Your search keyword '"Viral Tropism"' showing total 185 results

1. Sarbecovirus RBD indels and specific residues dictating multi-species ACE2 adaptiveness.

Author

Si, Jun-Yu, Chen, Yuan-Mei, Sun, Ye-Hui, Gu, Meng-Xue, Huang, Mei-Ling, Shi, Lu-Lu, Yu, Xiao, Yang, Xiao, Xiong, Qing, Ma, Cheng-Bao, Liu, Peng, Shi, Zheng-Li, and Yan, Huan

Subjects

ANGIOTENSIN converting enzyme, GLYCOPROTEINS, TROPISMS, VIRAL tropism, BATS

Abstract

Our comprehensive understanding of the multi-species ACE2 adaptiveness of sarbecoviruses remains elusive, particularly for those with various receptor binding motif (RBM) insertions/deletions (indels). Here, we analyzed RBM sequences from 268 sarbecoviruses categorized into four RBM indel types. We examined the ability of 20 representative sarbecovirus Spike glycoproteins (S) and derivatives in utilizing ACE2 from various bats and several other mammalian species. We reveal that sarbecoviruses with long RBMs (type-I) can achieve broad ACE2 tropism, whereas viruses with single deletions in Region 1 (type-II) or Region 2 (type-III) exhibit narrower ACE2 tropism. Sarbecoviruses with double region deletions (type-IV) completely lost ACE2 usage, which is restricted by clade-specific residues within and outside RBM. Lastly, we propose the evolution of sarbecovirus RBM indels and illustrate how loop lengths, disulfide, and residue determinants shape multi-species ACE2 adaptiveness. This study provides profound insights into the mechanisms governing ACE2 usage and spillover risks of sarbecoviruses. To understand why sarbecoviruses display different abilities in using ACE2 from various species, the authors investigate the ACE2 orthologue tropism of these viruses and elucidate how they have evolved along three distinct paths through RBD indels and specific residues. [ABSTRACT FROM AUTHOR]

Published

2024

2. A basally active cGAS-STING pathway limits SARS-CoV-2 replication in a subset of ACE2 positive airway cell models.

Author

Puray-Chavez, Maritza, Eschbach, Jenna E., Xia, Ming, LaPak, Kyle M., Zhou, Qianzi, Jasuja, Ria, Pan, Jiehong, Xu, Jian, Zhou, Zixiang, Mohammed, Shawn, Wang, Qibo, Lawson, Dana Q., Djokic, Sanja, Hou, Gaopeng, Ding, Siyuan, Brody, Steven L., Major, Michael B., Goldfarb, Dennis, and Kutluay, Sebla B.

Subjects

CELL receptors, MITOCHONDRIAL DNA, ANGIOTENSIN converting enzyme, SARS-CoV-2, CELL lines, VIRAL tropism

Abstract

Host factors that define the cellular tropism of SARS-CoV-2 beyond the cognate ACE2 receptor are poorly defined. Here we report that SARS-CoV-2 replication is restricted at a post-entry step in a number of ACE2-positive airway-derived cell lines due to tonic activation of the cGAS-STING pathway mediated by mitochondrial DNA leakage and naturally occurring cGAS and STING variants. Genetic and pharmacological inhibition of the cGAS-STING and type I/III IFN pathways as well as ACE2 overexpression overcome these blocks. SARS-CoV-2 replication in STING knockout cell lines and primary airway cultures induces ISG expression but only in uninfected bystander cells, demonstrating efficient antagonism of the type I/III IFN-pathway in productively infected cells. Pharmacological inhibition of STING in primary airway cells enhances SARS-CoV-2 replication and reduces virus-induced innate immune activation. Together, our study highlights that tonic activation of the cGAS-STING and IFN pathways can impact SARS-CoV-2 cellular tropism in a manner dependent on ACE2 expression levels. Factors that determine the cellular tropism of SARS-CoV-2 beyond the host cell receptor, ACE2, are poorly defined. Here, the authors show that tonic activation of the cGAS-STING sensing pathway potently blocks SARS-CoV-2 replication in a subset of ACE2-expressing airway-derived cells. [ABSTRACT FROM AUTHOR]

Published

2024

3. A root cap-localized NAC transcription factor controls root halotropic response to salt stress in Arabidopsis.

Author

Zheng, Lulu, Hu, Yongfeng, Yang, Tianzhao, Wang, Zhen, Wang, Daoyuan, Jia, Letian, Xie, Yuanming, Luo, Long, Qi, Weicong, Lv, Yuanda, Beeckman, Tom, Xuan, Wei, and Han, Yi

Subjects

TRANSCRIPTION factors, ROOT growth, GENE expression, STEM cells, AUXIN, VIRAL tropism

Abstract

Plants are capable of altering root growth direction to curtail exposure to a saline environment (termed halotropism). The root cap that surrounds root tip meristematic stem cells plays crucial roles in perceiving and responding to environmental stimuli. However, how the root cap mediates root halotropism remains undetermined. Here, we identified a root cap-localized NAC transcription factor, SOMBRERO (SMB), that is required for root halotropism. Its effect on root halotropism is attributable to the establishment of asymmetric auxin distribution in the lateral root cap (LRC) rather than to the alteration of cellular sodium equilibrium or amyloplast statoliths. Furthermore, SMB is essential for basal expression of the auxin influx carrier gene AUX1 in LRC and for auxin redistribution in a spatiotemporally-regulated manner, thereby leading to directional bending of roots away from higher salinity. Our findings uncover an SMB-AUX1-auxin module linking the role of the root cap to the activation of root halotropism. This study reports that the SOMBRERO, a root cap-localized transcription factor, determines root halotropic response to salt stress via spatiotemporally modulating AUX1-depdenent auxin redistribution in the root tip. [ABSTRACT FROM AUTHOR]

Published

2024

4. The inoculum dose of Zika virus can affect the viral replication dynamics, cytokine responses and survival rate in immunocompromised AG129 mice.

Author

Yan, Yuhuan, Yang, Hao, Yang, Yun, Wang, Junbin, Zhou, Yanan, Tang, Cong, Li, Bai, Huang, Qing, An, Ran, Liang, Xiaoming, Lin, Dongdong, Yu, Wenhai, Fan, Changfa, and Lu, Shuaiyao

Subjects

ZIKA virus infections, ZIKA virus, VIRAL tropism, SURVIVAL rate, VIRAL replication

Abstract

Zika virus, a mosquito-borne arbovirus, has repeatedly caused large pandemics with symptoms worsening from mild and self-limiting diseases to Guillain–Barré syndrome in adults and fetal microcephaly in newborns. In recent years, Zika virus diseases have posed a serious threat to human health. The shortage of susceptible small animal models makes it difficult to study pathogenic mechanisms and evaluate potential therapies for Zika virus infection. Therefore, we chose immunocompromised mice (AG129 mice) deficient in IFN-α/β and IFN-γ receptors, which can abolish the innate immune system that prevents Zika virus infection early. AG129 mice were infected with the Zika virus, and this mouse model exhibited replication dynamics, tissue tropism, pathological lesion and immune activation of the Zika virus. Our results suggest that the inoculum dose of Zika virus can affect the viral replication dynamics, cytokine responses and survival rate in AG129 mice. By testing the potential antiviral drug favipiravir, several critical indicators, including replication dynamics and survival rates, were identified in AG129 mice after Zika virus infection. It is suggested that the model is reliable for drug evaluation. In brief, this model provides a potential platform for studies of the infectivity, virulence, and pathogenesis of the Zika virus. Moreover, the development of an accessible mouse model of Zika virus infection will expedite the research and deployment of therapeutics and vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

5. Influence of AAV vector tropism on long-term expression and Fc-γ receptor binding of an antibody targeting SARS-CoV-2.

Author

Wagner, Jannik T., Müller-Schmucker, Sandra M., Wang, Wenjun, Arnold, Philipp, Uhlig, Nadja, Issmail, Leila, Eberlein, Valentina, Damm, Dominik, Roshanbinfar, Kaveh, Ensser, Armin, Oltmanns, Friederike, Peter, Antonia Sophia, Temchura, Vladimir, Schrödel, Silke, Engel, Felix B., Thirion, Christian, Grunwald, Thomas, Wuhrer, Manfred, Grimm, Dirk, and Überla, Klaus

Subjects

*RECEPTOR antibodies, *VIRAL tropism, *SARS-CoV-2, *MYOCARDIUM, *TROPISMS, *SKELETAL muscle, *MONOCLONAL antibodies

Abstract

Long-acting passive immunization strategies are needed to protect immunosuppressed vulnerable groups from infectious diseases. To further explore this concept for COVID-19, we constructed Adeno-associated viral (AAV) vectors encoding the human variable regions of the SARS-CoV-2 neutralizing antibody, TRES6, fused to murine constant regions. An optimized vector construct was packaged in hepatotropic (AAV8) or myotropic (AAVMYO) AAV capsids and injected intravenously into syngeneic TRIANNI-mice. The highest TRES6 serum concentrations (511 µg/ml) were detected 24 weeks after injection of the myotropic vector particles and mean TRES6 serum concentrations remained above 100 µg/ml for at least one year. Anti-drug antibodies or TRES6-specific T cells were not detectable. After injection of the AAV8 particles, vector mRNA was detected in the liver, while the AAVMYO particles led to high vector mRNA levels in the heart and skeletal muscle. The analysis of the Fc-glycosylation pattern of the TRES6 serum antibodies revealed critical differences between the capsids that coincided with different binding activities to murine Fc-γ-receptors. Concomitantly, the vector-based immune prophylaxis led to protection against SARS-CoV-2 infection in K18-hACE2 mice. High and long-lasting expression levels, absence of anti-drug antibodies and favourable Fc-γ-receptor binding activities warrant further exploration of myotropic AAV vector-based delivery of antibodies and other biologicals. This study compares a muscle-specific and a liver-specific AAV-vector capsid for the long-term delivery of a monoclonal antibody against SARS-CoV-2 in terms of longevity, protection against infection and influence on the glycosylation profile. [ABSTRACT FROM AUTHOR]

Published

2024

6. Evolution of STAT2 resistance to flavivirus NS5 occurred multiple times despite genetic constraints.

Author

Veit, Ethan C., Salim, Madihah S., Jung, Mariel J., Richardson, R. Blake, Boys, Ian N., Quinlan, Meghan, Barrall, Erika A., Bednarski, Eva, Hamilton, Rachael E., Kikawa, Caroline, Elde, Nels C., García-Sastre, Adolfo, and Evans, Matthew J.

Subjects

STAT proteins, TRANSCRIPTION factors, VIRAL nonstructural proteins, DENGUE viruses, FLAVIVIRUSES, VIRAL proteins, VIRAL tropism

Abstract

Zika and dengue virus nonstructural protein 5 antagonism of STAT2, a critical interferon signaling transcription factor, to suppress the host interferon response is required for viremia and pathogenesis in a vertebrate host. This affects viral species tropism, as mouse STAT2 resistance renders only immunocompromised or humanized STAT2 mice infectable. Here, we explore how STAT2 evolution impacts antagonism. By measuring the susceptibility of 38 diverse STAT2 proteins, we demonstrate that resistance arose numerous times in mammalian evolution. In four species, resistance requires distinct sets of multiple amino acid changes that often individually disrupt STAT2 signaling. This reflects an evolutionary ridge where progressive resistance is balanced by the need to maintain STAT2 function. Furthermore, resistance may come with a fitness cost, as resistance that arose early in lemur evolution was subsequently lost in some lemur lineages. These findings underscore that while it is possible to evolve resistance to antagonism, complex evolutionary trajectories are required to avoid detrimental host fitness consequences. Zika and Dengue virus non-structural protein 5 can antagonise STAT2 modulating the host response and this interaction is involved in determining tropism. Here the authors show mammals independently evolved resistance to flavivirus NS5 multiple times, involving complex genetic changes in STAT2 which balance viral defence whilst maintaining STAT2's critical functions. [ABSTRACT FROM AUTHOR]

Published

2024

7. Hyperbaric oxygen enhances tumor penetration and accumulation of engineered bacteria for synergistic photothermal immunotherapy.

