinase family, have been found to be overexpressed in various types of cancers, such as prostate, breast, colon, endometrial, gastric, and pancreatic cancer. The three isoforms PIM kinases i.e., PIM1, PIM2, and PIM3 share a high degree of sequence and structural similarity and phosphorylate substrates controlling tumorigenic phenotypes like proliferation and cell survival. Targeting short-lived PIM kinases presents an intriguing strategy as in vivo knock-down studies result in non-lethal phenotypes, indicating that clinical inhibition of PIM might have fewer adverse effects. The ATP binding site (hinge region) possesses distinctive attributes, which led to the development of novel small molecule scaffolds that target either one or all three PIM isoforms. Machine learning and structure-based approaches have been at the forefront of developing novel and effective chemical therapeutics against PIM in preclinical and clinical settings, and none have yet received approval for cancer treatment. The stability of PIM isoforms is maintained by PIM kinase activity, which leads to resistance against PIM inhibitors and chemotherapy; thus, to overcome such effects, PIM proteolysis targeting chimeras (PROTACs) are now being developed that specifically degrade PIM proteins. In this review, we recapitulate an overview of the oncogenic functions of PIM kinases, their structure, function, and crucial signaling network in different types of cancer, and the potential of pharmacological small-molecule inhibitors. Further, our comprehensive review also provides valuable insights for developing novel antitumor drugs that specifically target PIM kinases in the future. In conclusion, we provide insights into the benefits of degrading PIM kinases as opposed to blocking their catalytic activity to address the oncogenic potential of PIM kinases. • PIM kinases, members of serine/threonine kinase family are overexpressed in different types of cancers. • Tumorigenic phenotypes like proliferation and survival are controlled by phosphorylation of substrates. • The three isoforms of PIM kinases exhibit significant sequence and structural similarity. • Structure-based approaches combined with AI can scale up PIM kinase oncological drug discovery. • PROTACs offer promising weapon to tackle drug resistance in PIM Kinases by facilitating degradation of the target. [ABSTRACT FROM AUTHOR]

Published

2024

103. pH inactivation of SARS-CoV-2 and SARS-CoV in virus spiked protein A eluates from a mAb purification process.

Author

Limburg, Hannah, Schwerdtner, Marie, Wilson, Eileen, Roth, Bernhard, Cassart, Jean-Pol, Werner, Anke-Dorothee, Harbig, Anne, Böttcher-Friebertshäuser, Eva, and Stokes, Anne

Subjects

*SARS-CoV-2, *CORONAVIRUSES, *VIRAL proteins, *MOUSE leukemia viruses, *VIRUS inactivation, *MANUFACTURING processes, *ANTIBODY formation

Abstract

Biopharmaceutical manufacturing processes may include a low pH treatment step as a means of inactivating enveloped viruses. Small scale virus clearance studies are routinely performed using model enveloped viruses such as murine leukemia virus to assess inactivation at the pH range used in the downstream manufacturing process. Further, as a means of bioburden reduction, chromatography resins may be cleaned and stored using sodium hydroxide and this can also inactivate viruses. The susceptibility of SARS-CoV-2 and SARS-CoV to low pH conditions using protein A eluate derived material from a monoclonal antibody production process as well as high pH cleaning conditions was addressed. SARS-CoV-2 was effectively inactivated at pH 3.0, moderately inactivated at pH 3.4, but not inactivated at pH 3.8. Low pH was less effective at inactivating SARS-CoV. Both viruses were inactivated at a high pH of ca.13.4. These studies provide important information regarding the effectiveness of viral clearance and inactivation steps of novel coronaviruses when compared to other enveloped viruses. [ABSTRACT FROM AUTHOR]

Published

2024

104. Protective effect of scallop-derived plasmalogen against vascular dysfunction, via the pSTAT3/PIM1/NFATc1 axis, in a novel mouse model of Alzheimer's disease with cerebral hypoperfusion.

Author

Zhai, Yun, Morihara, Ryuta, Feng, Tian, Hu, Xinran, Fukui, Yusuke, Bian, Zhihong, Bian, Yuting, Yu, Haibo, Sun, Hongming, Takemoto, Mami, Nakano, Yumiko, Yunoki, Taijun, Tang, Ying, Ishiura, Hiroyuki, and Yamashita, Toru

Subjects

*ALZHEIMER'S disease, *LABORATORY mice, *ANIMAL disease models, *MOUSE leukemia viruses, *T cells, *VASCULAR remodeling, *PERFUSION

Abstract

• Plasmalogen strongly attenuated the activation of pSTAT3/PIM1/NFATc1 axis. • Plasmalogen significantly suppressed NLRP3 inflammasome activation. • Plasmalogen tended to improve cerebral HP-enhanced cerebral vascular dysfunction. A strong relationship between Alzheimer's disease (AD) and vascular dysfunction has been the focus of increasing attention in aging societies. In the present study, we examined the long-term effect of scallop-derived plasmalogen (sPlas) on vascular remodeling-related proteins in the brain of an AD with cerebral hypoperfusion (HP) mouse model. We demonstrated, for the first time, that cerebral HP activated the axis of the receptor for advanced glycation endproducts (RAGE)/phosphorylated signal transducer and activator of transcription 3 (pSTAT3)/provirus integration site for Moloney murine leukemia virus 1 (PIM1)/nuclear factor of activated T cells 1 (NFATc1), accounting for such cerebral vascular remodeling. Moreover, we also found that cerebral HP accelerated pSTAT3-mediated astrogliosis and activation of the nucleotide-binding domain and leucine-rich repeat protein 3 (NLRP3) inflammasome, probably leading to cognitive decline. On the other hand, sPlas treatment attenuated the activation of the pSTAT3/PIM1/NFATc1 axis independent of RAGE and significantly suppressed NLRP3 inflammasome activation, demonstrating the beneficial effect on AD. [ABSTRACT FROM AUTHOR]

Published

2024

105. Development of an efficient one-step real-time reverse transcription polymerase chain reaction method for severe acute respiratory syndrome-coronavirus-2 detection.

Author

Nakura, Yukiko, Wu, Heng Ning, Okamoto, Yuya, Takeuchi, Muneyuki, Suzuki, Koichiro, Tamura, Yoshitaka, Oba, Yuichiro, Nishiumi, Fumiko, Hatori, Nobuaki, Fujiwara, Shinsuke, Yasukawa, Kiyoshi, Ida, Shinobu, and Yanagihara, Itaru

Subjects

*REVERSE transcriptase polymerase chain reaction, *REVERSE transcriptase, *DNA polymerases, *MOUSE leukemia viruses, *THERMUS thermophilus

Abstract

The general methods to detect the RNA of severe acute respiratory syndrome-coronavirus 2 (SARS-CoV-2) in clinical diagnostic testing involve reverse transcriptases and thermostable DNA polymerases. In this study, we compared the detection of SARS-CoV-2 by a one-step real-time RT-PCR method using a heat-resistant reverse transcriptase variant MM4 from Moloney murine leukemia virus, two thermostable DNA polymerase variants with reverse transcriptase activity from Thermotoga petrophila K4 and Thermococcus kodakarensis KOD1, or a wild-type DNA polymerase from Thermus thermophilus M1. The highest performance was achieved by combining MM4 with the thermostable DNA polymerase from T. thermophilus M1. These enzymes efficiently amplified specific RNA using uracil-DNA glycosylase (UNG) to remove contamination and human RNase P RNA amplification as an internal control. The standard curve was obtained from 5 to 105 copies of synthetic RNA. The one-step real-time RT-PCR method's sensitivity and specificity were 99.44% and 100%, respectively (n = 213), compared to those of a commercially available diagnostic kit. Therefore, our method will be useful for the accurate detection and quantification of SARS-CoV-2. [ABSTRACT FROM AUTHOR]

Published

2021

106. Plasma Levels of MicroRNA-146a-5p, MicroRNA-24-3p, and MicroRNA-125a-5p as Potential Diagnostic Biomarkers for Rheumatoid Arthris.

Author

Safari, Fatemeh, Damavandi, Elia, Rostamian, Abdol-Rahman, Movassaghi, Shafieh, Imani-Saber, Zeinab, Saffari, Mojtaba, Kabuli, Majid, and Ghadami, Mohsen

Subjects

*RHEUMATOID arthritis, *MOUSE leukemia viruses, *AUTOIMMUNE diseases, *BIOMARKERS, *RECEIVER operating characteristic curves, *DISEASE incidence, *RHEUMATOID arthritis diagnosis, *REVERSE transcriptase polymerase chain reaction, *BIOCHEMISTRY, *PREDICTIVE tests, *RNA, *PROGNOSIS, *CASE-control method, *PHENOMENOLOGY, *POLYMERASE chain reaction

Abstract

Rheumatoid arthritis (RA) is an autoimmune disease that is characterized by inflammation of the articular tissue. This study aims to evaluate the expression of microRNA (miR)-146a-5p, miR-24-3p, and miR-125a-5p in the plasma of RA patients and compare them with those of healthy controls to obtain a specific expression profile for earlier diagnosis and assistance in treating patients. This study was performed on 50 RA patients and 50 healthy controls. Five microliters of blood were taken from each patient/control. Plasma RNA was extracted using the Trisol solution. cDNAs were synthesized; using moloney murine leukemia virus (MMLV) and deoxynucleoside triphosphate (dNTP). Real-time PCR was performed using SYBR green kit. The mean expression of miR-146a-5p, miR-24-3p, and miR-125a-5p in the RA group were 8.1±1.9, 6.5±1.2, and 6.8±2.2 and in the healthy group were 4.8±1.6, 3.6±2.2, and 3.4±1.7, respectively. Significant differences were also observed in the mean expression of these three miRNAs in four subgroups of RA patients with different disease activity based on disease activity score 28 (DAS28) (p<0.05). ROC curve analysis showed that miR-146a-5p (AUC=0.8, sensitivity= 96%, specificity=86%), miR-24-3p (AUC=0.7, Sensitivity=95%, Specificity=75%) and miR-125a-5p (AUC=0.71, sensitivity=93%, specificity=84%) could be used as suitable biomarkers for RA diagnosis. Increased expressions of miR-146a-5p, miR-24-3p, and miR-125a-5p in RA patients indicate that the miRNAs are involved in disease incidence and progression, and the measurement of their expression can play an essential role in the diagnosis and treatment of the disease. [ABSTRACT FROM AUTHOR]

Published

2021

107. Gv1, a Zinc Finger Gene Controlling Endogenous MLV Expression.

Author

Young, George R, Ferron, Aaron K W, Panova, Veera, Eksmond, Urszula, Oliver, Peter L, Kassiotis, George, and Stoye, Jonathan P

Subjects

MICE genetics, MOUSE leukemia viruses, RETROVIRUSES, ZINC-finger proteins, ZINC proteins

Abstract

The genomes of inbred mice harbor around 50 endogenous murine leukemia virus (MLV) loci, although the specific complement varies greatly between strains. The Gv1 locus is known to control the transcription of endogenous MLVs and to be the dominant determinant of cell-surface presentation of MLV envelope, the GIX antigen. Here, we identify a single Krüppel-associated box zinc finger protein (ZFP) gene, Zfp998 , as Gv1 and show it to be necessary and sufficient to determine the G IX + phenotype. By long-read sequencing of bacterial artificial chromosome clones from 129 mice, the prototypic G IX + strain, we reveal the source of sufficiency and deficiency as splice-acceptor variations and highlight the varying origins of the chromosomal region encompassing Gv1. Zfp998 becomes the second identified ZFP gene responsible for epigenetic suppression of endogenous MLVs in mice and further highlights the prominent role of this gene family in control of endogenous retroviruses. [ABSTRACT FROM AUTHOR]

Published

2021

108. XBAT31 regulates thermoresponsive hypocotyl growth through mediating degradation of the thermosensor ELF3 in Arabidopsis.

