Your search keyword '"Varun Dwivedi"' showing total 25 results

1. Intranasal Delivery of an Adjuvanted Modified Live Porcine Reproductive and Respiratory Syndrome Virus Vaccine Reduces ROS Production.

Author

Basavaraj Binjawadagi, Varun Dwivedi, Cordelia Manickam, Jordi B. Torrelles, and Gourapura J. Renukaradhya

Published

2011

2. Immunomodulator Effect of Picroliv and its Potential in Treatment Against Resistant Plasmodium yoelii (MDR) Infection in Mice.

Author

Varun Dwivedi, Arif Khan, Azevedo Vasco, Nishat Fatima, Vishal Soni, Anil Dangi, Shailja Misra-Bhattacharya, and Mohammad Owais

Subjects

IMMUNOLOGICAL adjuvants, PLASMODIUM yoelii, CHLOROQUINE, DRUG resistance, IMMUNE response, LABORATORY mice, T cells, CELL proliferation

Abstract

Abstract Purpose  The present study was envisaged to evaluate potential of combination therapy comprising of immunomodulator picroliv and antimalarial chloroquine against drug resistant Plasmodium yoelii (P. yoelii) infection in BALB/c mice. Methods  The immunomodulatory potential of picroliv was established by immunizing animals with model antigen along with picroliv. Immune response was assessed using T-cell proliferation assay and also by determining the antibody isotype-profile induced in the immunized mice. In the next set of experiment, prophylactic potential of picroliv to strengthen antimalarial properties of chloroquine against P. yoelii (MDR) infection in BALB/c mice was assessed. Results  T-cell proliferation as well as antibody production study reveals that picroliv helps in evoking strong immuno-potentiating response against model antigen in the immunized mice. Co-administration of picroliv enhances efficacy of CHQ against experimental murine malaria. Conclusion  The activation of host immune system can increase the efficacy of chloroquine for suppression of drug resistant malaria infection in BALB/c mice. [ABSTRACT FROM AUTHOR]

Published

2008

3. Mitochondrial Transplantation Promotes Protective Effector and Memory CD4+ T Cell Response During Mycobacterium Tuberculosis Infection and Diminishes Exhaustion and Senescence in Elderly CD4+ T cells.

Author

Headley, Colwyn A., Gautam, Shalini, Olmo‐Fontanez, Angelica, Garcia‐Vilanova, Andreu, Dwivedi, Varun, Schami, Alyssa, Weintraub, Susan, Tsao, Philip S., Torrelles, Jordi B., and Turner, Joanne

Subjects

T-cell exhaustion, T cell differentiation, OLDER people, IMMUNOLOGIC memory, FATIGUE (Physiology), IMMUNOSENESCENCE, T cells

Abstract

Tuberculosis (TB), caused by Mycobacterium tuberculosis (M.tb), is a major global health concern, particularly affecting those with weakened immune systems, including the elderly. CD4+ T cell response is crucial for immunity against M.tb, but chronic infections and aging can lead to T cell exhaustion and senescence, worsening TB disease. Mitochondrial dysfunction, prevalent in aging and chronic diseases, disrupts cellular metabolism, increases oxidative stress, and impairs T‐cell functions. This study investigates the effect of mitochondrial transplantation (mito‐transfer) on CD4+ T cell differentiation and function in aged mouse models and human CD4+ T cells from elderly individuals. Mito‐transfer in naïve CD4+ T cells is found to promote protective effector and memory T cell generation during M.tb infection in mice. Additionally, it improves elderly human T cell function by increasing mitochondrial mass and altering cytokine production, thereby reducing markers of exhaustion and senescence. These findings suggest mito‐transfer as a novel approach to enhance aged CD4+ T cell functionality, potentially benefiting immune responses in the elderly and chronic TB patients. This has broader implications for diseases where mitochondrial dysfunction contributes to T‐cell exhaustion and senescence. [ABSTRACT FROM AUTHOR]

Published

2024

4. Volatile communication in plants relies on a KAI2-mediated signaling pathway.

Author

Stirling, Shannon A., Guercio, Angelica M., Patrick, Ryan M., Xing-Qi Huang, Bergman, Matthew E., Dwivedi, Varun, Kortbeek, Ruy W. J., Yi-Kai Liu, Fuai Sun, Tao, W. Andy, Ying Li, Boachon, Benoît, Shabek, Nitzan, and Dudareva, Natalia