Author

Xu, Ke-Fei, Wu, Shun-Yu, Wang, Zihao, Guo, Yuxin, Zhu, Ya-Xuan, Li, Chengcheng, Shan, Bai-Hui, Zhang, Xinping, Liu, Xiaoyang, and Wu, Fu-Gen

Subjects

IMMUNOTHERAPY, EXTRACELLULAR matrix, CANCER treatment, BACTERIA, CELL death, VIRAL tropism

Abstract

Bacteria-mediated cancer therapeutic strategies have attracted increasing interest due to their intrinsic tumor tropism. However, bacteria-based drugs face several challenges including the large size of bacteria and dense extracellular matrix, limiting their intratumoral delivery efficiency. In this study, we find that hyperbaric oxygen (HBO), a noninvasive therapeutic method, can effectively deplete the dense extracellular matrix and thus enhance the bacterial accumulation within tumors. Inspired by this finding, we modify Escherichia coli Nissle 1917 (EcN) with cypate molecules to yield EcN-cypate for photothermal therapy, which can subsequently induce immunogenic cell death (ICD). Importantly, HBO treatment significantly increases the intratumoral accumulation of EcN-cypate and facilitates the intratumoral infiltration of immune cells to realize desirable tumor eradication through photothermal therapy and ICD-induced immunotherapy. Our work provides a facile and noninvasive strategy to enhance the intratumoral delivery efficiency of natural/engineered bacteria, and may promote the clinical translation of bacteria-mediated synergistic cancer therapy. Delivering bacteria-based drug for cancer therapy is limited by their penetration into extracellular matrix (ECM). Here the authors report effective depletion of ECM with hyperbaric oxygen therapeutic strategy to enhance bacterial accumulation within tumors and to induce immunogenic cell death. [ABSTRACT FROM AUTHOR]

Published

2024

8. The low-density lipoprotein receptor and apolipoprotein E associated with CCHFV particles mediate CCHFV entry into cells.

Author

Ritter, Maureen, Canus, Lola, Gautam, Anupriya, Vallet, Thomas, Zhong, Li, Lalande, Alexandre, Boson, Bertrand, Gandhi, Apoorv, Bodoirat, Sergueï, Burlaud-Gaillard, Julien, Freitas, Natalia, Roingeard, Philippe, Barr, John N., Lotteau, Vincent, Legros, Vincent, Mathieu, Cyrille, Cosset, François-Loïc, and Denolly, Solène

Subjects

LIPOPROTEIN receptors, APOLIPOPROTEIN E, HEMORRHAGIC fever, HEMORRHAGIC diseases, RECEPTOR antibodies, GENE silencing, RABBIT diseases, VIRAL tropism

Abstract

The Crimean-Congo hemorrhagic fever virus (CCHFV) is an emerging pathogen of the Orthonairovirus genus that can cause severe and often lethal hemorrhagic diseases in humans. CCHFV has a broad tropism and can infect a variety of species and tissues. Here, by using gene silencing, blocking antibodies or soluble receptor fragments, we identify the low-density lipoprotein receptor (LDL-R) as a CCHFV entry factor. The LDL-R facilitates binding of CCHFV particles but does not allow entry of Hazara virus (HAZV), another member of the genus. In addition, we show that apolipoprotein E (apoE), an exchangeable protein that mediates LDL/LDL-R interaction, is incorporated on CCHFV particles, though not on HAZV particles, and enhances their specific infectivity by promoting an LDL-R dependent entry. Finally, we show that molecules that decrease LDL-R from the surface of target cells could inhibit CCHFV infection. Our study highlights that CCHFV takes advantage of a lipoprotein receptor and recruits its natural ligand to promote entry into cells. This study shows that Crimean-Congo hemorrhagic fever virus (CCHFV) recruits apoE, an exchangeable apolipoprotein that mediates LDL/LDL-R interaction, to promote virion entry via the LDLR. Molecules that down-regulate LDL-R inhibit CCHFV infection. [ABSTRACT FROM AUTHOR]

Published

2024

9. Enhancing in vivo cell and tissue targeting by modulation of polymer nanoparticles and macrophage decoys.

Author

Piotrowski-Daspit, Alexandra S., Bracaglia, Laura G., Eaton, David A., Richfield, Owen, Binns, Thomas C., Albert, Claire, Gould, Jared, Mortlock, Ryland D., Egan, Marie E., Pober, Jordan S., and Saltzman, W. Mark

Subjects

TARGETED drug delivery, NANOPARTICLES, MACROPHAGES, POLYMERS, SURFACE properties, NANOMEDICINE, VIRAL tropism

Abstract

The in vivo efficacy of polymeric nanoparticles (NPs) is dependent on their pharmacokinetics, including time in circulation and tissue tropism. Here we explore the structure-function relationships guiding physiological fate of a library of poly(amine-co-ester) (PACE) NPs with different compositions and surface properties. We find that circulation half-life as well as tissue and cell-type tropism is dependent on polymer chemistry, vehicle characteristics, dosing, and strategic co-administration of distribution modifiers, suggesting that physiological fate can be optimized by adjusting these parameters. Our high-throughput quantitative microscopy-based platform to measure the concentration of nanomedicines in the blood combined with detailed biodistribution assessments and pharmacokinetic modeling provides valuable insight into the dynamic in vivo behavior of these polymer NPs. Our results suggest that PACE NPs—and perhaps other NPs—can be designed with tunable properties to achieve desired tissue tropism for the in vivo delivery of nucleic acid therapeutics. These findings can guide the rational design of more effective nucleic acid delivery vehicles for in vivo applications. Targeted drug delivery in vivo is a complex challenge, and understanding the characteristics that define the behavior of delivery vehicles in vivo is vital for advancing delivery vehicle design. Here the authors use a library of polymeric delivery vehicles and high-throughput tools to study the structure-function relationships guiding the physiological fate of nanomedicines. [ABSTRACT FROM AUTHOR]

Published

2024

10. Genomic analysis of lumpy skin disease virus asian variants and evaluation of its cellular tropism.

Author

Xie, Shijie, Cui, Lianxin, Liao, Zhiyi, Zhu, Junda, Ren, Shuning, Niu, Kang, Li, Hua, Jiang, Fei, Wu, Jiajun, Wang, Jie, Wu, Jian, Song, Baifen, Wu, Wenxue, and Peng, Chen

Subjects

LUMPY skin disease, VIRAL tropism, GENOMICS, VIRUS diseases, TROPISMS, WHOLE genome sequencing

Abstract

Lumpy skin disease virus (LSDV) is a poxvirus that mainly affects cattle and can lead to symptoms such as severe reduction in milk production as well as infertility and mortality, which has resulted in dramatic economic loss in affected countries in Africa, Europe, and Asia. In this study, we successfully isolated two strains of LSDV from different geographical regions in China. Comparative genomic analyses were performed by incorporating additional LSDV whole genome sequences reported in other areas of Asia. Our analyses revealed that LSDV exhibited an 'open' pan-genome. Phylogenetic analysis unveiled distinct branches of LSDV evolution, signifying the prevalence of multiple lineages of LSDV across various regions in Asia. In addition, a reporter LSDV expressing eGFP directed by a synthetic poxvirus promoter was generated and used to evaluate the cell tropism of LSDV in various mammalian and avian cell lines. Our results demonstrated that LSDV replicated efficiently in several mammalian cell lines, including human A549 cells. In conclusion, our results underscore the necessity for strengthening LSD outbreak control measures and continuous epidemiological surveillance. [ABSTRACT FROM AUTHOR]

Published

2024

11. LDLR is used as a cell entry receptor by multiple alphaviruses.

Author

Zhai, Xiaofeng, Li, Xiaoling, Veit, Michael, Wang, Ningning, Wang, Yu, Merits, Andres, Jiang, Zhiwen, Qin, Yan, Zhang, Xiaoguang, Qi, Kaili, Jiao, Houqi, He, Wan-Ting, Chen, Ye, Mao, Yang, and Su, Shuo

Subjects

CELL receptors, VIRAL tropism, ALPHAVIRUSES, SEMLIKI Forest virus, LIPOPROTEIN receptors, CHIMERIC proteins

Abstract

Alphaviruses are arboviruses transmitted by mosquitoes and are pathogenic to humans and livestock, causing a substantial public health burden. So far, several receptors have been identified for alphavirus entry; however, they cannot explain the broad host range and tissue tropism of certain alphaviruses, such as Getah virus (GETV), indicating the existence of additional receptors. Here we identify the evolutionarily conserved low-density lipoprotein receptor (LDLR) as a new cell entry factor for GETV, Semliki Forest virus (SFV), Ross River virus (RRV) and Bebaru virus (BEBV). Ectopic expression of LDLR facilitates cellular binding and internalization of GETV, which is mediated by the interaction between the E2-E1 spike of GETV and the ligand-binding domain (LBD) of LDLR. Antibodies against LBD block GETV infection in cultured cells. In addition, the GST-LBD fusion protein inhibits GETV infection both in vitro and in vivo. Notably, we identify the key amino acids in LDLR-LBD that played a crucial role in viral entry; specific mutations in the CR4 and CR5 domain of LDLR-LBD reduce viral entry to cells by more than 20-fold. These findings suggest that targeting the LDLR-LBD could be a potential strategy for the development of antivirals against multiple alphaviruses. Getah virus (GETV), is a mosquito-borne alphavirus of importance in veterinary medicine. Here, the authors show that evolutionarily conserved low-density lipoprotein receptor (LDLR) functions as a receptor for GETV, which may explain the multi-species spread of this virus. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effectiveness of VSV vectored SARS-CoV-2 spike when administered through intranasal, intramuscular or a combination of both.

Author

Beitari, Saina, Agbayani, Gerard, Hewitt, Melissa, Duque, Diana, Bavananthasivam, Jegarubee, Sandhu, Jagdeep K., Akache, Bassel, Hadžisejdić, Ita, and Tran, Anh

Subjects

*VIRAL tropism, *SARS-CoV-2, *INTRAMUSCULAR injections, *RECOMBINANT viruses, *MUSCLE cells, *T cells, *IMMUNE response

Abstract

A critical feature of the VSV vector platform is the ability to pseudotype the virus with different glycoproteins from other viruses, thus altering cellular tropism of the recombinant virus. The route of administration is critical in triggering local and systemic immune response and protection. Most of the vaccine platforms used at the forefront are administered by intramuscular injection. However, it is not known at what level ACE2 is expressed on the surface of skeletal muscle cells, which will have a significant impact on the efficiency of a VSV-SARS-CoV-2 spike vaccine to mount a protective immune response when administered intramuscularly. In this study, we investigate the immunogenicity and efficacy of a prime-boost immunization regimen administered intranasally (IN), intramuscularly (IM), or combinations of the two. We determined that the prime-boost combinations of IM followed by IN immunization (IM + IN) or IN followed by IN immunization (IN + IN) exhibited strong spike-specific IgG, IgA and T cell response in vaccinated K18 knock-in mice. Hamsters vaccinated with two doses of VSV expressing SARS-CoV-2 spike, both delivered by IN or IM + IN, showed strong protection against SARS-CoV-2 variants of concern Alpha and Delta. This protection was also observed in aged hamsters. Our study underscores the highly crucial role immunization routes have with the VSV vector platform to elicit a strong and protective immune response. [ABSTRACT FROM AUTHOR]

Published

2023

13. Therapeutic effects against high-grade glioblastoma mediated by engineered induced neural stem cells combined with GD2-specific CAR-NK.