Author

Lin Lin Zhang, Yu Jian Shao, Lan Ding, Mei Jing Wang, Davis, Seth Jon, and Jian Xiang Liu

Subjects

*UBIQUITIN ligases, *UBIQUITINATION, *ARABIDOPSIS, *GENOME editing, *MOUSE leukemia viruses, *SCAFFOLD proteins

Published

2021

109. Murine leukemia virus resists producer cell APOBEC3A by its Glycosylated Gag but not target cell APOBEC3A.

Author

Jaguva Vasudevan, Ananda Ayyappan, Balakrishnan, Kannan, Franken, André, Krikoni, Aikaterini, Häussinger, Dieter, Luedde, Tom, and Münk, Carsten

Subjects

*MOUSE leukemia viruses, *GENETIC vectors, *CYTIDINE deaminase, *HIV, *GENE therapy, *DNA polymerases, *GLYCOSYLATED hemoglobin

Abstract

The human APOBEC3A (A3A) polynucleotide cytidine deaminase has been shown to have antiviral activity against HTLV-1 but not HIV-1, when expressed in the virus producer cell. In viral target cells, high levels of endogenous A3A activity have been associated with the restriction of HIV-1 during infection. Here we demonstrate that A3A derived from both target cells and producer cells can block the infection of Moloney-MLV (MLV) and related AKV-derived strains of MLV in a deaminase-dependent mode. Furthermore, glycosylated Gag (glycoGag) of MLV inhibits the encapsidation of human A3A, but target cell A3A was not affected by glycoGag and exerted deamination of viral DNA. Importantly, our results clearly indicate that poor glycoGag expression in MLV gag-pol packaging constructs as compared to abundant levels in full-length amphotropic MLV makes these viral vectors sensitive to A3A-mediated restriction. This raises the possibility of acquiring A3A-induced mutations in retroviral gene therapy applications. [Display omitted] • The interferon-inducible A3A in human macrophages can restrict incoming MLV. • A3A incorporates into MLV cores and inhibits MLV propagation. • The enzymatic activity of A3A is crucial for MLV inhibition. • Glycosylated Gag expression blocks A3A packaging into MLV. • Glycosylated Gag does not counteract target cell A3A. [ABSTRACT FROM AUTHOR]

Published

2021

110. Correlation between the expression of cancer stem cell marker BMI1 and glioma prognosis.

Author

Tsai, Yu-Ting, Wu, Chung-Che, Ko, Chiung-Yuan, Hsu, Tsung-I, Chang, Wen-Chang, Lo, Wei-Lun, and Chuang, Jian-Ying

Subjects

*CANCER stem cells, *PROGNOSIS, *GLIOMAS, *MOUSE leukemia viruses, *CANCER cells

Abstract

B-cell-specific Moloney murine leukemia virus integration site 1 (BMI1) appears to be essential for promoting certain types of cancer, and its inhibition effectively reduced the stemness of cancer cells. Therefore, this study aimed to investigate the potential role of BMI1 in glioma. To this end, we first investigated BMI1 expression in brain tumors using microarray datasets in ONCOMINE, which indicated that BMI1 levels were not commonly increased in clinical brain tumors. Moreover, survival plots in PROGgeneV2 also showed that BMI1 expression was not significantly associated with reduced survival in glioma patients. Interestingly, stressful serum deprivation and anchorage independence growth conditions led to an increased BMI1 expression in glioma cells. A stress-responsive pathway, HDAC/Sp1, was further identified to regulate BMI1 expression. The HDAC inhibitor vorinostat (SAHA) prevented Sp1 binding to the BMI1 promoter, leading to a decreased expression of BMI1 and attenuating tumor growth of TMZ-resistant glioma xenografts. Importantly, we further performed survival analysis using PROGgeneV2 and found that an elevated expression of HDAC1,3/Sp1/BMI1 but not BMI1 alone showed an increased risk of death in both high- and low-grade glioma patients. Thus, HDAC-mediated Sp1 deacetylation is critical for BMI1 regulation to attenuate stress- and therapy-induced death in glioma cells, and the HDAC/Sp1 axis is more important than BMI1 and appears as a therapeutic target to prevent recurrence of malignant glioma cells persisting after primary therapy. • BMI1 expression alone has no influence on survival in patients with brain tumors. • BMI1 only partially affects malignant behaviors of glioma. • HDAC/Sp1 axis acts as a key effector of BMI1 gene expression. • HDAC activity is more important than BMI1 to promote the malignant growth of glioma. [ABSTRACT FROM AUTHOR]

Published

2021

111. Design and synthesis of a novel mitochondria-targeted osteosarcoma theranostic agent based on a PIM1 kinase inhibitor.

Author

Yi, Xinzeyu, Cao, Zhi, Yuan, Ying, Li, Wen, Cui, Xinyue, Chen, Zilin, Hu, Xiang, and Yu, Aixi

Subjects

*ORGANIC anion transporters, *KINASE inhibitors, *OSTEOSARCOMA, *MOUSE leukemia viruses, *SURGICAL margin, *ONCOGENES

Abstract

Osteosarcoma (OS) is the most common malignancy of the skeletal system, with a poor prognosis and high rate of recurrence. Adequate surgical margin and adjuvant chemotherapy improve the overall survival and limb salvage rate of osteosarcoma patients. Previous studies have showed that OS exhibits an increase in the expression of proviral integration site for Moloney murine leukemia virus 1 (PIM1) kinase, and high levels of PIM1 are also associated with poor OS prognosis and metastasis. We exploited the overexpression of proto-oncogenic PIM1 in OS towards the development of a novel near-infrared imaging and targeted therapeutic agent, namely QCAi-Cy7d by conjugating a PIM1 small molecule inhibitor and heptamethine cyanine dye, for simultaneous guiding surgery and chemotherapy. QCAi-Cy7d showed targeted imaging and anticancer activities against OS in vitro and vivo without any obvious toxicity, and its antitumoral activity was much greater than the parent PIMI inhibitor. These results demonstrated the potential of new conjugate of PIM1 inhibitor and near-infrared imaging, supporting structure-based design and development of theranostic agents for precise tumor imaging and targeted treatment. Chemical structure of the QCAi-Cy7d, proposed mechanism for the detection and imaging of PIM1 and its antitumor ability. (NMMP: negative mitochondrial transmembrane potential, OATPs: organic anion transporting polypeptides). [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2021

112. Reverse Transcriptase: From Transcriptomics to Genome Editing.

Author

Martín-Alonso, Samara, Frutos-Beltrán, Estrella, and Menéndez-Arias, Luis

Subjects

*REVERSE transcriptase, *MOUSE leukemia viruses, *NUCLEOTIDE sequence, *COMPLEMENTARY DNA, *ANTISENSE DNA, *PROTEIN engineering, *EUKARYOTIC genomes, *GENOME editing

Abstract

Reverse transcriptases (RTs) are enzymes that can generate a complementary strand of DNA (cDNA) from RNA. Coupled with PCR, RTs have been widely used to detect RNAs and to clone expressed genes. Classical retroviral RTs have been improved by protein engineering. These enzymes and newly characterized RTs are key elements in the development of next-generation sequencing techniques that are now being applied to the study of transcriptomics. In addition, engineered RTs fused to a CRISPR/Cas9 nickase have recently shown great potential as tools to manipulate eukaryotic genomes. In this review, we discuss the properties and uses of wild type and engineered RTs in biotechnological applications, from conventional RT-PCR to recently introduced prime editing. Robust catalytic activity (even at high temperatures) and high fidelity and template-primer affinity are desirable reverse transcriptase (RT) properties in most biotechnological applications. Engineered murine leukemia virus RTs are the most commonly used enzymes, although enzymes from other retroviruses (avian myeloblastosis virus or HIV-1) and bacterial group II intron RTs are also efficient in most applications. New technologies using reverse transcription and showing promise in life science research and technology are RNA sequencing (RNA-seq) (transcriptomics analysis), epitranscriptomics and synthetic biology, and genome editing (through the use of prime editors). [ABSTRACT FROM AUTHOR]

Published

2021

113. Neutralization assay with SARS-CoV-1 and SARS-CoV-2 spike pseudotyped murine leukemia virions.

Author

Zheng, Yue, Larragoite, Erin T., Williams, Elizabeth S. C. P., Lama, Juan, Cisneros, Isabel, Delgado, Julio C., Slev, Patricia, Rychert, Jenna, Innis, Emily A., Coiras, Mayte, Rondina, Matthew T., Spivak, Adam M., and Planelles, Vicente

Subjects

*MOUSE leukemia, *SARS-CoV-2, *FC receptors, *MOUSE leukemia viruses, *VIRUS diseases, *VIRAL antibodies, *CAPSIDS, *VIRION

Abstract

Background: Virus neutralization by antibodies is an important prognostic factor in many viral diseases. To easily and rapidly measure titers of neutralizing antibodies in serum or plasma, we developed pseudovirion particles composed of the spike glycoprotein of SARS-CoV-2 incorporated onto murine leukemia virus capsids and a modified minimal murine leukemia virus genome encoding firefly luciferase. This assay design is intended for use in laboratories with biocontainment level 2 and therefore circumvents the need for the biocontainment level 3 that would be required for replication-competent SARS-CoV-2 virus. To validate the pseudovirion assay, we set up comparisons with other available antibody tests including those from Abbott, Euroimmun and Siemens, using archived, known samples. Results: 11 out of 12 SARS-CoV-2-infected patient serum samples showed neutralizing activity against SARS-CoV-2-spike pseudotyped MLV viruses, with neutralizing titers-50 (NT50) that ranged from 1:25 to 1:1,417. Five historical samples from patients hospitalized for severe influenza infection in 2016 tested negative in the neutralization assay (NT50 < 25). Three serum samples with high neutralizing activity against SARS-CoV-2/MLV pseudoviruses showed no detectable neutralizing activity (NT50 < 25) against SARS-CoV-1/MLV pseudovirions. We also compared the semiquantitative Siemens SARS-CoV-2 IgG test, which measures binding of IgG to recombinantly expressed receptor binding domain of SARS-CoV-2 spike glycoprotein with the neutralization titers obtained in the pseudovirion assay and the results show high concordance between the two tests (R2 = 0.9344). Conclusions: SARS-CoV-2 spike/MLV pseudovirions provide a practical means of assessing neutralizing activity of antibodies in serum or plasma from infected patients under laboratory conditions consistent with biocontainment level 2. This assay offers promise also in evaluating immunogenicity of spike glycoprotein-based candidate vaccines in the near future. [ABSTRACT FROM AUTHOR]

Published

2021

114. Improvement of Moloney murine leukemia virus reverse transcriptase thermostability by introducing a disulfide bridge in the ribonuclease H region.