Published

2024

5. Extracellular Delivery of Functional Mitochondria Rescues the Dysfunction of CD4+ T Cells in Aging.

Author

Headley, Colwyn A., Gautam, Shalini, Olmo‐Fontanez, Angelica, Garcia‐Vilanova, Andreu, Dwivedi, Varun, Akhter, Anwari, Schami, Alyssa, Chiem, Kevin, Ault, Russell, Zhang, Hao, Cai, Hong, Whigham, Alison, Delgado, Jennifer, Hicks, Amberlee, Tsao, Philip S., Gelfond, Jonathan, Martinez‐Sobrido, Luis, Wang, Yufeng, Torrelles, Jordi B., and Turner, Joanne

Subjects

CELLULAR aging, T cells, AEROBIC metabolism, MYCOBACTERIAL diseases, MITOCHONDRIA, MYCOBACTERIUM tuberculosis, CD4 antigen, IMMUNOSENESCENCE

Abstract

Mitochondrial dysfunction alters cellular metabolism, increases tissue oxidative stress, and may be principal to the dysregulated signaling and function of CD4+ T lymphocytes in the elderly. In this proof of principle study, it is investigated whether the transfer of functional mitochondria into CD4+ T cells that are isolated from old mice (aged CD4+ T cells), can abrogate aging‐associated mitochondrial dysfunction, and improve the aged CD4+ T cell functionality. The results show that the delivery of exogenous mitochondria to aged non‐activated CD4+ T cells led to significant mitochondrial proteome alterations highlighted by improved aerobic metabolism and decreased cellular mitoROS. Additionally, mito‐transferred aged CD4+ T cells showed improvements in activation‐induced TCR‐signaling kinetics displaying markers of activation (CD25), increased IL‐2 production, enhanced proliferation ex vivo. Importantly, immune deficient mouse models (RAG‐KO) showed that adoptive transfer of mito‐transferred naive aged CD4+ T cells, protected recipient mice from influenza A and Mycobacterium tuberculosis infections. These findings support mitochondria as targets of therapeutic intervention in aging. [ABSTRACT FROM AUTHOR]

Published

2024

6. Indian Himalayan natural Arabidopsis thaliana accessions with abolished miR158 levels exhibit robust miR173‐initiated trans‐acting cascade silencing.

Author

Tripathi, Abhinandan Mani, Singh, Rajneesh, Verma, Ashwani Kumar, Singh, Akanksha, Mishra, Parneeta, Dwivedi, Varun, Narayan, Shiv, Gandhivel, Vivek Hari Sundar, Shirke, Pramod Arvind, Shivaprasad, Padubidri V., and Roy, Sribash

Subjects

ARABIDOPSIS thaliana, SMALL interfering RNA, GENE expression, NON-coding RNA, GENE silencing, STOMATA

Abstract

SUMMARY: Small RNAs (sRNAs) such as microRNAs (miRNAs) and small interfering RNAs (siRNAs) are short 20–24‐nucleotide non‐coding RNAs. They are key regulators of gene expression in plants and other organisms. Several 22‐nucleotide miRNAs trigger biogenesis cascades of trans‐acting secondary siRNAs, which are involved in various developmental and stress responses. Here we show that Himalayan Arabidopsis thaliana accessions having natural mutations in the miR158 locus exhibit robust cascade silencing of the pentatricopeptide repeat (PPR)‐like locus. Furthermore, we show that these cascade sRNAs trigger tertiary silencing of a gene involved in transpiration and stomatal opening. The natural deletions or insertions in MIR158 led to improper processing of miR158 precursors, thereby blocking synthesis of mature miR158. Reduced miR158 levels led to increased levels of its target, a pseudo‐PPR gene that is targeted by tasiRNAs generated by the miR173 cascade in other accessions. Using sRNA datasets derived from Indian Himalayan accessions, as well as overexpression and knockout lines of miR158, we show that absence of miR158 led to buildup of pseudo‐PPR‐derived tertiary sRNAs. These tertiary sRNAs mediated robust silencing of a gene involved in stomatal closure in Himalayan accessions lacking miR158 expression. We functionally validated the tertiary phasiRNA that targets NHX2, which encodes a Na+‐K+/H+ antiporter protein, thereby regulating transpiration and stomatal conductance. Overall, we report the role of the miRNA–TAS–siRNA–pseudogene–tertiary phasiRNA–NHX2 pathway in plant adaptation. Significance Statement: A natural variant of the miR158 locus of west Himalayan Arabidopsis thaliana shows miRNA‐driven cleavage of a pseudogene, and abolished activity of the miRNA leads to tertiary phasiRNA biogenesis. One such phasiRNA targets a gene that regulates growth and development in A. thaliana. The present study describes negative regulation of phasiRNA biogenesis by a miRNA. [ABSTRACT FROM AUTHOR]