Author

Liu, Weihua, Zhao, Yu, Liu, Zhongfeng, Zhang, Guangji, Wu, Huantong, Zheng, Xin, Tang, Xihe, and Chen, Zhiguo

Subjects

*TREATMENT effectiveness, *GLIOBLASTOMA multiforme, *RADIATION-induced bystander effect, *NEURAL stem cells, *SURVIVAL rate, *STEM cells, *VIRAL tropism

Abstract

Purpose: High-grade glioblastoma is extremely challenging to treat because of its aggressiveness and resistance to conventional chemo- and radio-therapies. On the contrary, genetic and cellular immunotherapeutic strategies based on the stem and immune cells are emerging as promising treatments against glioblastoma (GBM). We aimed to developed a novel combined immunotherapeutic strategy to improve the treatment efficacy using genetically engineered PBMC-derived induced neural stem cells (iNSCs) expressing HSV-TK and second-generation CAR-NK cells against GBM. Methods: iNSCs cells expressing HSV-TK (iNSCsTK) and GD2-specific CAR-NK92 (GD2NK92) were generated from PBMC-derived iNSCs and NK92 cell lines, respectively. The anti-tumor effect of iNSCsTK and the combinational therapeutics of iNSCsTK and GD2NK92 were evaluated by GBM cell line using in vitro and in vivo experiments. Results: PBMC-derived iNSCsTK possessed tumor-tropism migration ability in vitro and in vivo, which exhibited considerable anti-tumor activity via bystander effect in the presence of ganciclovir (GCV). iNSCsTK/GCV could slow GBM progression and prolong median survival in tumor-bearing mice. However, the anti-tumor effect was limited to single therapy. Therefore, the combinational therapeutic effect of iNSCsTK/GCV and GD2NK92 against GBM was investigated. This approach displayed a more significant anti-tumor effect in vitro and in xenograft tumor mice. Conclusions: PBMC-derived iNSCsTK showed a significant tumor-tropic migration and an effective anti-tumor activity with GCV in vitro and in vivo. In addition, combined with GD2NK92, iNSCsTK therapeutic efficacy improved dramatically to prolong the tumor-bearing animal model's median survival. [ABSTRACT FROM AUTHOR]

Published

2023

14. The impact of non-synonymous mutations on miRNA binding sites within the SARS-CoV-2 NSP3 and NSP4 genes.

Author

Rad, S. M. Ali Hosseini, Wannigama, Dhammika Leshan, Hirankarn, Nattiya, and McLellan, Alexander D.

Subjects

*BINDING sites, *GENE expression, *MICRORNA, *SARS-CoV-2, *NON-coding RNA, *VIRAL tropism

Abstract

Non-synonymous mutations in the SARS-CoV-2 spike region affect cell entry, tropism, and immune evasion, while frequent synonymous mutations may modify viral fitness. Host microRNAs, a type of non-coding RNA, play a crucial role in the viral life cycle, influencing viral replication and the host immune response directly or indirectly. Recently, we identified ten miRNAs with a high complementary capacity to target various regions of the SARS-CoV-2 genome. We filtered our candidate miRNAs to those only expressed with documented expression in SARS-CoV-2 target cells, with an additional focus on miRNAs that have been reported in other viral infections. We determined if mutations in the first SARS-CoV-2 variants of concern affected these miRNA binding sites. Out of ten miRNA binding sites, five were negatively impacted by mutations, with three recurrent synonymous mutations present in multiple SARS-CoV-2 lineages with high-frequency NSP3: C3037U and NSP4: G9802U/C9803U. These mutations were predicted to negatively affect the binding ability of miR-197-5p and miR-18b-5p, respectively. In these preliminary findings, using a dual-reporter assay system, we confirmed the ability of these miRNAs in binding to the predicted NSP3 and NSP4 regions and the loss/reduced miRNA bindings due to the recurrent mutations. [ABSTRACT FROM AUTHOR]

Published

2023

15. Charge-altering releasable transporters enhance mRNA delivery in vitro and exhibit in vivo tropism.

Author

Li, Zhijian, Amaya, Laura, Pi, Ruoxi, Wang, Sean K., Ranjan, Alok, Waymouth, Robert M., Blish, Catherine A., Chang, Howard Y., and Wender, Paul A.

Subjects

MESSENGER RNA, VIRAL tropism, TROPISMS, T cells, PROTEIN expression, GENOME editing, CRISPRS

Abstract

The introduction of more effective and selective mRNA delivery systems is required for the advancement of many emerging biomedical technologies including the development of prophylactic and therapeutic vaccines, immunotherapies for cancer and strategies for genome editing. While polymers and oligomers have served as promising mRNA delivery systems, their efficacy in hard-to-transfect cells such as primary T lymphocytes is often limited as is their cell and organ tropism. To address these problems, considerable attention has been placed on structural screening of various lipid and cation components of mRNA delivery systems. Here, we disclose a class of charge-altering releasable transporters (CARTs) that differ from previous CARTs based on their beta-amido carbonate backbone (bAC) and side chain spacing. These bAC-CARTs exhibit enhanced mRNA transfection in primary T lymphocytes in vitro and enhanced protein expression in vivo with highly selective spleen tropism, supporting their broader therapeutic use as effective polyanionic delivery systems. Polymers are promising for mRNA delivery, but can have limited efficacy in hard to transfect cells. Here, the authors report charge-altering releasable transporters for improved mRNA transfection in primary T-lymphocytes and enhanced and selective protein expression in vivo. [ABSTRACT FROM AUTHOR]

Published

2023

16. Neuroprotective potential of intranasally delivered L-myc immortalized human neural stem cells in female rats after a controlled cortical impact injury.

Author

Amirbekyan, Mari, Adhikarla, Vikram, Cheng, Jeffrey P., Moschonas, Eleni H., Bondi, Corina O., Rockne, Russell C., Kline, Anthony E., and Gutova, Margarita

Subjects

*HUMAN stem cells, *CRASH injuries, *INTRANASAL administration, *BRAIN injuries, *NEURAL stem cells, *STEM cells, *VIRAL tropism

Abstract

Efficacious stem cell-based therapies for traumatic brain injury (TBI) depend on successful delivery, migration, and engraftment of stem cells to induce neuroprotection. L-myc expressing human neural stem cells (LMNSC008) demonstrate an inherent tropism to injury sites after intranasal (IN) administration. We hypothesize that IN delivered LMNSC008 cells migrate to primary and secondary injury sites and modulate biomarkers associated with neuroprotection and tissue regeneration. To test this hypothesis, immunocompetent adult female rats received either controlled cortical impact injury or sham surgery. LMNSC008 cells or a vehicle were administered IN on postoperative days 7, 9, 11, 13, 15, and 17. The distribution and migration of eGFP-expressing LMNSC008 cells were quantified over 1 mm-thick optically cleared (CLARITY) coronal brain sections from TBI and SHAM controls. NSC migration was observed along white matter tracts projecting toward the hippocampus and regions of TBI. ELISA and Nanostring assays revealed a shift in tissue gene expression in LMNSC008 treated rats relative to controls. LMNSC008 treatment reduced expression of genes and pathways involved in inflammatory response, microglial function, and various cytokines and receptors. Our proof-of-concept studies, although preliminary, support the rationale of using intranasal delivery of LMNSC008 cells for functional studies in preclinical models of TBI and provide support for potential translatability in TBI patients. [ABSTRACT FROM AUTHOR]

Published

2023

17. Fast, multiplexable and efficient somatic gene deletions in adult mouse skeletal muscle fibers using AAV-CRISPR/Cas9.

Author

Thürkauf, Marco, Lin, Shuo, Oliveri, Filippo, Grimm, Dirk, Platt, Randall J., and Rüegg, Markus A.

Subjects

DELETION mutation, REVERSE genetics, SKELETAL muscle, GENE expression, GENE silencing, KNOCKOUT mice, VIRAL tropism

Abstract

Molecular screens comparing different disease states to identify candidate genes rely on the availability of fast, reliable and multiplexable systems to interrogate genes of interest. CRISPR/Cas9-based reverse genetics is a promising method to eventually achieve this. However, such methods are sorely lacking for multi-nucleated muscle fibers, since highly efficient nuclei editing is a requisite to robustly inactive candidate genes. Here, we couple Cre-mediated skeletal muscle fiber-specific Cas9 expression with myotropic adeno-associated virus-mediated sgRNA delivery to establish a system for highly effective somatic gene deletions in mice. Using well-characterized genes, we show that local or systemic inactivation of these genes copy the phenotype of traditional gene-knockout mouse models. Thus, this proof-of-principle study establishes a method to unravel the function of individual genes or entire signaling pathways in adult skeletal muscle fibers without the cumbersome requirement of generating knockout mice. Methods for somatic gene perturbation would offer advantages for screening multiple muscle gene candidates. Here the authors couple Cre-mediated skeletal muscle fiber-specific Cas9 expression with myotropic adeno-associated virus-mediated sgRNA delivery and report a system for effective somatic gene deletions in mice. [ABSTRACT FROM AUTHOR]

Published

2023

18. Omicron sub-lineage BA.5 infection results in attenuated pathology in hACE2 transgenic mice.

Author

Rizvi, Zaigham Abbas, Dandotiya, Jyotsna, Sadhu, Srikanth, Khatri, Ritika, Singh, Janmejay, Singh, Virendra, Adhikari, Neeta, Sharma, Kritika, Das, Vinayake, Pandey, Amit Kumar, Das, Bhabatosh, Medigeshi, Guruprasad, Mani, Shalendra, Bhatnagar, Shinjini, Samal, Sweety, Pandey, Anil Kumar, Garg, Pramod Kumar, and Awasthi, Amit

Subjects

*SARS-CoV-2 Omicron variant, *TRANSGENIC mice, *VIRAL tropism, *COVID-19, *PATHOLOGY, *LUNG infections

Abstract

A recently emerged sub-lineage of Omicron, BA.5, together with BA.4, caused a fifth wave of coronavirus disease (COVID-19) in South Africa and subsequently emerged as a predominant strain globally due to its high transmissibility. The lethality of BA.5 infection has not been studied in an acute hACE2 transgenic (hACE2.Tg) mouse model. Here, we investigated tissue-tropism and immuno-pathology induced by BA.5 infection in hACE2.Tg mice. Our data show that intranasal infection of BA.5 in hACE2.Tg mice resulted in attenuated pulmonary infection and pathology with diminished COVID-19-induced clinical and pathological manifestations. BA.5, similar to Omicron (B.1.1.529), infection led to attenuated production of inflammatory cytokines, anti-viral response and effector T cell response as compared to the ancestral strain of SARS-CoV-2, Wuhan-Hu-1. We show that mice recovered from B.1.1.529 infection showed robust protection against BA.5 infection associated with reduced lung viral load and pathology. Together, our data provide insights as to why BA.5 infection escapes previous SARS-CoV-2 exposure induced-T cell immunity but may result in milder immuno-pathology and alleviated chances of re-infectivity in Omicron-recovered individuals. Intranasal infection of SARS-CoV-2 BA.5 in an acute hACE2 transgenic (hACE2.Tg) mouse model provides insights into BA.5 infection pathology. [ABSTRACT FROM AUTHOR]

Published

2023

19. Cell type-specific delivery by modular envelope design.

Author

Strebinger, Daniel, Frangieh, Chris J., Friedrich, Mirco J., Faure, Guilhem, Macrae, Rhiannon K., and Zhang, Feng

Subjects

VIRAL tropism, VIRAL envelope proteins, MODULAR design, CELL fusion, GENETIC vectors, VIRAL antibodies, T cells, VIRAL envelopes

Abstract

The delivery of genetic cargo remains one of the largest obstacles to the successful translation of experimental therapies, in large part due to the absence of targetable delivery vectors. Enveloped delivery modalities use viral envelope proteins, which determine tropism and induce membrane fusion. Here we develop DIRECTED (Delivery to Intended REcipient Cells Through Envelope Design), a modular platform that consists of separate fusion and targeting components. To achieve high modularity and programmable cell type specificity, we develop multiple strategies to recruit or immobilize antibodies on the viral envelope, including a chimeric antibody binding protein and a SNAP-tag enabling the use of antibodies or other proteins as targeting molecules. Moreover, we show that fusogens from multiple viral families are compatible with DIRECTED and that DIRECTED components can target multiple delivery chassis (e.g., lentivirus and MMLV gag) to specific cell types, including primary human T cells in PBMCs and whole blood. Targetable delivery vectors for genetic cargo are needed. Here the authors report a modular platform with separate fusion and targeting components—Delivery to Intended REcipient Cells Through Envelope Design (DIRECTED)—and show cell type-specific delivery. [ABSTRACT FROM AUTHOR]

Published

2023

20. Evolving spike mutations in SARS-CoV-2 Omicron variants facilitate evasion from breakthrough infection-acquired antibodies.