Author

Narukawa, Yutaro, Kandabashi, Mako, Li, Tongyang, Baba, Misato, Hara, Haruka, Kojima, Kenji, Iida, Kei, Hiyama, Takayoshi, Yokoe, Sho, Yamazaki, Tomomi, Takita, Teisuke, and Yasukawa, Kiyoshi

Subjects

*MOUSE leukemia viruses, *RIBONUCLEASE H, *REVERSE transcriptase, *SITE-specific mutagenesis, *ESCHERICHIA coli

Abstract

Moloney murine leukemia virus (MMLV) reverse transcriptase (RT) is widely used in research and clinical diagnosis. Improvement of MMLV RT thermostability has been an important topic of research for increasing the efficiency of cDNA synthesis. In this study, we attempted to increase MMLV RT thermostability by introducing a disulfide bridge in its RNase H region using site-directed mutagenesis. Five variants were designed, focusing on the distance between the two residues to be mutated into cysteine. The variants were expressed in Escherichia coli and purified. A551C/T662C was determined to be the most thermostable variant. [ABSTRACT FROM AUTHOR]

Published

2021

115. New Acute Myeloid Leukemia Study Findings Has Been Reported by a Researcher at University of Maryland (Deep PIM kinase substrate profiling reveals new rational co-therapeutic strategies for acute myeloid leukemia).

Subjects

ACUTE myeloid leukemia, RESEARCH personnel, MYELOID leukemia, MOUSE leukemia viruses

Abstract

A recent study conducted at the University of Maryland has revealed new findings about acute myeloid leukemia (AML). The study focused on the role of PIM kinases in AML and their potential as therapeutic targets. The researchers found that inhibiting PIM kinases in combination with other drugs targeting RNA splicing and rRNA processing could effectively kill AML cells. These findings provide valuable insights into the functions of PIM kinases and suggest new co-therapeutic strategies for treating AML. [Extracted from the article]

Published

2024

116. Study Findings on Microbiology Detailed by a Researcher at Infection Biology Unit (The Inhibition of Gag-Pol Expression by the Restriction Factor Shiftless Is Dispensable for the Restriction of HIV-1 Infection).

Subjects

MICROBIOLOGY, RESEARCH personnel, HIV, BIOLOGY, MOUSE leukemia viruses

Abstract

A recent study conducted in Gottingen, Germany, explored the role of the interferon-induced host cell protein Shiftless (SFL) in inhibiting the expression of HIV-1 Gal-Pol and the formation of infectious HIV-1 particles. The researchers found that basic amino acids in the predicted zinc ribbon motif of SFL are essential for suppressing Gag-Pol expression, but not necessary for its anti-HIV-1 activity. The study also revealed that SFL may inhibit HIV-1 infection through multiple mechanisms, including targeting programmed translational readthrough and -1PRF signals. This research provides valuable insights into the potential mechanisms of HIV-1 restriction and could contribute to the development of new antiviral strategies. [Extracted from the article]

Published

2024

117. Researchers create new AI pipeline for identifying molecular interactions.

Subjects

RESEARCH personnel, MOLECULAR interactions, ARTIFICIAL intelligence, MOUSE leukemia viruses, KAPOSI'S sarcoma

Abstract

Researchers at the University of Florida have developed a new algorithm called the AF-CBA Pipeline, which uses artificial intelligence (AI) to identify molecular interactions between proteins. This innovative tool is able to quickly and accurately pinpoint the strongest peptide binders to a specific protein, which is crucial for developing new treatments and understanding diseases. By using AI to simulate molecular interactions, the pipeline can sort through thousands of candidate molecules to identify the best one that interacts with the protein of interest. This groundbreaking technology has the potential to lead to targeted therapies for ailments such as inflammation, immune dysregulation, and cancer. [Extracted from the article]

Published

2024

118. ALKBH2 inhibition alleviates malignancy in colorectal cancer by regulating BMI1-mediated activation of NF-κB pathway.

Author

Ke, Bingxin, Ye, Kejun, and Cheng, Shaobing

Subjects

*COLORECTAL cancer, *MOUSE leukemia viruses, *KETOGLUTARIC acids, *EPITHELIAL-mesenchymal transition, *B cells

Abstract

Background: The alkB homolog 2, alpha-ketoglutarate-dependent dioxygenase (ALKBH2) gene is involved in DNA repair and is expressed in different types of malignancies. However, the role of ALKBH2 in colorectal carcinoma (CRC) remains unclear. This study aimed to explore the potential mechanism of ALKBH2 and its function in CRC. Methods: The expression levels of ALKBH2 in CRC tissues and cells were determined by qRT-PCR. Following that, the role of ALKBH2 in cell proliferation, invasion, and epithelial-mesenchymal transition (EMT) in CRC cells (Caco-2 and LOVO) were assessed by Cell Counting Kit-8 (CCK-8), transwell assays, and Western blotting, respectively. The effect of ALKBH2 on B cell-specific Moloney murine leukemia virus integration site 1 (BMI1) and downstream NF-κB pathway was determined by Western blotting and luciferase reporter assay. Results: The expression of ALKBH2 was significantly upregulated both in CRC tissues and cells. Further experiments demonstrated that reduction of ALKBH2 suppressed Caco-2 and LOVO cell proliferation and invasion. Moreover, ALKBH2 knockdown also suppressed EMT, which increased E-cadherin expression and reduced N-cadherin expression. Besides, ALKBH2 silencing inhibited BMI1 expression and reduced nuclear accumulation of the NF-κB p65 protein, as well as the luciferase activity of NF-κB p65. Upregulation of BMI1 reversed the effect of ALKBH2 knockdown on the proliferation and invasion in CRC cells. Conclusions: Our findings suggest that suppression of ALKBH2 alleviates malignancy in CRC by regulating BMI1-mediated activation of NF-κB pathway. ALKBH2 may serve as a potential treatment target for human CRC. [ABSTRACT FROM AUTHOR]

Published

2020

119. Viral metagenomics in Brazilian multiply transfused patients with sickle cell disease as an indicator for blood transfusion safety.

Author

Nunes Valença, I., Silva-Pinto, A.C., Araújo da Silva Júnior, W., Tadeu Covas, D., Kashima, S., and Nanev Slavov, S.

Subjects

*SICKLE cell anemia, *BLOOD transfusion, *MOUSE leukemia viruses, *BLOOD diseases, *METAGENOMICS, *ALLOIMMUNITY, *VIRAL shedding

Abstract

Patients with sickle cell disease (SCD) are submitted to multiple transfusions in order to increase the oxygen capacity of the blood, decrease blood viscosity, and suppress the sickling of the cells. Multiply transfused patients with SCD represent significant risk of acquiring parenterally transmitted infections. The analysis of the virome profile of high-risk multiply transfused patients with SCD can reveal the presence of parenterally transmitted viruses and therefore be used an indirect approach for evaluation of blood transfusion safety. Blood samples were collected from 45 patients with SCD receiving multiple transfusions and analyzed by metagenomic analyses. The samples were assembled in pools f which were submitted to nucleic acids extraction and sequencing by Illumina NextSeq 550 equipment. For bioinformatic analysis, we used a specific in-house developed pipeline specialized in identification of emerging viruses. The virome composition of SCD patients revealed the presence of commensal viruses represented by anelloviruses and Human Pegivirus-1 (HPgV-1, GB virus C). Contaminant viral sequences belonging to human lentiviruses (rev, env genes), cytomegalovirus and murine leukemia virus were also identified and are attributed to vectors used in the laboratory practice. No novel or unsuspected pathogenic viruses were identified. This study evaluates for the first time the virome of multiply transfused patients with SCD. Exclusively genetic material of commensal viruses was annotated. Therefore, we believe that viral metagenomics applied in patients with high risk for acquiring parenterally transmitted infections can serve as a direct indicator for evaluation of transfusion safety. [ABSTRACT FROM AUTHOR]

Published

2020

120. Identification and characterization of a Triton X‐100 replacement for virus inactivation.

Author

Luo, Wen, Hickman, Danielle, Keykhosravani, Mandana, Wilson, Joseph, Fink, Jamie, Huang, Lihua, Chen, Dayue, and O'Donnell, Sean

Subjects

VIRUS inactivation, TRITON X-100, MOUSE leukemia viruses, AUJESZKY'S disease virus, FATTY alcohols

Abstract

Triton X‐100 detergent treatment is a robust enveloped virus inactivation unit operation included in biopharmaceutical manufacturing processes. However, the European Commission officially placed Triton X‐100 on the Annex XIV authorization list in 2017 because a degradation product of Triton X‐100, 4‐(1,1,3,3‐tetramethylbutyl) phenol (also known as 4‐tert‐octylphenol), is considered to have harmful endocrine disrupting activities. As a result, the use of Triton X‐100 in the European Economic Area (EEA) would not be allowed unless an ECHA issued authorization was granted after the sunset date of January 4, 2021. This has prompted biopharmaceutical manufacturers to search for novel, environment‐friendly alternative detergents for enveloped virus inactivation. In this study, we report the identification of such a novel detergent, Simulsol SL 11W. Simulsol SL 11W is an undecyl glycoside surfactant produced from glucose and C11 fatty alcohol. We report here that Simulsol SL 11W was able to effectively inactive enveloped viruses, such as xenotropic murine leukemia virus (XMuLV) and pseudorabies virus (PRV). By using XMuLV as a representative enveloped virus, the influence of various parameters on the effectiveness of virus inactivation was evaluated. Virus inactivation by Simulsol SL 11W was effective across different clarified bioreactor harvests at broad concentrations, pH, and temperature ranges. Simulsol SL 11W concentration, temperature of inactivation, and treatment time were identified as critical process parameters for virus inactivation. Removal of Simulsol SL 11W was readily achieved by Protein A chromatography and product quality was not affected by detergent treatment. Taken together, these results have shown the potential of Simulsol SL 11W as a desirable alternative to Triton X‐100 for enveloped virus inactivation that could be readily implemented into biopharmaceutical manufacturing processes. [ABSTRACT FROM AUTHOR]

Published

2020

121. 1,3,4‐Oxadiazole‐2(3H)‐thione Analogs as PIM Kinase Inhibitors.

Author

Hong, Victor Sukbong, Jeong, Seungik, Yun, Yanghwan, Choo, Hyeonseong, Won, Jongin, and Lee, Jinho

Subjects

*KINASE inhibitors, *MOUSE leukemia viruses, *STRUCTURE-activity relationships, *KINASES, *INDOLE derivatives

Abstract

Proviral integration site for moloney murine leukemia virus (PIM) kinases are highly expressed in hematological cancers. They phosphorylate downstream substrates that contribute to tumor growth and survival. Therefore, a potent inhibitor of PIM kinases is expected to be effective at treating hematological cancers. In the present study, several indole derivatives of 1,3,4‐oxadiazole‐2(3H)‐thione were synthesized and evaluated as PIM kinase inhibitors. Structure–activity relationship studies yielded potent inhibitors of all three PIM kinases in the single‐digit to low double‐digit nanomolar IC50 range. Kinase profiling of a representative compound showed high selectivity among 15 other kinases. [ABSTRACT FROM AUTHOR]

Published

2020

122. Immunotherapy of CT26 murine tumors is characterized by an oligoclonal response of tissue‐resident memory T cells against the AH1 rejection antigen.

Author

Stringhini, Marco, Probst, Philipp, and Neri, Dario

Subjects

T cells, T cell receptors, MOUSE leukemia viruses, CELL receptors, CHIMERIC proteins, COAT proteins (Viruses)

Abstract

Mice bearing CT26 tumors can be cured by administration of L19‐mIL12 or F8‐mTNF, two antibody fusion proteins which selectively deliver their cytokine payload to the tumor. In both settings, cancer cures crucially depended on CD8+ T cells and the AH1 peptide (derived from the gp70 protein of the murine leukemia virus) acted as the main tumor‐rejection antigen, with ∼50% of CD8+ T cells in the neoplastic mass being AH1‐specific after therapy. In order to characterize the clonality of the T cell response, its phenotype, and activation status, we isolated CD8+ T cells from tumors and secondary lymphoid organs and submitted them to T cell receptor (TCR) and total mRNA sequencing. We found an extremely diverse repertoire of more than 40 000 unique TCR sequences, but the ten most abundant TCRs accounted for >60% of CD8+ T‐cell clones in the tumor. AH1‐specific TCRs were consistently found among the most abundant sequences. AH1‐specific T cells in the tumor had a tissue‐resident memory phenotype. Treatment with L19‐mIL12 led to overexpression of IL‐12 receptor and of markers of cell activation and proliferation. These data suggest that the antitumor response driven by antibody‐cytokine fusions proceeds through an oligoclonal expansion and activation of tumor‐infiltrating CD8+ T cells. [ABSTRACT FROM AUTHOR]

Published

2020

123. Murine Leukemia Virus P50 Protein Counteracts APOBEC3 by Blocking Its Packaging.

Author

Wenming Zhao, Charbel Akkawi, Mougel, Marylène, and Ross, Susan R.

Subjects

*MOUSE leukemia viruses, *VIRAL proteins, *RETROVIRUSES, *KNOCKOUT mice, *RETROVIRUS diseases, *APOLIPOPROTEIN B, *VIRAL replication

Abstract

Apolipoprotein B editing enzyme, catalytic polypeptide 3 (APOBEC3) family members are cytidine deaminases that play important roles in intrinsic responses to retrovirus infection. Complex retroviruses like human immunodeficiency virus type 1 (HIV-1) encode the viral infectivity factor (Vif) protein to counteract APOBEC3 proteins. Vif induces degradation of APOBEC3G and other APOBEC3 proteins and thereby prevents their packaging into virions. It is not known if murine leukemia virus (MLV) encodes a Vif-like protein. Here, we show that the MLV P50 protein, produced from an alternatively spliced gag RNA, interacts with the C terminus of mouse APOBEC3 and prevents its packaging without causing its degradation. By infecting APOBEC3 knockout (KO) and wild-type (WT) mice with Friend or Moloney MLV P50-deficient viruses, we found that APOBEC3 restricts the mutant viruses more than WT viruses in vivo. Replication of P50-mutant viruses in an APOBEC3- expressing stable cell line was also much slower than that of WT viruses, and overexpressing P50 in this cell line enhanced mutant virus replication. Thus, MLV encodes a protein, P50, that overcomes APOBEC3 restriction by preventing its packaging into virions. [ABSTRACT FROM AUTHOR]

Published

2020

124. Bmi1 Severs as a Potential Tumor-Initiating Cell Marker and Therapeutic Target in Esophageal Squamous Cell Carcinoma.

Author

Wang, Xiaochen, Li, Kang, Cheng, Maosheng, Wang, Ganping, Han, Hui, Chen, Fangfang, Liao, Wenjing, Chen, Zhi, Chen, Jianwen, Bao, Yong, Peng, Liang, and Chen, Demeng

Subjects

*SQUAMOUS cell carcinoma, *MOUSE leukemia viruses, *TREATMENT effectiveness, *CANCER, *TUMOR growth

Abstract

Esophageal squamous cell carcinoma (ESCC) is a frequent malignant tumor with low 5-year overall survival. Targeting ESCC tumor-initiating cells (TICs) may provide a new research avenue to achieve better therapeutic effects of ESCC. However, the identity and characteristics of ESCC TICs remain poorly understood. Through genetic lineage tracing approach, we found that a group of Moloney murine leukemia virus insertion site 1- (Bmi1-) expressing cell populations present in the invasive front of the esophageal epithelium, providing a continuous flow of tumor cells for ESCC. Subsequently, we found that ablation of Bmi1+ cells from mice with ESCC led to inhibition of tumor growth. In addition, our results demonstrated that PTC-209, an inhibitor of Bmi1, was able to inhibit ESCC progression when combined with cisplatin. In summary, our data suggest that Bmi1+ cells serve as TICs in ESCC. [ABSTRACT FROM AUTHOR]

Published

2020

125. BMI1-KLF4 axis deficiency improves responses to neoadjuvant concurrent chemoradiotherapy in patients with rectal cancer.

Author

Hsu, Yin-Chou, Luo, Chi-Wen, Huang, Wei-Lun, Wu, Chun-Chieh, Chou, Chia-Lin, Chen, Chih-I, Chang, Shu-Jyuan, Chai, Chee-Yin, Wang, Hui-Ching, Chen, Tzu-Yi, Li, Chien-Feng, and Pan, Mei-Ren

Subjects

*RECTAL cancer, *POLYCOMB group proteins, *MOUSE leukemia viruses, *CANCER patients, *KRUPPEL-like factors, *IONIZING radiation

Abstract

• Depletion of BMI1 sensitizes colorectal cancer cells to chemoradiotherapy treatment. • BMI1 overexpression was significantly associated with poor outcomes in rectal cancer patients. • BMI1-KLF4 axis acts as a key effector of radioprotection in CRC cells. Neoadjuvant concurrent chemoradiotherapy (CCRT) is a gold standard treatment for patients with stage II/III rectal cancer. B-cell-specific Moloney murine leukemia virus insertion site 1 (BMI1) is a member of the polycomb group of proteins that are involved in regulating gene expression. High levels of BMI1 have been demonstrated to contribute to the malignant phenotypes of several cancers; however, its relevance in rectal cancer treated with CCRT is largely unknown. We used two patient cohorts to address the clinical relevance of BMI1 in human cancers. In addition, HT-29 and HCT-116 cells were chosen as our in vitro models to verify the role of BMI1 in cell response to ionizing radiation. Stemness-related proteins were analyzed by western blotting and cell survival was determined using clonogenic assays. BMI1 overexpression was found to significantly correlate with advanced pre-treatment nodal status (N1-N2; p < 0.001), post-treatment tumor stage (T1-T2; p = 0.015), inferior tumor regression grade (p = 0.001), and also an independent prognosis factor in 172 rectal cancer patients receiving CCRT. Serial cell-based functional examination indicated that BMI1 deficiency sensitized cells to radiation treatment by modulating the gene expression of Kruppel-like factor 4 (KLF4) and enhanced radiosensitivity in microsatellite stable (MSS) colorectal cancers. Overexpression of KLF4 partially overcame BMI1-deficiency-mediated γ-H2AX expression after ionizing radiation exposure. Consistent with in vitro data, an analysis of an additional 30 rectal cancer tissue specimens revealed a positive correlation between BMI1 and KLF4 (p = 0.02). Higher levels of BMI1 are associated with poor therapeutic response and adverse outcomes in rectal cancer patients receiving CCRT. [ABSTRACT FROM AUTHOR]

Published

2020

126. 5-methylcytosine RNA modifications promote retrovirus replication in an ALYREF reader protein-dependent manner.

Author

Eckwahl, Matthew, Ruyi Xu, Michalkiewicz, Julia, Wen Zhang, Patel, Pooja, Zhen Cai, and Tao Pan

Subjects

*RNA modification & restriction, *MOUSE leukemia viruses, *VIRAL genomes, *POST-translational modification, *VIROLOGY, *RNA viruses, *MASS spectrometry

Abstract

RNA modifications play diverse roles in regulating RNA function, and viruses co-opt these pathways for their own benefit. While recent studies have highlighted the importance of N6-methyladenosine (m6A)--the most abundant mRNA modification--in regulating retrovirus replication, the identification and function of other RNA modifications in viral biology have been largely unexplored. Here, we characterize the RNA modifications present in a model retrovirus, murine leukemia virus (MLV), using mass spectrometry and sequencing. We find that 5-methylcytosine (m5C) is highly enriched in viral genomic RNA relative to uninfected cellular mRNAs, and we map at single-nucleotide resolution the m5C sites, which are located in multiple clusters throughout the MLV genome. Further, we show that the m5C reader protein ALYREF plays an important role in regulating MLV replication. Together, our results provide a complete m5C profile in a virus and its function in a eukaryotic mRNA. Importance: Over 130 modifications have been identified in cellular RNAs, which play critical roles in many cellular processes, from modulating RNA stability to altering translation efficiency. One such modification, 5-methylcytosine, is relatively abundant in mammalian mRNAs, but its precise location and function are not well understood. In this study, we identify unexpectedly high levels of m5C in the murine leukemia virus RNA, precisely map its location, and show that ALYREF, a "reader" protein that specifically recognizes m5C, regulates viral production. Together, our findings provide a high-resolution atlas of m5C in murine leukemia virus and reveal a functional role of m5C in viral replication. [ABSTRACT FROM AUTHOR]

Published

2020

127. Bmi-1-induced miR-27a and miR-155 promote tumor metastasis and chemoresistance by targeting RKIP in gastric cancer.

Author

Li, Yaqing, Tian, Zhenfeng, Tan, Ying, Lian, Guoda, Chen, Shangxiang, Chen, Shaojie, Li, Jiajia, Li, Xuanna, Huang, Kaihong, and Chen, Yinting

Subjects

*METASTASIS, *DRUG resistance in cancer cells, *STOMACH cancer, *MOUSE leukemia viruses, *CELL analysis, *ATROPHIC gastritis

Abstract

Background: We previously reported an inverse relationship between B cell-specific Moloney murine leukemia virus integration site 1 (Bmi-1) and Raf kinase inhibitory protein (RKIP), which is associated with the prognosis of gastric cancer (GC). In this study, we further explored the microRNA (miRNA) regulatory mechanism between Bmi-1 and RKIP. Methods: Microarray analysis was first carried out to identify miRNA profiles that were differentially expressed in cells overexpressing Bmi-1. Then, miRNAs that could regulate RKIP were identified. Quantitative real-time PCR (qRT-PCR) and Western blotting were performed to measure the expression of Bmi-1, miR-155, miR-27a and RKIP. RKIP was confirmed as a target of miR-27a and miR-155 through luciferase reporter assays, qRT-PCR and Western blotting. The effects of the Bmi-1/miR-27a/RKIP and Bmi-1/miR-155/RKIP axes on tumor growth, proliferation, migration, invasion, colony-formation ability, metastasis and chemoresistance were investigated both in vitro and in vivo. Results: The downregulation of RKIP by Bmi-1 occurred at the protein but not mRNA level. This indicates probable posttranscriptional regulation. miRNA expression profiles of cells with ectopic expression of Bmi-1 were analyzed and compared to those of control cells by microarray analysis. A total of 51 upregulated and 72 downregulated miRNAs were identified. Based on publicly available algorithms, miR-27a and miR-155 were predicted, selected and demonstrated to target RKIP. Bmi-1, miR-27a and miR-155 are elevated in human GC and associated with poor prognosis of GC, while RKIP is expressed at lower levels in GC and correlated with good prognosis. Then, in vitro tests shown that in addition to regulating RKIP expression via miR-27a and miR-155, Bmi-1 was also able to regulate the migration, invasion, proliferation, colony-formation ability and chemosensitivity of GC cells through the same pathway. Finally, the in vivo test showed similar results, whereby the knockdown of the Bmi-1 gene led to the inhibition of tumor growth, metastasis and chemoresistance through miR-27a and miR-155. Conclusions: Bmi-1 was proven to induce the expression of miR-27a and miR-155 and thus promote tumor metastasis and chemoresistance by targeting RKIP in GC. Overall, miR-27a and miR-155 might be promising targets for the screening, diagnosis, prognosis, treatment and disease monitoring of GC. [ABSTRACT FROM AUTHOR]

Published

2020

128. Duplication and divergence of the retrovirus restriction gene Fv1 in Mus caroli allows protection from multiple retroviruses.