Author

Chen, Shiqi, Huang, Zehong, Guo, Yue, Guo, Huilin, Jian, Lijuan, Xiao, Jin, Yao, Xiangyang, Yu, Hai, Cheng, Tong, Zhang, Yali, Guan, Ming, Mao, Richeng, Zhang, Jiming, Xia, Ningshao, and Yuan, Quan

Subjects

SARS-CoV-2 Omicron variant, IMMUNOGLOBULINS, SARS-CoV-2 Delta variant, VIRAL tropism

Abstract

To elucidate the immune evasion role of amino-acid mutations during the BA.4/5 wave, we generated 34 variants with single amino-acid RBD mutations on the BA.4/5 spike backbone (Fig. The XBB-NTD mutations may not only reduce the effectiveness of NTD antibodies but also eliminate their synergistic effects in facilitating the neutralization activities of RBD-antibodies, specifically those RBD antibodies that remain resistant to XBB-RBD mutations, and vice versa. Given that the BA.4/5 and XBB share an identical S2, these results demonstrated that both RBD- and NTD-targeting antibodies contribute significantly to spike-elicited neutralization activities and multiple mutations on the two domains have synergetic effects in causing remarkable evasion. [Extracted from the article]

Published

2023

21. Mapping diversity in African trypanosomes using high resolution spatial proteomics.

Author

Moloney, Nicola M., Barylyuk, Konstantin, Tromer, Eelco, Crook, Oliver M., Breckels, Lisa M., Lilley, Kathryn S., Waller, Ross F., and MacGregor, Paula

Subjects

SPATIAL resolution, VIRAL tropism, BIOLOGICAL adaptation, ANIMAL diseases, TRYPANOSOMA brucei, SPECIES diversity, PROTEOMICS

Abstract

African trypanosomes are dixenous eukaryotic parasites that impose a significant human and veterinary disease burden on sub-Saharan Africa. Diversity between species and life-cycle stages is concomitant with distinct host and tissue tropisms within this group. Here, the spatial proteomes of two African trypanosome species, Trypanosoma brucei and Trypanosoma congolense, are mapped across two life-stages. The four resulting datasets provide evidence of expression of approximately 5500 proteins per cell-type. Over 2500 proteins per cell-type are classified to specific subcellular compartments, providing four comprehensive spatial proteomes. Comparative analysis reveals key routes of parasitic adaptation to different biological niches and provides insight into the molecular basis for diversity within and between these pathogen species. The molecular diversity between parasite species and life-stages correlate with diversity in the hosts they infect or the pathologies they cause. Here, Moloney et al., map the spatial proteomes of two African trypanosome species across two life stages and identify key routes of parasitic adaptation. [ABSTRACT FROM AUTHOR]

Published

2023

22. UM15 reinforces a lymphocyte-mimicking nanotrap for precise HIV-1 inhibition.

Author

Zhang, Jinbang, Li, Zhengyang, Li, Jiaxin, Li, Hui, Che, Junwei, Zhao, Te, Zou, Pengfei, Han, Jingwan, Yang, Yang, Yang, Meiyan, Wang, Yuli, Gong, Wei, Xiao, Haihua, Li, Zhiping, Li, Lin, and Gao, Chunsheng

Subjects

HIV, RETICULO-endothelial system, HIV-1 glycoprotein 120, T cells, VIRAL tropism

Abstract

Even the potential of T cell-mimicking nanotrap for long term viral control due to its overcoming of human immunodeficiency virus (HIV) genetic diversity and viral resistance, the robust HIV inhibition was not expected because these nanotraps displayed no obvious advantages compared with the infinite host cells. Herein, a glycoprotein 120 (gp120)-targeting polypeptide UM15 reinforced lymphocyte-mimicking nanotrap was constructed, and its improved HIV-1 inhibiting efficacy was validated. According to the results, the constructed nanotraps exhibited evident escaping ability from uptake of the mononuclear phagocyte system and highly improved binding ability with gp120 proteins. The constructed nanotraps neutralized all tested HIV-1 pseudo typed viruses with IC80 of 21.0 µg/mL, and inhibited both X4-tropic and R5-tropic HIV-1 with IC80 of 34.4 and 20.6 µg/mL, respectively. Approximately 40% of gp120 was observed to be shed from pseudo virus, and above 40% bystander T cells were prevented from gp120-induced death by the constructed nanotraps. The safety of the constructed nanotraps was confirmed both in vitro and in mice. Therefore, the constructed nanotraps could specifically neutralize free HIV-1, selectively bind with gp120 expressing HIV-1 infected cells, cause gp120 shedding, inhibit gp120-induced bystander T cell killing on the premise of safety, and were considered as promising therapeutic agents for precise inhibition of HIV. [ABSTRACT FROM AUTHOR]

Published

2023

23. AAV11 enables efficient retrograde targeting of projection neurons and enhances astrocyte-directed transduction.

Author

Han, Zengpeng, Luo, Nengsong, Ma, Wenyu, Liu, Xiaodong, Cai, Yuxiang, Kou, Jiaxin, Wang, Jie, Li, Lei, Peng, Siqi, Xu, Zihong, Zhang, Wen, Qiu, Yuxiang, Wu, Yang, Ye, Chaohui, Lin, Kunzhang, and Xu, Fuqiang

Subjects

VIRAL tropism, GENE regulatory networks, GENETIC transduction, ALZHEIMER'S disease, NEURONS, NEUROLOGICAL disorders, NEURAL circuitry

Abstract

Viral tracers that enable efficient retrograde labeling of projection neurons are powerful vehicles for structural and functional dissections of the neural circuit and for the treatment of brain diseases. Currently, some recombinant adeno-associated viruses (rAAVs) based on capsid engineering are widely used for retrograde tracing, but display undesirable brain area selectivity due to inefficient retrograde transduction in certain neural connections. Here we developed an easily editable toolkit to produce high titer AAV11 and demonstrated that it exhibits potent and stringent retrograde labeling of projection neurons in adult male wild-type or Cre transgenic mice. AAV11 can function as a powerful retrograde viral tracer complementary to AAV2-retro in multiple neural connections. In combination with fiber photometry, AAV11 can be used to monitor neuronal activities in the functional network by retrograde delivering calcium-sensitive indicator under the control of a neuron-specific promoter or the Cre-lox system. Furthermore, we showed that GfaABC1D promoter embedding AAV11 is superior to AAV8 and AAV5 in astrocytic tropism in vivo, combined with bidirectional multi-vector axoastrocytic labeling, AAV11 can be used to study neuron-astrocyte connection. Finally, we showed that AAV11 allows for analyzing circuit connectivity difference in the brains of the Alzheimer's disease and control mice. These properties make AAV11 a promising tool for mapping and manipulating neural circuits and for gene therapy of some neurological and neurodegenerative disorders. Viral tracers play a crucial role in studying neural circuits, but current options are limited in areas like retrograde transduction and astrocytic tropism. Here, the authors demonstrate that AAV11 function as a powerful retrograde viral tracer allowing for analyzing circuit connectivity and shows superior astrocytic tropism compared to the commonly used AAV vectors. [ABSTRACT FROM AUTHOR]

Published

2023

24. Broad host tropism of ACE2-using MERS-related coronaviruses and determinants restricting viral recognition.

Author

Ma, Chengbao, Liu, Chen, Xiong, Qing, Gu, Mengxue, Shi, Lulu, Wang, Chunli, Si, Junyu, Tong, Fei, Liu, Peng, Huang, Meiling, and Yan, Huan

Subjects

CORONAVIRUSES, VIRAL tropism, MERS coronavirus, ANGIOTENSIN converting enzyme

Abstract

Recently, two Middle East respiratory syndrome coronavirus (MERS-CoV) closely related to bat merbecoviruses, NeoCoV and PDF-2180, were discovered to use angiotensin-converting enzyme 2 (ACE2) for entry. The two viruses cannot use human ACE2 efficiently, and their host range and cross-species transmissibility across a wide range of mammalian species remain unclear. Herein, we characterized the species-specific receptor preference of these viruses by testing ACE2 orthologues from 49 bats and 53 non-bat mammals through receptor-binding domain (RBD)-binding and pseudovirus entry assays. Results based on bat ACE2 orthologues revealed that the two viruses were unable to use most, but not all, ACE2 from Yinpterochiropteran bats (Yin-bats), which is distinct from NL63 and SARS-CoV-2. Besides, both viruses exhibited broad receptor recognition spectra across non-bat mammals. Genetic and structural analyses of bat ACE2 orthologues highlighted four crucial host range determinants, all confirmed by subsequent functional assays in human and bat cells. Notably, residue 305, participating in a critical viral receptor interaction, plays a crucial role in host tropism determination, particularly in non-bat mammals. Furthermore, NeoCoV and PDF-2180 mutants with enhanced human ACE2 recognition expanded the potential host range, especially by enhancing their interaction with an evolutionarily conserved hydrophobic pocket. Our results elucidate the molecular basis for the species-specific ACE2 usage of MERS-related viruses and shed light on their zoonotic risks. [ABSTRACT FROM AUTHOR]

Published

2023

25. Chemical modification of AAV9 capsid with N-ethyl maleimide alters vector tissue tropism.

Author

Mulcrone, Patrick L., Lam, Anh K., Frabutt, Dylan, Zhang, Junping, Chrzanowski, Matthew, Herzog, Roland W., and Xiao, Weidong

Subjects

*VIRAL tropism, *MESENCHYMAL stem cells, *TROPISMS, *CANCELLOUS bone, *BONE marrow, *MOLECULAR evolution

Abstract

Although more adeno-associated virus AAV-based drugs enter the clinic, vector tissue tropism remains an unresolved challenge that limits its full potential despite that the tissue tropism of naturally occurring AAV serotypes can be altered by genetic engineering capsid vie DNA shuffling, or molecular evolution. To further expand the tropism and thus potential applications of AAV vectors, we utilized an alternative approach that employs chemical modifications to covalently link small molecules to reactive exposed Lysine residues of AAV capsids. We demonstrated that AAV9 capsid modified with N-ethyl Maleimide (NEM) increased its tropism more towards murine bone marrow (osteoblast lineage) while decreased transduction of liver tissue compared to the unmodified capsid. In the bone marrow, AAV9-NEM transduced Cd31, Cd34, and Cd90 expressing cells at a higher percentage than unmodified AAV9. Moreover, AAV9-NEM localized strongly in vivo to cells lining the calcified trabecular bone and transduced primary murine osteoblasts in culture, while WT AAV9 transduced undifferentiated bone marrow stromal cells as well as osteoblasts. Our approach could provide a promising platform for expanding clinical AAV development to treat bone pathologies such as cancer and osteoporosis. Thus, chemical engineering the AAV capsid holds great potential for development of future generations of AAV vectors. [ABSTRACT FROM AUTHOR]

Published

2023

26. Type I interferon shapes brain distribution and tropism of tick-borne flavivirus.

Author

Chotiwan, Nunya, Rosendal, Ebba, Willekens, Stefanie M. A., Schexnaydre, Erin, Nilsson, Emma, Lindqvist, Richard, Hahn, Max, Mihai, Ionut Sebastian, Morini, Federico, Zhang, Jianguo, Ebel, Gregory D., Carlson, Lars-Anders, Henriksson, Johan, Ahlgren, Ulf, Marcellino, Daniel, and Överby, Anna K.

Subjects

INTERFERONS, VIRAL tropism, TYPE I interferons, TROPISMS, FLAVIVIRUSES, OPTICAL tomography, WHITE matter (Nerve tissue), INTERFERON receptors

Abstract

Viral tropism within the brain and the role(s) of vertebrate immune response to neurotropic flaviviruses infection is largely understudied. We combine multimodal imaging (cm-nm scale) with single nuclei RNA-sequencing to study Langat virus in wildtype and interferon alpha/beta receptor knockout (Ifnar–/–) mice to visualize viral pathogenesis and define molecular mechanisms. Whole brain viral infection is imaged by Optical Projection Tomography coregistered to ex vivo MRI. Infection is limited to grey matter of sensory systems in wildtype mice, but extends into white matter, meninges and choroid plexus in Ifnar–/– mice. Cells in wildtype display strong type I and II IFN responses, likely due to Ifnb expressing astrocytes, infiltration of macrophages and Ifng-expressing CD8+ NK cells, whereas in Ifnar–/–, the absence of this response contributes to a shift in cellular tropism towards non-activated resident microglia. Multimodal imaging-transcriptomics exemplifies a powerful way to characterize mechanisms of viral pathogenesis and tropism. Here the authors combine a multimodal imaging-snRNAseq transcriptomics strategy to provide insight into the distribution of a neurotropic tick-borne flavivirus in the brain, and show that absence of interferon signaling increases infection of resident microglia. [ABSTRACT FROM AUTHOR]

Published

2023

27. Fetal Brain Damage in Human Fetuses with Congenital Cytomegalovirus Infection: Histological Features and Viral Tropism.

Author

Piccirilli, Giulia, Gabrielli, Liliana, Bonasoni, Maria Paola, Chiereghin, Angela, Turello, Gabriele, Borgatti, Eva Caterina, Simonazzi, Giuliana, Felici, Silvia, Leone, Marta, Salfi, Nunzio Cosimo Mario, Santini, Donatella, and Lazzarotto, Tiziana

Subjects

*BRAIN damage, *CONGENITAL disorders, *FETAL brain, *CYTOMEGALOVIRUS diseases, *FETUS, *VIRAL tropism, *HUMAN DNA, *AGENESIS of corpus callosum

Abstract

Human cytomegalovirus (HCMV) causes congenital neurological lifelong disabilities. To date, the neuropathogenesis of brain injury related to congenital HCMV (cCMV) infection is poorly understood. This study evaluates the characteristics and pathogenetic mechanisms of encephalic damage in cCMV infection. Ten HCMV-infected human fetuses at 21 weeks of gestation were examined. Specifically, tissues from different brain areas were analyzed by: (i) immunohistochemistry (IHC) to detect HCMV-infected cell distribution, (ii) hematoxylin–eosin staining to evaluate histological damage and (iii) real-time PCR to quantify tissue viral load (HCMV-DNA). The differentiation stage of HCMV-infected neural/neuronal cells was assessed by double IHC to detect simultaneously HCMV-antigens and neural/neuronal markers: nestin (a marker of neural stem/progenitor cells), doublecortin (DCX, marker of cells committed to the neuronal lineage) and neuronal nuclei (NeuN, identifying mature neurons). HCMV-positive cells and viral DNA were found in the brain of 8/10 (80%) fetuses. For these cases, brain damage was classified as mild (n = 4, 50%), moderate (n = 3, 37.5%) and severe (n = 1, 12.5%) based on presence and frequency of pathological findings (necrosis, microglial nodules, microglial activation, astrocytosis, and vascular changes). The highest median HCMV-DNA level was found in the hippocampus (212 copies/5 ng of human DNA [hDNA], range: 10–7,505) as well as the highest mean HCMV-infected cell value (2.9 cells, range: 0–23), followed by that detected in subventricular zone (1.7 cells, range: 0–19). These findings suggested a preferential viral tropism for both neural stem/progenitor cells and neuronal committed cells, residing in these regions, confirmed by the expression of DCX and nestin in 94% and 63.3% of HCMV-positive cells, respectively. NeuN was not found among HCMV-positive cells and was nearly absent in the brain with severe damage, suggesting HCMV does not infect mature neurons and immature neural/neuronal cells do not differentiate into neurons. This could lead to known structural and functional brain defects from cCMV infection. [ABSTRACT FROM AUTHOR]

Published

2023

28. Long-term and effective neutralization against omicron sublineages elicited by four platform COVID-19 vaccines as a booster dose.

Author

Zhang, Yuemiao, Luo, Meng-Ting, Wu, Qingqin, Wang, Yun-Xia, Ma, Xupu, Yan, Guanghong, Zhang, Si-Hang, Chen, Yanli, Wan, Na, Zhang, Liang, You, Dingyun, Wei, Jia, Zhang, Zijie, Zhou, Tai-Cheng, Precise-CoVaccine study group, Li, Chunmei, Yang, Wei, Bi, Hanfang, Li, Ao, and Wang, Rong

Subjects

BOOSTER vaccines, SARS-CoV-2 Omicron variant, COVID-19 vaccines, MONOCLONAL antibodies, IMMUNOGLOBULINS, VIRAL tropism

Abstract

The results revealed varying levels of magnitude and breadth in neutralizing antibodies against live SARS-CoV-2 (wild-type, delta [B.1.617.2] and omicron [BA.1.1]) across four vaccines, with the mRNA vaccine RQ3013 demonstrating the highest levels of neutralizing antibodies[5]. Interestingly, the recombinant protein vaccine ZR202-CoV with CpG as adjuvant and the adenovirus-vectored vaccine ChAdTS-S showed much slower decline rates against omicron variants compared with the mRNA vaccine RQ3013 (2-4-fold vs 4-11-fold decrease, respectively). These authors contributed equally: Yuemiao Zhang, Meng-Ting Luo Dear Editor, As of July 2022, over 89% of Chinese population have finished COVID-19 vaccine primary immunization, mostly with two-dose inactivated vaccines. [Extracted from the article]

Published

2023

29. Specific AAV2/PHP.eB-mediated gene transduction of CA2 pyramidal cells via injection into the lateral ventricle.

Author

Okamoto, Kazuki, Kamikubo, Yuji, Yamauchi, Kenta, Okamoto, Shinichiro, Takahashi, Megumu, Ishida, Yoko, Koike, Masato, Ikegaya, Yuji, Sakurai, Takashi, and Hioki, Hiroyuki

Subjects

*GENETIC transduction, *TRANSGENIC mice, *GENES, *RECOMBINASES, *VIRAL tropism

Abstract

Given its limited accessibility, the CA2 area has been less investigated compared to other subregions of the hippocampus. While the development of transgenic mice expressing Cre recombinase in the CA2 has revealed unique features of this area, the use of mouse lines has several limitations, such as lack of specificity. Therefore, a specific gene delivery system is required. Here, we confirmed that the AAV-PHP.eB capsid preferably infected CA2 pyramidal cells following retro-orbital injection and demonstrated that the specificity was substantially higher after injection into the lateral ventricle. In addition, a tropism for the CA2 area was observed in organotypic slice cultures. Combined injection into the lateral ventricle and stereotaxic injection into the CA2 area specifically introduced the transgene into CA2 pyramidal cells, enabling us to perform targeted patch-clamp recordings and optogenetic manipulation. These results suggest that AAV-PHP.eB is a versatile tool for specific gene transduction in CA2 pyramidal cells. [ABSTRACT FROM AUTHOR]

Published

2023

30. Natural reservoir Rousettus aegyptiacus bat host model of orthonairovirus infection identifies potential zoonotic spillover mechanisms.

Author

Schuh, Amy J., Amman, Brian R., Guito, Jonathan C., Graziano, James C., Sealy, Tara K., Kirejczyk, Shannon G. M., and Towner, Jonathan S.

Subjects

*VIRAL tropism, *VIRAL shedding, *BATS, *VIRAL replication, *IN situ hybridization, *URINE, *MINERAL collecting

Abstract

The human-pathogenic Kasokero virus (KASV; genus Orthonairovirus) has been isolated from the sera of Egyptian rousette bats (ERBs; Rousettus aegyptiacus) captured in Uganda and unengorged Ornithodoros (Reticulinasus) faini ticks collected from the rock crevices of ERB colonies in South Africa and Uganda. Although evidence suggests that KASV is maintained in an enzootic transmission cycle between O. (R.) faini ticks and ERBs with potential for incidental virus spillover to humans through the bite of an infected tick, the vertebrate reservoir status of ERBs for KASV has never been experimentally evaluated. Furthermore, the potential for bat-to-bat and bat-to-human transmission of KASV is unknown. Herein, we inoculate two groups of ERBs with KASV; one group of bats is serially sampled to assess viremia, oral, fecal, and urinary shedding and the second group of bats is serially euthanized to assess virus-tissue tropism. Throughout the study, none of the bats exhibit overt signs of clinical disease. Following the detection of high KASV loads of long duration in blood, oral, fecal, and urine specimens collected from ERBs in the serial sampling group, all bats seroconvert to KASV. ERBs from the serial euthanasia group exhibit high KASV loads indicative of virus replication in the skin at the inoculation site, spleen, and inguinal lymph node tissue, and histopathology and in situ hybridization reveal virus replication in the liver and self-limiting, KASV-induced lymphohistiocytic hepatitis. The results of this study suggest that ERBs are competent, natural vertebrate reservoir hosts for KASV that can sustain viremias of appropriate magnitude and duration to support virus maintenance through bat-tick-bat transmission cycles. Viral shedding data suggests that KASV might also be transmitted bat-to-bat and highlights the potential for KASV spillover to humans through contact with infectious oral secretions, feces, or urine. [ABSTRACT FROM AUTHOR]

Published

2022

31. Organotypic stromal cells impact endothelial cell transcriptome in 3D microvessel networks.

Author

Curtis, Matthew B., Kelly, Natalie, Hughes, Christopher C. W., and George, Steven C.

Subjects

*STROMAL cells, *LUNGS, *CELL populations, *CELL analysis, *EXTRACELLULAR matrix, *TRANSCRIPTOMES, *VIRAL tropism

Abstract

Endothelial cells line all major blood vessels and serve as integral regulators of many functions including vessel diameter, cellular trafficking, and transport of soluble mediators. Despite similar functions, the phenotype of endothelial cells is highly organ-specific, yet our understanding of the mechanisms leading to organ-level differentiation is incomplete. We generated 3D microvessel networks by combining a common naïve endothelial cell with six different stromal cells derived from the lung, skin, heart, bone marrow, pancreas, and pancreatic cancer. Single cell RNA-Seq analysis of the microvessel networks reveals five distinct endothelial cell populations, for which the relative proportion depends on the stromal cell population. Morphologic features of the organotypic vessel networks inversely correlate with a cluster of endothelial cells associated with protein synthesis. The organotypic stromal cells were each characterized by a unique subpopulation of cells dedicated to extracellular matrix organization and assembly. Finally, compared to cells in 2D monolayer, the endothelial cell transcriptome from the 3D in vitro heart, skin, lung, and pancreas microvessel networks are more similar to the in vivo endothelial cells from the respective organs. We conclude that stromal cells contribute to endothelial cell and microvessel network organ tropism, and create an endothelial cell phenotype that more closely resembles that present in vivo. [ABSTRACT FROM AUTHOR]

Published

2022

32. Identification of hub genes and candidate herbal treatment in obesity through integrated bioinformatic analysis and reverse network pharmacology.