Author

Yap, Melvyn W., Young, George R., Varnaite, Renata, Morand, Serge, and Stoye, Jonathan P.

Subjects

*GENES, *MOUSE leukemia viruses, *VIRUS diseases, *NUCLEAR DNA, *CHROMOSOME duplication, *LABORATORY mice

Abstract

Viruses and their hosts are locked in an evolutionary race where resistance to infection is acquired by the hosts while viruses develop strategies to circumvent these host defenses. Forming one arm of the host defense armory are cell autonomous restriction factors like Fv1. Originally described as protecting laboratory mice from infection by murine leukemia virus (MLV), Fv1s from some wild mice have also been found to restrict non-MLV retroviruses, suggesting an important role in the protection against viruses in nature. We surveyed the Fv1 genes of wild mice trapped in Thailand and characterized their restriction activities against a panel of retroviruses. An extra copy of the Fv1 gene, named Fv7, was found on chromosome 6 of three closely related Asian species of mice: Mus caroli, M. cervicolor, and M. cookii. The presence of flanking repeats suggested it arose by LINE-mediated retroduplication within their most recent common ancestor. A high degree of natural variation was observed in both Fv1 and Fv7 and, on top of positive selection at certain residues, insertions and deletions were present that changed the length of the reading frames. These genes exhibited a range of restriction phenotypes, with activities directed against gamma-, spuma-, and lentiviruses. It seems likely, at least in the case of M. caroli, that the observed gene duplication may expand the breadth of restriction beyond the capacity of Fv1 alone and that one or more such viruses have recently driven or continue to drive the evolution of the Fv1 and Fv7 genes. Author summary: During the passage of time all vertebrates will be exposed to infection by a variety of different kinds of virus. To meet this threat, a variety of genes for natural resistance to viral infection have evolved. The prototype of such so-called restriction factors is encoded by the mouse Fv1 gene, which acts to block the life cycle of retroviruses at a stage between virus entry into the cell and integration of the viral genetic material into the nuclear DNA. We have studied the evolution of this gene in the wild mice from South East Asia and describe an example where a duplication of the Fv1 gene has taken place. The two copies of the gene, initially identical, have evolved separately allowing the development of resistance to two rather different kinds of retroviruses, lenti- and spumaviruses. Independent selection for resistance to these two kinds of retrovirus suggests that such mice are repeatedly exposed to never-before-reported pathogenic retroviruses of these genera. [ABSTRACT FROM AUTHOR]

Published

2020

129. Reactive-oxygen-species-mediated mechanism for photoinduced antibacterial and antiviral activities of Ag3PO4.

Author

Seo, Youngsik, Park, Keunchun, Hong, Yonggun, Lee, Eun Sik, Kim, Sang-Soon, Jung, Yong-Tae, Park, Heonyong, Kwon, Chian, Cho, Young-Sik, and Huh, Young-Duk

Subjects

*MOUSE leukemia viruses, *LISTERIA innocua, *PSEUDOMONAS syringae, *REACTIVE oxygen species, *ESCHERICHIA coli

Abstract

Cubic-shaped Ag3PO4 crystals with a mean size of 1 μm were synthesized by a precipitation method from a mixed solution of AgNO3, Na2HPO4, and triethanolamine. The antibacterial activities against Escherichia coli, Listeria innocua, and Pseudomonas syringae DC3000 in both the absence and presence of Ag3PO4 under dark conditions and in the presence of Ag3PO4 under red-light (625 nm) and blue-light (460 nm) irradiation were examined. The concentrations of reactive oxygen species (ROS) were also measured in the antibacterial action of the Ag3PO4 against Escherichia coli. The photoinduced enhancement of the Ag3PO4 antibacterial activity under blue-light irradiation is explained by the formation of ROS during the antibacterial action of the Ag3PO4. Moreover, the antiviral activity of Ag3PO4 against amphotropic 10A1 murine leukemia virus enhanced under blue-light irradiation via ROS production. These results provide an insight into extended bio-applications of Ag3PO4. [ABSTRACT FROM AUTHOR]

Published

2020

130. A three-gene signature might predict prognosis in patients with acute myeloid leukemia.

Author

Xin Zhu, Qian Zhao, Xiaoyu Su, Jinming Ke, Yunyun Yi, Jing Yi, Jiang Lin, Jun Qian, and Zhaoqun Deng

Subjects

*ACUTE myeloid leukemia, *MOUSE leukemia viruses, *LEUCOCYTES, *RECEIVER operating characteristic curves, *PROGNOSIS

Abstract

The identification of effective signatures is crucial to predict the prognosis of acute myeloid leukemia (AML). The investigation aimed to identify a new signature for AML prognostic prediction by using the three-gene expression (octamer-binding transcription factor 4 (OCT4), POU domain type 5 transcription factor 1B (POU5F1B) and B-cell-specific Moloney murine leukemia virus integration site-1 pseudogene 1 (BMI1P1). The expressions of genes were obtained from our previous study. Only the specimens in which three genes were all expressed were included in this research. A three-gene signature was constructed by the multivariate Cox regression analyses to divide patients into high-risk and low-risk groups. Receiver operating characteristic (ROC) analysis of the three-gene signature (area under ROC curve (AUC) = 0.901, 95% CI: 0.821-0.981, P<0.001) indicated that it was a more valuable signature for distinguishing between patients and controls than any of the three genes. Moreover, white blood cells (WBCs, P=0.004), platelets (PLTs, P=0.017), percentage of blasts in bonemarrow(BM) (P=0.011) and complete remission (CR, P=0.027) had significant differences between two groups. Furthermore, high-risk group had shorter leukemia-free survival (LFS) and overall survival (OS) than low-risk group (P=0.026; P=0.006), and the three-gene signature was a prognostic factor. Our three-gene signature for prognosis prediction in AML may serve as a prognostic biomarker. [ABSTRACT FROM AUTHOR]

Published

2020

131. Pharmacological Activity, Pharmacokinetics, and Toxicity of Timosaponin AIII, a Natural Product Isolated From Anemarrhena asphodeloides Bunge: A Review.

Author

Lin, Yan, Zhao, Wai-Rong, Shi, Wen-Ting, Zhang, Jing, Zhang, Kai-Yu, Ding, Qian, Chen, Xin-Lin, Tang, Jing-Yi, and Zhou, Zhong-Yan

Subjects

SCIENTIFIC literature, NATURAL products, MOUSE leukemia viruses, CHINESE medicine, PHARMACOKINETICS, ACETYLCHOLINESTERASE, DOWNREGULATION

Abstract

Anemarrhena asphodeloides Bunge is a famous Chinese Materia Medica and has been used in traditional Chinese medicine for more than two thousand years. Steroidal saponins are important active components isolated from A. asphodeloides Bunge. Among which, the accumulation of numerous experimental studies involved in Timosaponin AIII (Timo AIII) draws our attention in the recent decades. In this review, we searched all the scientific literatures using the key word "timosaponin AIII" in the PubMed database update to March 2020. We comprehensively summarized the pharmacological activity, pharmacokinetics, and toxicity of Timo AIII. We found that Timo AIII presents multiple-pharmacological activities, such as anti-cancer, anti-neuronal disorders, anti-inflammation, anti-coagulant, and so on. And the anti-cancer effect of Timo AIII in various cancers, especially hepatocellular cancer and breast cancer, is supposed as its most potential activity. The anti-inflammatory activity of Timo AIII is also beneficial to many diseases. Moreover, VEGFR, X-linked inhibitor of apoptosis protein (XIAP), B-cell-specific Moloney murine leukemia virus integration site 1 (BMI1), thromboxane (Tx) A2 receptor, mTOR, NF-κB, COX-2, MMPs, acetylcholinesterase (AChE), and so on are identified as the crucial pharmacological targets of Timo AIII. Furthermore, the hepatotoxicity of Timo AIII was most concerned, and the pharmacokinetics and toxicity of Timo AIII need further studies in diverse animal models. In conclusion, Timo AIII is potent as a compound or leading compound for further drug development while still needs in-depth studies. [ABSTRACT FROM AUTHOR]

Published

2020

132. Fluorescent Tricyclic Cytidine Analogues as Substrates for Retroviral Reverse Transcriptases.

Author

Turner, M. Benjamin and Purse, Byron W.

Subjects

*REVERSE transcriptase, *MESSENGER RNA, *DNA synthesis, *HIV, *RIBONUCLEASE H, *MOUSE leukemia viruses, *FLUORESCENCE, *RETROVIRUS genetics, *DNA polymerases

Abstract

We report on the ability of the reverse transcriptases (RTs) from avian myeloblastosis virus (AMV), Moloney murine leukemia virus (M‐MLV), and human immunodeficiency virus 1 (HIV‐1) to generate labeled DNA using the fluorescent tricyclic cytidine analogues d(tC)TP and d(DEAtC)TP as substrates. Michaelis‐Menten kinetics for the insertion of these analogues show Vmax/KM from 0.09–5 times that of natural dCTP across from G, depending on the polymerase and whether the template is RNA or DNA. The analogues are prone to misinsertion across from adenosine with both RNA and DNA templates. Elongation after analogue insertion is efficient with RNA templates, but the analogues cause stalling after insertion with DNA templates. A model reverse transcription assay using HIV‐1‐RT, including RNA‐dependent DNA synthesis, degradation of the RNA template by the RT's RNase H activity, and synthesis of a second DNA strand to form fluorescently labeled dsDNA, shows that d(tC)TP and d(DEAtC)TP are compatible with a complete reverse transcription cycle in vitro. [ABSTRACT FROM AUTHOR]

Published

2020

133. Doxycycline-induced exogenous Bmi-1 expression enhances tumor formation in a murine model of oral squamous cell carcinoma.

Author

Kalish, Jocelin M., Tang, Xiao-Han, Scognamiglio, Theresa, Zhang, Tuo, and Gudas, Lorraine J.