Author

Tai, Yuxing, Tian, Hongying, Yang, Xiaoqian, Feng, Shixing, Chen, Shaotao, Zhong, Chongwen, Gao, Tianjiao, Gang, Xiaochao, and Liu, Mingjun

Subjects

*NETWORK hubs, *PHARMACOLOGY, *DRUG efficacy, *MILK thistle, *GENES, *OBESITY, *WEIGHT loss, *VIRAL tropism

Abstract

Obesity is a global epidemic elevating the risk of various metabolic disorders. As there is a lack of effective drugs to treat obesity, we combined bioinformatics and reverse network pharmacology in this study to identify effective herbs to treat obesity. We identified 1011 differentially expressed genes (DEGs) of adipose tissue after weight loss by analyzing five expression profiles (GSE103766, GSE35411, GSE112307, GSE43471, and GSE35710) from the Gene Expression Omnibus (GEO) database. We identified 27 hub genes from the protein–protein interaction (PPI) network by performing MCODE using the Search Tool for the Retrieval of Interacting Genes (STRING) database. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses revealed that these hub genes have roles in the extracellular matrix–receptor interaction, cholesterol metabolism, PI3K-Akt signaling pathway, etc. Ten herbs (Aloe, Portulacae Herba, Mori Follum, Silybum Marianum, Phyllanthi Fructus, Pollen Typhae, Ginkgo Semen, Leonuri Herba, Eriobotryae Folium, and Litseae Fructus) targeting the nine hub genes (COL1A1, MMP2, MMP9, SPP1, DNMT3B, MMP7, CETP, COL1A2, and MUC1) using six ingredients were identified as the key herbs. Quercetin and (-)-epigallocatechin-3-gallate were determined to be the key ingredients. Lastly, Ingredients-Targets, Herbs-Ingredients-Targets, and Herbs-Taste-Meridian Tropism networks were constructed using Cytoscape to elucidate this complex relationship. This study could help identify promising therapeutic targets and drugs to treat obesity. [ABSTRACT FROM AUTHOR]

Published

2022

33. Helicobacter pylori shows tropism to gastric differentiated pit cells dependent on urea chemotaxis.

Author

Aguilar, Carmen, Pauzuolis, Mindaugas, Pompaiah, Malvika, Vafadarnejad, Ehsan, Arampatzi, Panagiota, Fischer, Mara, Narres, Dominik, Neyazi, Mastura, Kayisoglu, Özge, Sell, Thomas, Blüthgen, Nils, Morkel, Markus, Wiegering, Armin, Germer, Christoph-Thomas, Kircher, Stefan, Rosenwald, Andreas, Saliba, Antoine-Emmanuel, and Bartfeld, Sina

Subjects

HELICOBACTER pylori, VIRAL tropism, CHEMOTAXIS, UREA, TROPISMS, CELL size, GASTRIC mucosa, CELL populations

Abstract

The human gastric epithelium forms highly organized gland structures with different subtypes of cells. The carcinogenic bacterium Helicobacter pylori can attach to gastric cells and subsequently translocate its virulence factor CagA, but the possible host cell tropism of H. pylori is currently unknown. Here, we report that H. pylori preferentially attaches to differentiated cells in the pit region of gastric units. Single-cell RNA-seq shows that organoid-derived monolayers recapitulate the pit region, while organoids capture the gland region of the gastric units. Using these models, we show that H. pylori preferentially attaches to highly differentiated pit cells, marked by high levels of GKN1, GKN2 and PSCA. Directed differentiation of host cells enable enrichment of the target cell population and confirm H. pylori preferential attachment and CagA translocation into these cells. Attachment is independent of MUC5AC or PSCA expression, and instead relies on bacterial TlpB-dependent chemotaxis towards host cell-released urea, which scales with host cell size. The carcinogenic bacterium Helicobacter pylori infects gastric cells. Here, the authors show that H. pylori preferentially infects differentiated cells in the pit region of gastric units, and this relies on bacterial chemotaxis towards host cell-released urea, which scales with host cell size. [ABSTRACT FROM AUTHOR]

Published

2022

34. A recombinant adenoviral vector with a specific tropism to CD4-positive cells: a new tool for HIV-1 inhibition.

Author

Behmardi, Abtin and Farazmandfar, Touraj

Abstract

Gene therapy can be an option to overcome the side effects of chemotherapy and prevent the development of drug-resistant HIV viruses in HIV-infected patients. The need to develop a safe and efficient vector for gene transfer is always necessary and an appropriate option might be adenovirus (Ad). The use of Ad vectors in gene delivery applications is limited due to the semi-specific tropism. A strategy to overcome this tropism limitation may be the modification of the fiber protein domain involved in the viral binding to cells. Therefore, we designed an Ad5 vector with a specific tropism to CD4 + cells containing an expression system limited to HIV-infected cells. We replaced the knob region of Ad5 fiber protein with the extracellular region of the HIV-1 envelope. We also used a specific Tat-inducible promoter to express two anti-HIV-1 shRNAs. Tropism of recombinant Ad5 was assayed by a comparison of the shRNA expression level in CEM and PBMC cells (as CD4 + cells) and HEK293 cells (as CD4 cells). HIV-1 inhibition was assayed by the determination of p24 antigen in the HIV-infected CEM cells transduced with the recombinant Ad5 vector. Our results showed that the shRNA expression was significantly higher in CEM and PBMC cells than HEK293 cells when transduced with recombinant Ad5 vector. This new Ad5 vector also inhibited HIV-1 proliferation in a Tat-inducible manner. Our new recombinant Ad5 vector has a specific tropism to CD4-positive cells that can effectively suppress the HIV-1 replication. [ABSTRACT FROM AUTHOR]

Published

2022

35. Neuropathologic and molecular aspects of a canine distemper epizootic in red foxes in Germany.

Author

Geiselhardt, Franziska, Peters, Martin, Kleinschmidt, Sven, Chludzinski, Elisa, Stoff, Melanie, Ludlow, Martin, and Beineke, Andreas

Subjects

*RED fox, *VIRAL tropism, *CANINE distemper virus, *WHITE matter (Nerve tissue), *GRAY matter (Nerve tissue), *MAJOR histocompatibility complex, *OLIGODENDROGLIA, *PROTEIN precursors

Abstract

In the last fifteen years, an epidemic of canine distemper virus (CDV) with marked neurotropism has occurred in Europe after a longer period of endemic transmission. Many wildlife species have been infected, with red foxes (Vulpes vulpes) being particularly affected. Given that this species is assumed to mediate cross-species CDV infections to domestic and wild animals, tissue samples from foxes with confirmed CDV infection in North-Western Germany were investigated to better understand the neurotropic aspects of the disease. This analysis included histopathology, virus distribution and cell tropism, phenotyping of inflammatory responses and determination of the genotype of the viruses based on the phylogeny of the hemagglutinin (H) gene. The predominant lesion type is gliosis in both gray and white matter areas associated with an accumulation of Iba1+ macrophages/microglia and upregulation of major histocompatibility complex class II molecules in the brain, while sequestration of CD3+ T and Pax5+ B cell in CDV-infected foxes is limited. Demyelination is found in few foxes, characterized by reduced myelin staining with loss of CNPase+ oligodendrocytes in the cerebellar white matter and brainstem. In addition, axonal damage, characterized by β-amyloid precursor protein expression, is found mainly in these brain regions. In situ hybridization reveals a primary infection of the cerebral and cerebellar gray matter and brain stem. Iba1+ cells and NeuN+ neurons represent the main CDV targets. Sequencing of the CDV H open reading frame from fox tissues reveals that the virus strains belongs to three different sub-lineages of the Europe-1/South America-1 genotype, suggesting independent transmission lines. [ABSTRACT FROM AUTHOR]

Published

2022

36. Strigolactones are chemoattractants for host tropism in Orobanchaceae parasitic plants.

Author

Ogawa, Satoshi, Cui, Songkui, White, Alexandra R. F., Nelson, David C., Yoshida, Satoko, and Shirasu, Ken

Subjects

PARASITIC plants, OROBANCHACEAE, STRIGOLACTONES, PURPLE witchweed, CROPS, VIRAL tropism

Abstract

Parasitic plants are worldwide threats that damage major agricultural crops. To initiate infection, parasitic plants have developed the ability to locate hosts and grow towards them. This ability, called host tropism, is critical for parasite survival, but its underlying mechanism remains mostly unresolved. To characterise host tropism, we used the model facultative root parasite Phtheirospermum japonicum, a member of the Orobanchaceae. Here, we show that strigolactones (SLs) function as host-derived chemoattractants. Chemotropism to SLs is also found in Striga hermonthica, a parasitic member of the Orobanchaceae, but not in non-parasites. Intriguingly, chemotropism to SLs in P. japonicum is attenuated in ammonium ion-rich conditions, where SLs are perceived, but the resulting asymmetrical accumulation of the auxin transporter PIN2 is diminished. P. japonicum encodes putative receptors that sense exogenous SLs, whereas expression of a dominant-negative form reduces its chemotropic ability. We propose a function for SLs as navigators for parasite roots. Parasitic plants are able to grow towards potential hosts. Here the authors show that strigolactones produced by the host plants can act as chemoattractants for the root parasites Phtheirospermum japonicum and Striga hermonthica. [ABSTRACT FROM AUTHOR]

Published

2022

37. Piperazine-derived lipid nanoparticles deliver mRNA to immune cells in vivo.

Author

Ni, Huanzhen, Hatit, Marine Z. C., Zhao, Kun, Loughrey, David, Lokugamage, Melissa P., Peck, Hannah E., Cid, Ada Del, Muralidharan, Abinaya, Kim, YongTae, Santangelo, Philip J., and Dahlman, James E.

Subjects

MESSENGER RNA, LIPIDS, APTAMERS, VIRAL tropism, INTRAMUSCULAR injections, GENETIC barcoding, NANOPARTICLES

Abstract

In humans, lipid nanoparticles (LNPs) have safely delivered therapeutic RNA to hepatocytes after systemic administration and to antigen-presenting cells after intramuscular injection. However, systemic RNA delivery to non-hepatocytes remains challenging, especially without targeting ligands such as antibodies, peptides, or aptamers. Here we report that piperazine-containing ionizable lipids (Pi-Lipids) preferentially deliver mRNA to immune cells in vivo without targeting ligands. After synthesizing and characterizing Pi-Lipids, we use high-throughput DNA barcoding to quantify how 65 chemically distinct LNPs functionally delivered mRNA (i.e., mRNA translated into functional, gene-editing protein) in 14 cell types directly in vivo. By analyzing the relationships between lipid structure and cellular targeting, we identify lipid traits that increase delivery in vivo. In addition, we characterize Pi-A10, an LNP that preferentially delivers mRNA to the liver and splenic immune cells at the clinically relevant dose of 0.3 mg/kg. These data demonstrate that high-throughput in vivo studies can identify nanoparticles with natural non-hepatocyte tropism and support the hypothesis that lipids with bioactive small-molecule motifs can deliver mRNA in vivo. Next-generation lipid nanoparticles that target non-hepatocytes could be important clinical tools. Using in vivo DNA barcoding, the authors identify piperazine-containing lipids deliver mRNA to immune cells without targeting ligands. [ABSTRACT FROM AUTHOR]

Published

2022

38. Effective Viral Delivery of Genetic Constructs to Neuronal Culture for Modeling and Gene Therapy of GNAO1 Encephalopathy.

Author

Lunev, E. A., Shmidt, A. A., Vassilieva, S. G., Savchenko, I. M., Loginov, V. A., Marina, V. I., Egorova, T. V., and Bardina, M. V.