Subjects

*SQUAMOUS cell carcinoma, *HUMAN carcinogenesis, *CANCER stem cells, *MOUSE leukemia viruses, *TRANSGENIC mice, *OXIDATIVE phosphorylation

Abstract

B Cell-Specific Moloney Murine Leukemia Virus Integration Site 1 (Bmi-1, Bmi1), an epigenetic protein, is necessary for normal stem cell self-renewal in adult animals and for cancer stem cell (CSC) functions in adult animals. To elucidate the functions of Bmi-1 in the oral cavity we created a transgenic mouse line (KrTBmi-1) that expresses ectopic, Flag-tagged Bmi-1 in tongue basal epithelial stem cells only upon doxycycline (DOX) treatment. Genome wide transcriptomics and Ingenuity Pathway Analysis identified several pathways altered by exogenous Bmi-1 expression in the normal tongue epithelium, including EIF2 signaling (P value = 1.58 x 10−49), mTOR signaling (P value = 2.45 x 10−12), oxidative phosphorylation (P = 6.61 x 10−3) and glutathione redox reactions I (P = 1.74 x 10−2). Overall, our data indicate that ectopic Bmi-1 expression has an impact on normal tongue epithelial homeostasis. We then assessed the KrTBmi-1 mice in the 4-nitroquinoline 1-oxide (4-NQO) model of oral carcinogenesis. We found that 80% of mice expressing exogenous Bmi-1 (+DOX, +4-NQO KrTBmi-1; N = 10) developed tumors classified as grade 3 or higher, compared to 60% and 40% of mice expressing just endogenous Bmi-1 (+DOX, +4-NQO Kr and -DOX, +4-NQO KrTBmi-1 groups, respectively; N = 10/group; P value = <0.0001); and 30% of mice expressing ectopic Bmi-1 mice developed 20 or more lesions compared to 10% of mice expressing only endogenous Bmi-1 (P =.009). This demonstrates that exogenous Bmi-1 expression increases the susceptibility of mice to 4-NQO-induced oral carcinogenesis, strengthening the evidence for Bmi-1 as a therapeutic target in human oral squamous cell carcinoma. [ABSTRACT FROM AUTHOR]

Published

2020

134. The prevention of an anomalous chromatographic behavior and the resulting successful removal of viruses from monoclonal antibody with an asymmetric charge distribution by using a membrane adsorber in highly efficient, anion‐exchange chromatography in flow‐through mode

Author

Masuda, Yumiko, Ogino, Yuka, Yamaichi, Kozo, Takahashi, Yusuke, Nonaka, Koichi, and Wakamatsu, Kaori

Subjects

MOBILE phase (Chromatography), MOUSE leukemia viruses, CHROMATOGRAPHIC analysis, ISOELECTRIC point, IMMUNOAFFINITY chromatography, VIRUSES, IONIC strength

Abstract

Anion exchange (AEX) chromatography in the flow‐through mode is a widely employed purification process for removal of process/product‐related impurities and exogenous/endogenous viruses from monoclonal antibodies (mAbs). The pH of the mobile phase for AEX chromatography is typically set at half a unit below the isoelectric point (pI) of each mAb (i.e., pI − 0.5) or lower and, in combination with a low ionic strength, these conditions are usually satisfactory for both the recovery of the mAb and removal of impurities. However, we have recently encountered a tight binding of mAb1 to AEX resins under these standard chromatographic conditions. This anomalous adsorption behavior appears to be an effect of the asymmetric charge distribution on the surface of the mAb1. We found that mAb1 did not bind to the AEX resins if the mobile phase has a much lower pH and higher ionic strength, but those conditions would not allow adequate virus removal. We predicted that the use of membrane adsorbers might provide effective mAb1 purification, since the supporting matrix has a network structure that would be less susceptible to interactions with the asymmetric charge distribution on the protein surface. We tested the Natriflo HD‐Q AEX membrane adsorber under standard chromatographic conditions and found that mAb1 flowed through the membrane adsorber, resulting in successful separation from murine leukemia virus. This AEX membrane adsorber is expected to be useful for process development because mAbs can be purified under similar standard chromatographic conditions regardless of their charge distributions. [ABSTRACT FROM AUTHOR]

Published

2020

135. Insights into virus inactivation by polysorbate 80 in the absence of solvent.

Author

Chen, Dayue, Luo, Wen, Hoffman, Jacob, Huang, Lihua, Sandefur, Stephanie, Hall, Troii, Murphy, Marie, and O'Donnell, Sean

Subjects

VIRUS inactivation, TRITON X-100, POLYSORBATE 80, MOUSE leukemia viruses, PHOSPHOLIPASE A2, POLYPHENOL oxidase, AUJESZKY'S disease virus

Abstract

Triton X‐100 has long been used either alone or in combination with solvent to inactivate enveloped viruses in biopharmaceutical manufacturing. However, European Chemicals Agency (ECHA) officially placed Triton X‐100 on the Annex XIV authorization list in 2017 because 4‐(1,1,3,3‐tetramethylbutyl) phenol, a degradation product of Triton X‐100, is of harmful endocrine disrupting activities. As a result, any use of Triton X‐100 in the European Economic Area would require an ECHA issued authorization after the sunset date of January 4, 2021. In search of possible replacements for Triton X‐100, we discovered that polysorbate 80 (PS80) in absence of any solvents was able to effectively inactive enveloped viruses such as xenotropic murine leukemia virus and pseudorabies virus with comparable efficacy as measured by log reduction factors. Interestingly, PS80 did not show any virucidal activities in phosphate buffered saline (PBS) while achieving robust virus inactivation in cell‐free Chinese hamster ovary (CHO) bioreactor harvests. This intriguing observation led us to speculate that virus inactivation by PS80 involved components in the cell‐free CHO bioreactor harvests that were absent in PBS. Specifically, we hypothesized that esterase and/or lipases in the cell‐free bioreactor harvests hydrolyzed PS80 to yield oleic acid, a known potent virucidal agent, which in turn inactivated viruses. This theory was confirmed using purified recombinant lysosomal phospholipase A2 isomer (rLPLA2) in PBS. Subsequent characterization work has indicated that virus inactivation by PS80 is effective and robust within temperature and concentration ranges comparable to those of Triton X‐100. Similar to Triton X‐100, virus inactivation by PS80 is dually dependent on treatment time and temperature. Unlike Triton X‐100, PS80 inactivation does not correlate with concentrations in a simple manner. Additionally, we have demonstrated that PS20 exhibits similar virus inactivation activities as PS80. Based on the findings described in the current work, we believe that PS80 is potentially a viable replacement for Triton X‐100 and can be used in manufacturing processes for wide spectrum of biopharmaceuticals to achieve desirable virus clearance. Finally, the advantages and disadvantages of using PS80 for virus inactivation are discussed in the contexts of GMP manufacturing. [ABSTRACT FROM AUTHOR]

Published

2020

136. PSGL-1 restricts HIV-1 infectivity by blocking virus particle attachment to target cells.

Author

Yajing Fu, He, Sijia, Waheed, Abdul A., Dabbagh, Deemah, Zheng Zhou, Trinité, Benjamin, Zhao Wang, Jieshi Yu, Dan Wang, Feng Li, Levy, David N., Hong Shang, Freed, Eric O., and Yuntao Wu

Subjects

*MOUSE leukemia viruses, *P-selectin glycoprotein ligand-1, *VESICULAR stomatitis, *INFLUENZA viruses, *VIRUSES

Abstract

P-selectin glycoprotein ligand-1 (PSGL-1) is a dimeric, mucin-like, 120-kDa glycoprotein that binds to P-, E-, and L-selectins. PSGL-1 is expressed primarily on the surface of lymphoid and myeloid cells and is up-regulated during inflammation to mediate leukocyte tethering and rolling on the surface of endothelium for migration into inflamed tissues. Although it has been reported that PSGL-1 expression inhibits HIV-1 replication, the mechanism of PSGL-1– mediated anti-HIV activity remains to be elucidated. Here we report that PSGL-1 in virions blocks the infectivity of HIV-1 particles by preventing the binding of particles to target cells. This inhibitory activity is independent of the viral glycoprotein present on the virus particle; the binding of particles bearing the HIV-1 envelope glycoprotein or vesicular stomatitis virus G glycoprotein or even lacking a viral glycoprotein is impaired by PSGL-1. Mapping studies show that the extracellular N-terminal domain of PSGL-1 is necessary for its anti–HIV-1 activity, and that the PSGL-1 cytoplasmic tail contributes to inhibition. In addition, we demonstrate that the PSGL-1–related monomeric E-selectin–binding glycoprotein CD43 also effectively blocks HIV-1 infectivity. HIV-1 infection, or expression of either Vpu or Nef, down-regulates PSGL-1 from the cell surface; expression of Vpu appears to be primarily responsible for enabling the virus to partially escape PSGL-1–mediated restriction. Finally, we show that PSGL-1 inhibits the infectivity of other viruses, such as murine leukemia virus and influenza A virus. These findings demonstrate that PSGL-1 is a broad-spectrum antiviral host factor with a unique mechanism of action. [ABSTRACT FROM AUTHOR]

Published

2020

137. Multifaceted Roles of TIM-Family Proteins in Virus–Host Interactions.

Author

Evans, John P. and Liu, Shan-Lu

Subjects

*HOST-virus relationships, *EQUINE infectious anemia, *PROTEIN-protein interactions, *MOUSE leukemia viruses, *NEGATIVE regulatory factor, *PATHOLOGY

Abstract

To enhance infection, enveloped viruses exploit adhesion molecules expressed on the surface of host cells. Specifically, phosphatidylserine (PS) receptors – including members of the human T cell immunoglobulin and mucin domain (TIM)-family – have gained attention for their ability to mediate the entry of many enveloped viruses. However, recent evidence that TIM-1 can restrict viral release reveals a new role for these PS receptors. Additionally, viral factors such as the HIV-1 accessory protein Nef can antagonize this antiviral activity of TIM-1 while host restriction factors such as SERINC5 can enhance it. In this review, we examine the various roles of PS receptors, specifically TIM-family proteins, and the intricate relationship between host and viral factors. Elucidating the multifunctional roles of PS receptors in virus–host interaction is important for understanding viral pathogenesis and developing novel antiviral therapeutics. Many PS receptors serve as cofactors for viral entry. Some PS receptors, such as TIM-1, Axl, and RAGE, restrict viral release. HIV Nef, murine leukemia virus (MLV) glycoGag, and equine infectious anemia virus (EIAV) S2 antagonize TIM-mediated inhibition of viral release, in part through SERINCs. SERINCs potentiate TIM-mediated block of HIV release by stabilizing TIMs. The functional interplay between TIM, SERINC, and Nef may play a role in HIV pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2020

138. Guinea pig transferrin receptor 1 mediates cellular entry of Junín virus and other pathogenic New World arenaviruses.

Author

Hickerson, Brady T., Westover, Jonna B., Zhongde Wang, Young-Min Lee, and Gowen, Brian B.