Subjects

*GENE therapy, *BRAIN diseases, *VIRAL tropism, *GENE expression, *ANIMAL diseases, *GENETIC disorders, *GENETIC vectors

Abstract

GNAO1 encephalopathy is an orphan genetic disease associated with early infantile epilepsy, impaired motor control, and severe developmental delay. The disorder is caused by mutations in the GNAO1 gene, leading to dysfunction of the encoded protein Gαo1. There is no cure for this disease, and symptomatic therapy is ineffective. Phenotypic heterogeneity highlights the need for a personalized approach for treating patients with a specific clinical variant of GNAO1 and requires the study of the disease mechanism in animal and cell models. Towards this aim, we developed an approach for modeling GNAO1 encephalopathy and testing gene therapy drugs in primary neurons derived from healthy mice. We optimized the delivery of transgenes to Gαo1-expressing neurons using recombinant adeno-associated viruses (rAAV). We assessed the tropism of five neurotropic AAV serotypes (1, 2, 6, 9, DJ) for Gαo1-positive neurons from the whole mouse brain. The DJ serotype showed the highest potential as a reporter delivery vehicle, infecting up to 66% of Gαo1-expressing cells without overt cytotoxicity. We demonstrated that AAV-DJ also provides efficient delivery and expression of genetic constructs encoding normal and mutant Gαo1, as well as short hairpin RNA (shRNA) to suppress endogenous Gnao1 in murine neurons. Our results will further simplify the study of the pathological mechanism for clinical variants of GNAO1, as well as optimize the testing of gene therapy approaches for GNAO1 encephalopathy in cell models. [ABSTRACT FROM AUTHOR]

Published

2022

39. Human-type sialic acid receptors contribute to avian influenza A virus binding and entry by hetero-multivalent interactions.

Author

Liu, Mengying, Huang, Liane Z. X., Smits, Anthony A., Büll, Christian, Narimatsu, Yoshiki, van Kuppeveld, Frank J. M., Clausen, Henrik, de Haan, Cornelis A. M., and de Vries, Erik

Subjects

AVIAN influenza A virus, VIRAL tropism, SIALIC acids, AVIAN influenza, INFLUENZA, INFLUENZA pandemic, 1918-1919, SWITCHING costs, INFLUENZA A virus

Abstract

Establishment of zoonotic viruses, causing pandemics like the Spanish flu and Covid-19, requires adaptation to human receptors. Pandemic influenza A viruses (IAV) that crossed the avian-human species barrier switched from binding avian-type α2-3-linked sialic acid (2-3Sia) to human-type 2-6Sia receptors. Here, we show that this specificity switch is however less dichotomous as generally assumed. Binding and entry specificity were compared using mixed synthetic glycan gradients of 2-3Sia and 2-6Sia and by employing a genetically remodeled Sia repertoire on the surface of a Sia-free cell line and on a sialoglycoprotein secreted from these cells. Expression of a range of (mixed) 2-3Sia and 2-6Sia densities shows that non-binding human-type receptors efficiently enhanced avian IAV binding and entry provided the presence of a low density of high affinity avian-type receptors, and vice versa. Considering the heterogeneity of sialoglycan receptors encountered in vivo, hetero-multivalent binding is physiologically relevant and will impact evolutionary pathways leading to host adaptation. It is believed that human Influenza HA glycoprotein attaches to alpha2-6 linked sialic acids (SA) on cells, while avian viruses bind to alpha2-3 linked sialic acids, therewith contributing to host tropism. Here, Liu et al. show that mixing low-affinity alpha2-3 SA with low amounts of high-affinity alpha2-6 SA increases binding and entry of human viruses and the converse for avian virus. This shows that receptor recognition is not as strict as currently assumed and provides evidence that heteromultivalent interactions between human/avian HA and SA contributes to host adaptation. [ABSTRACT FROM AUTHOR]

Published

2022

40. Seedlings of a hemiparasite recognize legumes, but do not distinguish good from poor host species.

Author

Sandner, Tobias M., Schoppan, Lola, and Matthies, Diethart

Subjects

*VIRAL tropism, *SPECIES, *SEEDLINGS, *PLANT species, *ROOT growth, *LEGUMES, *GRACILARIA

Abstract

Most hemiparasitic plants are generalists with a broad host range, but they grow better in the presence of some plant species than with others. In mixed communities of hosts, hemiparasites prefer some hosts over others, but it is not yet known if hemiparasite roots can distinguish between the roots of different plant species and show directed growth (host tropism). We performed host choice experiments, exposing seedlings of Rhinanthus alectorolophus in agar plates simultaneously to seedlings of grass and legume species known to be hosts of good or poor quality for the parasite, and measured directed root growth and haustoria formation. Parasite roots did not show directed growth towards the roots of a good compared to a poor host species within a host functional group. However, parasite roots grew more strongly in the direction of legume than grass roots. The probability to form haustoria with host roots did not differ between host species, and microscopy revealed that functional haustoria were formed even with a very poor host, the grass Anthoxanthum odoratum. Our results show that growth experiments in agar plates are a suitable approach to study early host choice of hemiparasites. Our finding that hemiparasites can (initially) form functional haustoria even with very poor hosts emphasizes that the quality of a plant species as a host depends on several independent processes, including early host recognition, haustoria formation, resource supply and competition. [ABSTRACT FROM AUTHOR]

Published

2022

41. The presence of cardiotropic viral genomes is not increased in atrial tissue of atrial fibrillation patients.

Author

Wu, L., Emmens, R. W., van Wezenbeek, J., Stooker, W., Allaart, C. P., Vonk, A. B. A., van Rossum, A. C., Wolthers, K. C., Niessen, H. W. M., and Krijnen, P. A. J.

Subjects

VIRAL genomes, ATRIAL fibrillation, LEFT heart atrium, POLYMERASE chain reaction, VIRUS diseases, VIRAL tropism

Abstract

Background: Infections with potentially cardiotropic viruses are associated with the development of atrial fibrillation (AF). However, whether direct viral infection of the atria is involved in the pathogenesis of AF is unclear. We have therefore analysed the presence of cardiotropic viral genomes in AF patients. Methods: Samples of left atrial tissue were obtained from 50 AF patients (paroxysmal, n = 20; long-standing persistent/permanent, n = 30) during cardiac surgery and from autopsied control patients (n = 14). Herein, the presence of PVB19, EBV, CMV, HHV‑6, adenovirus and enterovirus genomes was determined by polymerase chain reaction. The densities of CD45+ and CD3+ cells and fibrosis in the atria were quantified by (immuno)histochemistry. Results: Of the tested viruses only the PVB19 genome was detected in the atria of 10% of patients, paroxysmal AF (2 of 20) and long-standing persistent/permanent AF (3 of 30). Conversely, in 50% of controls (7 of 14) PVB19 genome was found. No significant association was found between PVB19 and CD45+ and CD3+ cells, or between the presence of PVB19 and fibrosis, in either control or AF patients. Conclusion: The presence of viral genomes is not increased in the atria of AF patients. These results do not support an important role for viral infection of the atria in the pathogenesis of AF. [ABSTRACT FROM AUTHOR]

Published

2022

42. Adrenal tropism of SARS-CoV-2 and adrenal findings in a post-mortem case series of patients with severe fatal COVID-19.

Author

Paul, Tanja, Ledderose, Stephan, Bartsch, Harald, Sun, Na, Soliman, Sarah, Märkl, Bruno, Ruf, Viktoria, Herms, Jochen, Stern, Marcel, Keppler, Oliver T., Delbridge, Claire, Müller, Susanna, Piontek, Guido, Kimoto, Yuki Schneider, Schreiber, Franziska, Williams, Tracy Ann, Neumann, Jens, Knösel, Thomas, Schulz, Heiko, and Spallek, Ria

Subjects

SARS-CoV-2, COVID-19, VIRAL tropism, FORENSIC pathology, AUTOPSY, TROPISMS

Abstract

Progressive respiratory failure and hyperinflammatory response is the primary cause of death in the coronavirus disease 2019 (COVID-19) pandemic. Despite mounting evidence of disruption of the hypothalamus-pituitary-adrenal axis in COVID-19, relatively little is known about the tropism of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) to adrenal glands and associated changes. Here we demonstrate adrenal viral tropism and replication in COVID-19 patients. Adrenal glands showed inflammation accompanied by inflammatory cell death. Histopathologic analysis revealed widespread microthrombosis and severe adrenal injury. In addition, activation of the glycerophospholipid metabolism and reduction of cortisone intensities were characteristic for COVID-19 specimens. In conclusion, our autopsy series suggests that SARS-CoV-2 facilitates the induction of adrenalitis. Given the central role of adrenal glands in immunoregulation and taking into account the significant adrenal injury observed, monitoring of developing adrenal insufficiency might be essential in acute SARS-CoV-2 infection and during recovery. Progressive respiratory failure is the primary cause of death in patients with COVID-19, but pathologies in other tissues may also occur. Here the authors report that adrenal tropism of SARS-CoV-2 is associated with adrenalitis, reduced adrenal cortisol levels and severe adrenal damage in a post-mortem case series of patients with severe fatal COVID-19. [ABSTRACT FROM AUTHOR]

Published

2022

43. Pathology and virology of natural highly pathogenic avian influenza H5N8 infection in wild Common buzzards (Buteo buteo).

Author

Caliendo, Valentina, Leijten, Lonneke, van de Bildt, Marco W. G., Fouchier, Ron A. M., Rijks, Jolianne M., and Kuiken, Thijs

Subjects

*BUZZARDS, *VIROLOGY, *PATHOLOGICAL physiology, *VIRUS diseases, *VIRAL tropism, *AVIAN influenza

Abstract

Highly pathogenic avian influenza (HPAI) in wild birds is a major emerging disease, and a cause of increased mortality during outbreaks. The Common buzzard (Buteo buteo) has a considerable chance of acquiring the infection and therefore may function as bio-sentinel for the presence of virus in wildlife. This study aimed to determine the virus distribution and associated pathological changes in the tissues of Common buzzards that died with HPAI H5 virus infection during the 2020–2021 epizootic. Eleven freshly dead, HPAI H5 virus-positive Common buzzards were necropsied. Based on RT-PCR, all birds were systemically infected with HPAI H5N8 virus, as viral RNA was detected in cloacal and pharyngeal swabs and in all 10 selected tissues of the birds, with mean Ct values per tissue ranging from 22 for heart to 32 for jejunum. Based on histology and immunohistochemistry, the most common virus-associated pathological changes were necrotizing encephalitis (9/11 birds) and necrotizing myocarditis (7/11 birds). The proventriculus of two birds showed virus-associated necrosis, indicating tropism of this virus for the digestive tract. Our advice is to collect at least a miniset of samples including brain, heart, liver, and spleen, as these tissues were positive both by RT-PCR and for virus-antigen-associated lesions. [ABSTRACT FROM AUTHOR]

Published

2022

44. Structural insights in cell-type specific evolution of intra-host diversity by SARS-CoV-2.

Author

Gupta, Kapil, Toelzer, Christine, Williamson, Maia Kavanagh, Shoemark, Deborah K., Oliveira, A. Sofia F., Matthews, David A., Almuqrin, Abdulaziz, Staufer, Oskar, Yadav, Sathish K. N., Borucu, Ufuk, Garzoni, Frederic, Fitzgerald, Daniel, Spatz, Joachim, Mulholland, Adrian J., Davidson, Andrew D., Schaffitzel, Christiane, and Berger, Imre

Subjects

SARS-CoV-2, VIRAL tropism, RNA viruses, MOLECULAR dynamics, MOLECULAR structure, GENETIC variation

Abstract

As the global burden of SARS-CoV-2 infections escalates, so does the evolution of viral variants with increased transmissibility and pathology. In addition to this entrenched diversity, RNA viruses can also display genetic diversity within single infected hosts with co-existing viral variants evolving differently in distinct cell types. The BriSΔ variant, originally identified as a viral subpopulation from SARS-CoV-2 isolate hCoV-19/England/02/2020, comprises in the spike an eight amino-acid deletion encompassing a furin recognition motif and S1/S2 cleavage site. We elucidate the structure, function and molecular dynamics of this spike providing mechanistic insight into how the deletion correlates to viral cell tropism, ACE2 receptor binding and infectivity of this SARS-CoV-2 variant. Our results reveal long-range allosteric communication between functional domains that differ in the wild-type and the deletion variant and support a view of SARS-CoV-2 probing multiple evolutionary trajectories in distinct cell types within the same infected host. BriSΔ, a SARS-CoV-2 variant from clinical isolate hCoV/England/02/2020, comprises a deletion in a spike cleavage site. The structure and molecular dynamics of this spike provides mechanistic insights into how the deletion modulates virus infectivity. [ABSTRACT FROM AUTHOR]