Subjects

*TRANSFERRIN, *GUINEA pigs, *TRANSFERRIN receptors, *PATHOGENIC viruses, *MOUSE leukemia viruses, *ARENAVIRUSES

Abstract

Several clade B New World arenaviruses (NWAs) can cause severe and often fatal hemorrhagic fever, for which preventive and therapeutic measures are severely limited. These NWAs use human transferrin receptor 1 (hTfR1) as a host cell receptor for virus entry. The most prevalent of the pathogenic NWAs is Junín virus (JUNV), the etiological agent of Argentine hemorrhagic fever. Small animal models of JUNV infection are limited because most laboratory rodent species are refractory to disease. Only guinea pigs are known to develop disease following JUNV infection, but the underlying mechanisms are not well characterized. In the present study, we demonstrate marked susceptibility of Hartley guinea pigs to uniformly lethal disease when challenged with as few as 4 plaque-forming units of the Romero strain of JUNV. In vitro, we show that infection of primary guinea pig macrophages results in greater JUNV replication compared to infection of hamster or mouse macrophages. We provide evidence that the guinea pig TfR1 (gpTfR1) is the principal receptor for JUNV, while hamster and mouse orthologs fail to support viral entry/infection of pseudotyped murine leukemia viruses expressing pathogenic NWA glycoproteins or JUNV. Together, our results indicate that gpTfR1 serves as the primary receptor for pathogenic NWAs, enhancing viral infection in guinea pigs. [ABSTRACT FROM AUTHOR]

Published

2020

139. Virus expression detection reveals RNA-sequencing contamination in TCGA.

Author

Selitsky, Sara R., Marron, David, Hollern, Daniel, Mose, Lisle E., Hoadley, Katherine A., Jones, Corbin, Parker, Joel S., Dittmer, Dirk P., and Perou, Charles M.

Subjects

*MOUSE leukemia viruses, *CELL lines, *HELA cells, *VIRUSES, *MOLECULAR biology, *HTLV

Abstract

Background: Contamination of reagents and cross contamination across samples is a long-recognized issue in molecular biology laboratories. While often innocuous, contamination can lead to inaccurate results. Cantalupo et al., for example, found HeLa-derived human papillomavirus 18 (H-HPV18) in several of The Cancer Genome Atlas (TCGA) RNA-sequencing samples. This work motivated us to assess a greater number of samples and determine the origin of possible contaminations using viral sequences. To detect viruses with high specificity, we developed the publicly available workflow, VirDetect, that detects virus and laboratory vector sequences in RNA-seq samples. We applied VirDetect to 9143 RNA-seq samples sequenced at one TCGA sequencing center (28/33 cancer types) over 5 years. Results: We confirmed that H-HPV18 was present in many samples and determined that viral transcripts from H-HPV18 significantly co-occurred with those from xenotropic mouse leukemia virus-related virus (XMRV). Using laboratory metadata and viral transcription, we determined that the likely contaminant was a pool of cell lines known as the "common reference", which was sequenced alongside TCGA RNA-seq samples as a control to monitor quality across technology transitions (i.e. microarray to GAII to HiSeq), and to link RNA-seq to previous generation microarrays that standardly used the "common reference". One of the cell lines in the pool was a laboratory isolate of MCF-7, which we discovered was infected with XMRV; another constituent of the pool was likely HeLa cells. Conclusions: Altogether, this indicates a multi-step contamination process. First, MCF-7 was infected with an XMRV. Second, this infected cell line was added to a pool of cell lines, which contained HeLa. Finally, RNA from this pool of cell lines contaminated several TCGA tumor samples most-likely during library construction. Thus, these human tumors with H-HPV or XMRV reads were likely not infected with H-HPV 18 or XMRV. [ABSTRACT FROM AUTHOR]

Published

2020

140. Intact Viral Particle Counts Measured by Flow Virometry Provide Insight into the Infectivity and Genome Packaging Efficiency of Moloney Murine Leukemia Virus.

Author

Renner, Tyler Milston, Tang, Vera A., Burger, Dylan, and Langlois, Marc-André

Subjects

*MOUSE leukemia viruses, *EXTRACELLULAR vesicles, *HTLV, *VIRAL proteins, *VIRAL envelopes, *VIRAL genomes

Abstract

Murine leukemia viruses (MLVs) have long been used as a research model to further our understanding of retroviruses. These simple gammaretroviruses have been studied extensively in various facets of science for nearly half a century, yet we have surprisingly little quantitative information about some of the basic features of these viral particles. These include parameters such as the genome packaging efficiency and the number of particles required for a productive infection. The reason for this knowledge gap relies primarily on the technical challenge of accurately measuring intact viral particles from infected cell supernatants. Virus-infected cells are well known to release soluble viral proteins, defective viruses, and extracellular vesicles (EVs) harboring viral proteins that may mimic viruses, all of which can skew virus titer quantifications. Flow virometry, also known as nanoscale flow cytometry or simply small-particle flow cytometry, is an emerging analytical method enabling high-throughput single-virus phenotypic characterizations. By utilizing the viral envelope glycoprotein (Env) and monodisperse light scattering characteristics as discerning parameters of intact virus particles, here, we analyzed the basic properties of Moloney MLV (M-MLV). We show that <24% of the total p30 capsid protein measured in infected cell supernatants is associated with intact viruses. We calculate that about one in five M-MLV particles contains a viral RNA genome pair and that individual intact particle infectivity is about 0.4%. These findings provide new insights into the characteristics of an extensively studied prototypical retrovirus while highlighting the benefits of flow virometry for the field of virology. [ABSTRACT FROM AUTHOR]

Published

2020

141. HIV-1 Matrix Trimerization-Impaired Mutants Are Rescued by Matrix Substitutions That Enhance Envelope Glycoprotein Incorporation.

Author

Tedbury, Philip R., Novikova, Mariia, Alfadhli, Ayna, Hikichi, Yuta, Kagiampakis, Ioannis, KewalRamani, Vineet N., Barklis, Eric, and Freed, Eric O.

Subjects

*VIRAL envelope proteins, *MOUSE leukemia viruses, *VIRAL envelopes, *MEMBRANE proteins, *VIRAL proteins

Abstract

The matrix (MA) domain of HIV-1 Gag plays key roles in virus assembly by targeting the Gag precursor to the plasma membrane and directing the incorporation of the viral envelope (Env) glycoprotein into virions. The latter function appears to be in part dependent on trimerization of the MA domain of Gag during assembly, as disruption of the MA trimer interface impairs Env incorporation. Conversely, many MA mutations that impair Env incorporation can be rescued by compensatory mutations in the trimer interface. In this study, we sought to investigate further the biological significance of MA trimerization by isolating and characterizing compensatory mutations that rescue MA trimer interface mutants with severely impaired Env incorporation. By serially propagating MA trimerization-defective mutants in T cell lines, we identified a number of changes in MA, both within and distant from the trimer interface. The compensatory mutations located within or near the trimer interface restored Env incorporation and particle infectivity and permitted replication in culture. The structure of the MA lattice was interrogated by measuring the cleavage of the murine leukemia virus (MLV) transmembrane Env protein by the viral protease in MLV Env-pseudotyped HIV-1 particles bearing the MA mutations and by performing crystallographic studies of in vitro-assembled MA lattices. These results demonstrate that rescue is associated with structural alterations in MA organization and rescue of MA domain trimer formation. Our data highlight the significance of the trimer interface of the MA domain of Gag as a critical site of protein-protein interaction during HIV-1 assembly and establish the functional importance of trimeric MA for Env incorporation. [ABSTRACT FROM AUTHOR]

Published

2020

142. Biological evaluation of carbazoyl hydrazine derivatives as potential Pim-1 kinase inhibitors for the treatment of human liver cancer.

Author

Chen, Chong-Hao, Xu, Meng-Jia, Zheng, Qi, Li, Dong-Dong, Cheng, Li, Sun, Juan, and Wu, Zi-Miao

Subjects

*LIVER cancer, *KINASE inhibitors, *HYDRAZINE derivatives, *MOUSE leukemia viruses, *LIVER cells, *LEAD compounds

Abstract

• Our study provides valuable insights into the anticancer activity of novel carbazoyl hydrazine derivatives as Pim-1 inhibitors in liver cancer cells. • Molecular docking studies were performed to evaluate the putative bonding mode of the synthesized compounds (4a-4 s). • Lead compound 4r demonstrates promising potential for further exploration and development in future studies for liver cancer treatment. In this study, we investigated the anticancer activity of novel carbazoyl hydrazine derivatives as inhibitors of Proviral Integration site for Moloney murine leukemia virus kinase 1 (Pim-1) in liver cancer cells in vitro. The obtained compounds were characterized using 1H NMR, 13C NMR, HRMS, and FTIR. Through computer-assisted screening, antitumor activity testing, and Pim-1 inhibitory activity testing, most of the compounds exhibited significant inhibitory activity against liver cancer cell lines. Among them, compound N'-(2-(9H-carbazol-9-yl)acetyl)-4-fluorobenzohydrazide (4r) demonstrated a remarkable anticancer effect by inducing G2/M phase cell cycle arrest and apoptosis. It was identified as a highly efficient lead compound in our screening process. Overall, our study provides valuable insights into the anticancer activity of novel carbazoyl hydrazine derivatives as Pim-1 inhibitors in liver cancer cells. The identified lead compound 4r demonstrates promising potential for further exploration and development in future studies for liver cancer treatment. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

143. A synthetic thiol molecule releasing N-acetyl-l-cysteine and cysteamine drives early up-regulation of immunoproteasome subunits in the lymph nodes of mice infected with LP-BM5 leukemia retrovirus.

Author

Crinelli, Rita, Monittola, Francesca, Masini, Sofia, Diotallevi, Aurora, Bartoccini, Francesca, Smietana, Michaël, Galluzzi, Luca, Magnani, Mauro, and Fraternale, Alessandra

Subjects

*LYMPH nodes, *MOUSE leukemia viruses, *LIFE cycles (Biology), *CYSTEAMINE, *VIRUS diseases

Abstract

Thiol molecules have been recently re-considered as drug candidates in viral infections because of their ability to induce redox changes which interfere with virus life cycle and modulate the host immune response. Little is known about the molecular mechanisms of their immunomodulatory properties. Here we show that I-152, a thiol molecule metabolized to release N -acetyl- l -cysteine and cysteamine and acting as a pro-glutathione agent, causes early up-regulation of immunoproteasome subunits in the lymph nodes of murine leukemia virus infected mice. This evidence suggests that the immunoproteasome may be modulated by thiol-based compounds with important implications in understanding redox-controlled immunoregulation. [ABSTRACT FROM AUTHOR]

Published

2024

144. Show your cap or be packaged into HIV-1.

Author

Levin, Judith G. and Rein, Alan

Subjects

*HIV, *MOUSE leukemia viruses, *PALINDROMIC DNA, *VACCINE manufacturing

Published

2021

145. The role of macrophage scavenger receptors in host defence : studies in normal and genetically deficient murine models

Author

Haworth, Richard Ian

Subjects

616.079, Macrophages, Receptors, Molecular immunology, Mouse leukemia viruses

Abstract

Macrophage scavenger receptors (SR) have been studied primarily for their potential involvement in atherogenesis. However, these receptors have broad ligand binding specificity. This thesis examines expression and function of two of these molecules, scavenger receptor tyoe-A (SR-A) and Marco, and investigates a potential role for these molecules in host defence.

Published

1997

146. Mouse APOBEC3 interferes with autocatalytic cleavage of murine leukemia virus Pr180gag-pol precursor and inhibits Pr65gag processing.

Author

Hakata, Yoshiyuki, Li, Jun, Fujino, Takahiro, Tanaka, Yuki, Shimizu, Rie, and Miyazawa, Masaaki

Subjects

*MOUSE leukemia viruses, *REVERSE transcriptase, *GAG proteins, *VIRUS-induced enzymes, *CYTIDINE deaminase, *MICE

Abstract

Mouse APOBEC3 (mA3) inhibits murine leukemia virus (MuLV) replication by a deamination-independent mechanism in which the reverse transcription is considered the main target process. However, other steps in virus replication that can be targeted by mA3 have not been examined. We have investigated the possible effect of mA3 on MuLV protease-mediated processes and found that mA3 binds both mature viral protease and Pr180gag-pol precursor polyprotein. Using replication-competent MuLVs, we also show that mA3 inhibits the processing of Pr65 Gag precursor. Furthermore, we demonstrate that the autoprocessing of Pr180gag-pol is impeded by mA3, resulting in reduced production of mature viral protease. This reduction appears to link with the above inefficient Pr65gag processing in the presence of mA3. Two major isoforms of mA3, exon 5-containing and -lacking ones, equally exhibit this antiviral activity. Importantly, physiologically expressed levels of mA3 impedes both Pr180gag-pol autocatalysis and Pr65gag processing. This blockade is independent of the deaminase activity and requires the C-terminal region of mA3. These results suggest that the above impairment of Pr180gag-pol autoprocessing may significantly contribute to the deaminase-independent antiretroviral activity exerted by mA3. Author summary: Soon after the identification of the polynucleotide cytidine deaminase APOBEC3 as a host restriction factor against vif-deficient HIV, it was noticed that deamination-independent mechanisms are involved in the inhibition of viral replication in addition to the deaminase-dependent mechanism. We previously showed that mouse APOBEC3 (mA3) physiologically restricted mouse retrovirus replication in their natural hosts without causing significant G-to-A hypermutations. Inhibition of reverse transcription is reported to be the most plausible mechanism for the deamination-independent antiretroviral function. However, it remains unknown whether the inhibition of reverse transcription is the only way to explain the whole picture of deamination-independent antiviral activity exerted by APOBEC3. Here we show that mA3 targets the autoprocessing of Pr180gag-pol polyprotein. This activity does not require the deaminase catalytic center and mainly exerted by the C-terminal half of mA3. mA3 physically interacts with murine retroviral protease and its precursor Pr180gag-pol. mA3-induced disruption of the autocatalytic Pr180gag-pol cleavage leads to a significant reduction of mature viral protease, resulting in the inhibition of Pr65gag processing to mature Gag proteins. As the Pr180gag-pol autoprocessing is necessary for the maturation of other viral enzymes including the reverse transcriptase, its inhibition by host APOBEC3 may precede the previously described impairment of reverse transcription. Our discovery may lead to the development of novel antiretroviral drugs through the future identification of detailed molecular interfaces between retroviral Gag-Pol polyprotein and APOBEC3. [ABSTRACT FROM AUTHOR]

Published

2019

147. Disrupting MLV integrase:BET protein interaction biases integration into quiescent chromatin and delays but does not eliminate tumor activation in a MYC/Runx2 mouse model.

Author

Loyola, Lorenz, Achuthan, Vasudevan, Gilroy, Kathryn, Borland, Gillian, Kilbey, Anna, Mackay, Nancy, Bell, Margaret, Hay, Jodie, Aiyer, Sriram, Fingerman, Dylan, Villanueva, Rodrigo A., Cameron, Ewan, Kozak, Christine A., Engelman, Alan N., Neil, James, and Roth, Monica J.

Subjects

*PROTEIN-protein interactions, *GENE enhancers, *MOUSE leukemia viruses, *CHROMATIN, *MICE, *CANCER genes, *GENETIC recombination

Abstract

Murine leukemia virus (MLV) integrase (IN) lacking the C-terminal tail peptide (TP) loses its interaction with the host bromodomain and extraterminal (BET) proteins and displays decreased integration at promoter/enhancers and transcriptional start sites/CpG islands. MLV lacking the IN TP via an altered open reading frame was used to infect tumorigenesis mouse model (MYC/Runx2) animals to observe integration patterns and phenotypic effects, but viral passage resulted in the restoration of the IN TP through small deletions. Mice subsequently infected with an MLV IN lacking the TP coding sequence (TP-) showed an improved median survival by 15 days compared to wild type (WT) MLV infection. Recombination with polytropic endogenous retrovirus (ERV), Pmv20, was identified in seven mice displaying both fast and slow tumorigenesis, highlighting the strong selection within the mouse to maintain the full-length IN protein. Mapping the genomic locations of MLV in tumors from an infected mouse with no observed recombination with ERVs, TP-16, showed fewer integrations at TSS and CpG islands, compared to integrations observed in WT tumors. However, this mouse succumbed to the tumor in relatively rapid fashion (34 days). Analysis of the top copy number integrants in the TP-16 tumor revealed their proximity to known MLV common insertion sites genes while maintaining the MLV IN TP- genotype. Furthermore, integration mapping in K562 cells revealed an insertion preference of MLV IN TP- within chromatin profile states associated with weakly transcribed heterochromatin with fewer integrations at histone marks associated with BET proteins (H3K4me1/2/3, and H3K27Ac). While MLV IN TP- showed a decreased overall rate of tumorigenesis compared to WT virus in the MYC/Runx2 model, MLV integration still occurred at regions associated with oncogenic driver genes independently from the influence of BET proteins, either stochastically or through trans-complementation by functional endogenous Gag-Pol protein. Author summary: Many different retroviruses, including murine leukemia virus (MLV), are used as vectors for human gene therapy and cancer immunotherapies (CAR-T) because of their stable and efficient delivery of genetic material into the host DNA. However, this process can result in activation and/or disruption of cellular genes, which has resulted in the outgrowth of tumors in previous clinical trials. Of critical importance is the preferred location within the host genome at which the retrovirus integrates. Our study presents a modified MLV virus that has lost the ability to bind to the host BET proteins, the drivers of insertion at promoter/enhancer regions of highly activated genes. This is the first direct study within an animal model to examine whether infection with this type of modified MLV virus affects tumor progression. We found that the modified virus improved the survival of the well-characterized MYC/Runx2 mouse compared to infections with the wild-type MLV. Most modified viral integrants mapped into less active regions of the genome, but some integration events still occurred near cancer-related genes. Thus, while the modified MLV virus can be a safer vector than the wildtype virus, it still maintains the potential to activate oncogenes. This study provides new insights on how to improve the safety of MLV retroviral vectors. [ABSTRACT FROM AUTHOR]

Published

2019

148. Non-templated addition and template switching by Moloney murine leukemia virus (MMLV)-based reverse transcriptases co-occur and compete with each other.

Author

Wulf, Madalee G., Maguire, Sean, Humbert, Paul, Dai, Nan, Yanxia Bei, Nichols, Nicole M., Corrêa Jr., Ivan R., and Shengxi Guan

Subjects

*MOUSE leukemia viruses, *GENETIC regulation, *REVERSE transcriptase

Abstract

Single-cell RNA-Seq (scRNA-Seq) has led to an unprecedented understanding of gene expression and regulation in individual cells. Many scRNA-Seq approaches rely upon the template switching property of Moloney murine leukemia virus (MMLV)-type reverse transcriptases. Template switching is believed to happen in a sequential process involving nontemplated addition of three protruding nucleotides (+CCC) to the 3'-end of the nascent cDNA, which can then anneal to the matching rGrGrG 3'-end of the template-switching oligo (TSO), allowing the reverse transcriptase (RT) to switch templates and continue copying the TSO sequence. In this study, we present a detailed analysis of template switching biases with respect to the RNAtemplate, specifically of the role of the sequence and nature of its 5'-end (capped versus noncapped) in these biases. Our findings confirmed that the presence of a 5'-m7G cap enhances template switching efficiency. We also profiled the composition of the nontemplated addition in the absence of TSO and observed that the 5'-end ofRNAtemplate influences the terminal transferase activity of the RT. Furthermore, we found that designing new TSOs that pair with the most common nontemplated additions did little to improve template switching efficiency. Our results provide evidence suggesting that, in contrast to the current understanding of the template switching process, nontemplated addition and template switching are concurrent and competing processes. [ABSTRACT FROM AUTHOR]

Published

2019

149. Unintegrated HIV-1 DNAs are loaded with core and linker histones and transcriptionally silenced.

Author

Geis, Franziska K. and Goff, Stephen P.

Subjects

*EXTRACHROMOSOMAL DNA, *HISTONES, *DNA, *MOUSE leukemia viruses, *CELL nuclei

Abstract

Upon delivery into the nucleus of the host cell, linear double-stranded retroviral DNAs are either integrated into the host genome to form the provirus or act as a target of the DNA damage response and become circularized. Little is known about the chromatinization status of the unintegrated retroviral DNAs of the human immuno-deficiency virus type 1 (HIV-1). In this study, we used chromatin immunoprecipitation to investigate the nature of unintegrated HIV-1 DNAs and discovered that core histones, the histone variant H3.3, and H1 linker histones are all deposited onto extrachromosomal HIV-1 DNA. We performed a time-course analysis and determined that the loading of core and linker histones occurred early after virus application. H3.3 and H1 linker histones were also found to be loaded onto unintegrated DNAs of the Moloney murine leukemia virus. The unintegrated retroviral DNAs are potently silenced, and we provide evidence that the suppression of extrachromosomal HIV-1 DNA is histone-related. Unintegrated DNAs were marked by posttranslational histone modifications characteristic of transcriptionally inactive genes: high levels of H3K9 trimethylation and low levels of H3 acetylation. These findings reveal insights into the nature of unintegrated retroviral DNAs. [ABSTRACT FROM AUTHOR]

Published

2019

150. Murine Leukemia Virus Exploits Innate Sensing by Toll-Like Receptor 7 in B-1 Cells To Establish Infection and Locally Spread in Mice.

Author

Ruoxi Pi, Akiko Iwasaki, Sewald, Xaver, Mothes, Walther, and Uchil, Pradeep D.

Subjects

*MOUSE leukemia viruses, *TOLL-like receptors, *TYPE I interferons, *MICE, *CELL populations, *INTERFERON receptors

Abstract

Lymph-borne Friend murine leukemia virus (FrMLV) exploits the sentinel macrophages in the draining popliteal lymph node (pLN) to infect highly permissive innate-like B-1 cells and establish infection in mice. The reason for FrMLV sensitivity of B-1 cells and their impact on viral spread is unknown. Here we demonstrate that Toll-like receptor 7 (TLR7) sensing and type I interferon (IFN-I) signaling in B-1 cells contribute to FrMLV susceptibility. FrMLV infection in B-1 cell-deficient mice (bumble; IBNS dysfunctional) was significantly lower than that in the wild-type mice and was rescued by adoptive transfer of wild-type B-1 cells. This rescue of FrMLV infection in bumble mice was dependent on intact TLR7 sensing and IFN-I signaling within B-1 cells. Analyses of infected cell types revealed that the reduced infection in bumble mice was due predominantly to compromised virus spread to the B-2 cell population. Our data reveal how FrMLV exploits innate immune sensing and activation in the B-1 cell population for infection and subsequent spread to other lymphocytes. [ABSTRACT FROM AUTHOR]

Published

2019