Published

2022

45. Ten emerging SARS-CoV-2 spike variants exhibit variable infectivity, animal tropism, and antibody neutralization.

Author

Zhang, Li, Cui, Zhimin, Li, Qianqian, Wang, Bo, Yu, Yuanling, Wu, Jiajing, Nie, Jianhui, Ding, Ruxia, Wang, Haixin, Zhang, Yue, Liu, Shuo, Chen, Zhihai, He, Yaqing, Su, Xiaodong, Xu, Wenbo, Huang, Weijin, and Wang, Youchun

Subjects

*SARS-CoV-2, *CONVALESCENT plasma, *VIRAL tropism, *COVID-19 pandemic, *TROPISMS, *MONOCLONAL antibodies

Abstract

Emerging mutations in SARS-CoV-2 cause several waves of COVID-19 pandemic. Here we investigate the infectivity and antigenicity of ten emerging SARS-CoV-2 variants—B.1.1.298, B.1.1.7(Alpha), B.1.351(Beta), P.1(Gamma), P.2(Zeta), B.1.429(Epsilon), B.1.525(Eta), B.1.526-1(Iota), B.1.526-2(Iota), B.1.1.318—and seven corresponding single amino acid mutations in the receptor-binding domain using SARS-CoV-2 pseudovirus. The results indicate that the pseudovirus of most of the SARS-CoV-2 variants (except B.1.1.298) display slightly increased infectivity in human and monkey cell lines, especially B.1.351, B.1.525 and B.1.526 in Calu-3 cells. The K417N/T, N501Y, or E484K-carrying variants exhibit significantly increased abilities to infect mouse ACE2-overexpressing cells. The activities of furin, TMPRSS2, and cathepsin L are increased against most of the variants. RBD amino acid mutations comprising K417T/N, L452R, Y453F, S477N, E484K, and N501Y cause significant immune escape from 11 of 13 monoclonal antibodies. However, the resistance to neutralization by convalescent serum or vaccines elicited serum is mainly caused by the E484K mutation. The convalescent serum from B.1.1.7- and B.1.351-infected patients neutralized the variants themselves better than other SARS-CoV-2 variants. Our study provides insights regarding therapeutic antibodies and vaccines, and highlights the importance of E484K mutation. Li Zhang, Zhimin Cui, and Qianqian Li et al. compare the infectivity, host tropism, and antigenicity of 10 SARS-CoV-2 variants using a VSV-based pseudovirus system. Their results suggest that variants carrying E484K display the most significant reduction in sensitivity to neutralization, and may provide further insight into the development of relevant therapeutics for SARS-CoV-2 infection. [ABSTRACT FROM AUTHOR]

Published

2021

46. COVID-19 associated intracranial vasculopathy–MRI vessel wall imaging as adjunct to emergent CT angiography—a case report.

Author

Raban, David, Barhaghi, Krystle, Timpone, Vincent, Jones, William, Sauer, Brian, Pollard, Rebecca, and Callen, Andrew

Subjects

*COVID-19, *STROKE, *ANGIOGRAPHY, *ISCHEMIC stroke, *VIRAL tropism, *SYMPTOMS

Abstract

COVID-19 was initially described as a pulmonary disease. Increasing attention is now directed to extrapulmonary disease manifestations mediated by viral tropism to the vascular endothelium. Here, we report a case of an adult patient with COVID-19 who presented to the emergency department with neurological signs disproportionate to pulmonary symptoms and was found to have a subacute ischemic stroke. Imaging studies suggested an active inflammatory vasculopathy. The case highlights the utility of vascular wall imaging studies when positive findings are present on emergent CT angiography. Current treatment algorithms should consider the addition of adjunct intracranial vessel wall imaging to assess for inflammatory vasculopathy when a patient with acute or recent COVID infection presents to the emergency department with stroke. [ABSTRACT FROM AUTHOR]

Published

2021

47. Development of a real-time RT-PCR method for the detection of Citrus tristeza virus (CTV) and its implication in studying virus distribution in planta.

Author

Kokane, Sunil B., Misra, Pragati, Kokane, Amol D., Gubyad, Mrugendra G., Warghane, Ashish J., Surwase, Datta, Reddy, M. Krishna, and Ghosh, Dilip Kumar

Subjects

*CITRUS tristeza virus, *REVERSE transcriptase polymerase chain reaction, *VIRUS diseases, *ORANGES, *CITRUS, *VIRAL tropism, *VIRAL transmission, *CLONORCHIS sinensis

Abstract

Tristeza is an economically important disease of the citrus caused by Citrus tristeza virus (CTV) of genus Closterovirus and family Closteroviridae. The disease has caused tremendous losses to citrus industry worldwide by killing millions of trees, reducing the productivity and total production. Enormous efforts have been made in many countries to prevent the viral spread and the losses caused by the disease. To understand the reason behind this scenario, studies on virus distribution and tropism in the citrus plants are needed. Different diagnostic methods are available for early CTV detection but none of them is employed for in planta virus distribution study. In this study, a TaqMan RT-PCR-based method to detect and quantify CTV in different tissues of infected Mosambi plants (Citrus sinensis) has been standardized. The assay was very sensitive with the pathogen detection limit of > 0.0595 fg of in vitro-transcribed CTV-RNA. The assay was implemented for virus distribution study and absolute CTV titer quantification in samples taken from Tristeza-infected trees. The highest virus load was observed in the midribs of the symptomatic leaf (4.1 × 107–1.4 × 108/100 mg) and the lowest in partial dead twigs (1 × 103–1.7 × 104/100 mg), and shoot tip (2.3 × 103–4.5 × 103/100 mg). Interestingly, during the peak summer months, the highest CTV load was observed in the feeder roots (3 × 107–1.1 × 108/100 mg) than in the midribs of symptomatic leaf. The viral titer was highest in symptomatic leaf midrib followed by asymptomatic leaf midrib, feeder roots, twig bark, symptomatic leaf lamella, and asymptomatic leaf lamella. Overall, high CTV titer was primarily observed in the phloem containing tissues and low CTV titer in the other tissues. The information would help in selecting tissues with higher virus titer in disease surveillance that have implication in Tristeza management in citrus. [ABSTRACT FROM AUTHOR]

Published

2021

48. Exosomal miR-19a and IBSP cooperate to induce osteolytic bone metastasis of estrogen receptor-positive breast cancer.

Author

Wu, Kerui, Feng, Jiamei, Lyu, Feng, Xing, Fei, Sharma, Sambad, Liu, Yin, Wu, Shih-Ying, Zhao, Dan, Tyagi, Abhishek, Deshpande, Ravindra Pramod, Pei, Xinhong, Ruiz, Marco Gabril, Takahashi, Hiroyuki, Tsuzuki, Shunsuke, Kimura, Takahiro, Mo, Yin-yuan, Shiozawa, Yusuke, Singh, Ravi, and Watabe, Kounosuke

Subjects

BREAST cancer, BONE metastasis, DISEASE risk factors, VIRAL tropism, CHLOROGENIC acid, EXTRACELLULAR vesicles, ESTROGEN receptors, BONE morphogenetic protein receptors

Abstract

Bone metastasis is an incurable complication of breast cancer. In advanced stages, patients with estrogen-positive tumors experience a significantly higher incidence of bone metastasis (>87%) compared to estrogen-negative patients (<56%). To understand the mechanism of this bone-tropism of ER+ tumor, and to identify liquid biopsy biomarkers for patients with high risk of bone metastasis, the secreted extracellular vesicles and cytokines from bone-tropic breast cancer cells are examined in this study. Both exosomal miR-19a and Integrin-Binding Sialoprotein (IBSP) are found to be significantly upregulated and secreted from bone-tropic ER+ breast cancer cells, increasing their levels in the circulation of patients. IBSP is found to attract osteoclast cells and create an osteoclast-enriched environment in the bone, assisting the delivery of exosomal miR-19a to osteoclast to induce osteoclastogenesis. Our findings reveal a mechanism by which ER+ breast cancer cells create a microenvironment favorable for colonization in the bone. These two secreted factors can also serve as effective biomarkers for ER+ breast cancer to predict their risks of bone metastasis. Furthermore, our screening of a natural compound library identifies chlorogenic acid as a potent inhibitor for IBSP-receptor binding to suppress bone metastasis of ER+ tumor, suggesting its preventive use for bone recurrence in ER+ patients. Bone metastasis is a major complication of breast cancer (BC) and ER+ tumors have a higher incidence of bone metastasis than ER− tumors. Here, the authors report that miR‐19a in exosomes and the bone matrix protein, IBSP, are upregulated and secreted by bone tropic ER+ BC cells, where they cooperatively induce osteoclastogenesis and promote bone colonization. [ABSTRACT FROM AUTHOR]

Published

2021

49. Tissue and cell-type-specific transduction using rAAV vectors in lung diseases.

Author

Kochergin-Nikitsky, Konstantin, Belova, Lyubava, Lavrov, Alexander, and Smirnikhina, Svetlana

Subjects

*TRANSGENE expression, *DISEASE vectors, *LUNG diseases, *VIRAL tropism, *GENETIC transduction, *CELL receptors, *LUNGS

Abstract

Gene therapy of genetically determined diseases, including some pathologies of the respiratory system, requires an efficient method for transgene delivery. Recombinant adeno-associated viral (rAAV) vectors are well studied and employed in gene therapy, as they are relatively simple and low immunogenic and able to efficiently transduce eukaryotic cells. To date, many natural and artificial (with modified capsids) AAV serotypes have been isolated, demonstrating preferential tropism toward different tissues and cells in accordance with the prevalent receptors on the cell surface. However, rAAV-mediated delivery is not strictly specific due to wide tropism of some viral serotypes. Thus, the development of the methods allowing modulating specificity of these vectors could be beneficial in some cases. This review describes various approaches for retargeting rAAV to respiratory cells, for example, using different types of capsid modifications and regulation of a transgene expression by tissue-specific promoters. Part of the review is devoted to the issues of transduction of stem and progenitor lung cells using AAV, which is a complicated task today. [ABSTRACT FROM AUTHOR]

Published

2021

50. A single-cell atlas of Plasmodium falciparum transmission through the mosquito.

Author

Real, Eliana, Howick, Virginia M., Dahalan, Farah A., Witmer, Kathrin, Cudini, Juliana, Andradi-Brown, Clare, Blight, Joshua, Davidson, Mira S., Dogga, Sunil Kumar, Reid, Adam J., Baum, Jake, and Lawniczak, Mara K. N.

Subjects

PLASMODIUM falciparum, MOSQUITOES, VIRAL tropism, MALARIA, PLASMODIUM, SALIVARY glands, ANOPHELES, RNA sequencing

Abstract

Malaria parasites have a complex life cycle featuring diverse developmental strategies, each uniquely adapted to navigate specific host environments. Here we use single-cell transcriptomics to illuminate gene usage across the transmission cycle of the most virulent agent of human malaria - Plasmodium falciparum. We reveal developmental trajectories associated with the colonization of the mosquito midgut and salivary glands and elucidate the transcriptional signatures of each transmissible stage. Additionally, we identify both conserved and non-conserved gene usage between human and rodent parasites, which point to both essential mechanisms in malaria transmission and species-specific adaptations potentially linked to host tropism. Together, the data presented here, which are made freely available via an interactive website, provide a fine-grained atlas that enables intensive investigation of the P. falciparum transcriptional journey. As well as providing insights into gene function across the transmission cycle, the atlas opens the door for identification of drug and vaccine targets to stop malaria transmission and thereby prevent disease. Here the authors use single-cell RNA-seq to profile the transmission stages of the human malaria parasite Plasmodium falciparum as it progresses through the Anopheles mosquito. They highlight unique patterns of gene usage throughout this development and identify potential pleiotropic genes that function at multiple life cycle stages. [ABSTRACT FROM AUTHOR]

Published

2021