Published

2023

7. An inducible potato (E,E)‐farnesol synthase confers tolerance against bacterial pathogens in potato and tobacco.

Author

Dwivedi, Varun, Kumar, Sarma Rajeev, Shilpashree, H. B., Krishna, Ram, Rao, Srinivas, Shasany, Ajit K., Olsson, Shannon B., and Nagegowda, Dinesh A.

Subjects

FUNCTIONAL genomics, POTATOES, GREEN fluorescent protein, TOBACCO, RALSTONIA solanacearum, PSEUDOMONAS syringae

Abstract

SUMMARY: Terpene synthases (TPSs) have diverse biological functions in plants. Though the roles of TPSs in herbivore defense are well established in many plant species, their role in bacterial defense has been scarce and is emerging. Through functional genomics, here we report the in planta role of potato (Solanum tuberosum) terpene synthase (StTPS18) in bacterial defense. Expression of StTPS18 was highest in leaves and was induced in response to Pseudomonas syringae and methyl jasmonate treatments. The recombinant StTPS18 exhibited bona fide (E,E)‐farnesol synthase activity forming a sesquiterpenoid, (E,E)‐farnesol as the sole product, utilising (E,E)‐farnesyl diphosphate (FPP). Subcellular localization of GFP fusion protein revealed that StTPS18 is localized to the cytosol. Silencing and overexpression of StTPS18 in potato resulted in reduced and enhanced tolerance, respectively, to bacterial pathogens P. syringae and Ralstonia solanacearum. Bacterial growth assay using medium containing (E,E)‐farnesol significantly inhibited P. syringae growth. Moreover, StTPS18 overexpressing transgenic potato and Nicotiana tabacum leaves, and (E,E)‐farnesol and P. syringae infiltrated potato leaves exhibited elevated expression of sterol pathway and members of pathogenesis‐related genes with enhanced phytosterol accumulation. Interestingly, enhanced phytosterols in 13C3‐(E,E)‐farnesol infiltrated potato leaves were devoid of any noticeable 13C labeling, indicating no direct utilization of (E,E)‐farnesol in phytosterols formation. Furthermore, leaves of StTPS18 overexpressing transgenic lines had no detectable (E,E)‐farnesol similar to the control plant, and emitted lower levels of sesquiterpenes than the control. These findings point towards an indirect involvement of StTPS18 and its product (E,E)‐farnesol in bacterial defense through upregulation of phytosterol biosynthesis and defense genes. Significance Statement: Here we show that a pathogen‐responsive potato sesquiterpene synthase forming (E,E)‐farnesol confers indirect defense against bacterial pathogens through induced phytosterol biosynthesis and defense response in potato and tobacco. The findings demonstrate an indirect role of (E,E)‐farnesol in plant biotic stress tolerance. [ABSTRACT FROM AUTHOR]

Published

2022

8. Researchers at Texas Biomedical Research Institute Have Reported New Data on Mycobacterium tuberculosis (Mitochondrial Transplantation Promotes Protective Effector and Memory Cd4+ T Cell Response During mycobacterium...).

Subjects

MYCOBACTERIUM tuberculosis, MYCOBACTERIAL diseases, T-cell exhaustion, GRAM-positive bacteria, T cell differentiation

Abstract

A new report from the Texas Biomedical Research Institute presents fresh data on Mycobacterium tuberculosis, the bacteria that causes tuberculosis (TB). The study focuses on the role of CD4(+) T cells in the immune response against M.tb and how mitochondrial dysfunction can impair T-cell function. The researchers found that mitochondrial transplantation, or mito-transfer, can enhance CD4(+) T cell functionality in aged mouse models and elderly individuals, promoting protective effector and memory T cell generation and reducing markers of exhaustion and senescence. This novel approach may have broader implications for diseases where mitochondrial dysfunction contributes to T-cell exhaustion and senescence. [Extracted from the article]

Published

2024

9. Functional characterization of a defense‐responsive bulnesol/elemol synthase from potato.

Author

Dwivedi, Varun, Rao, Srinivas, Bomzan, Dikki P., Kumar, Sarma R., Shanmugam, Pragadheesh V., Olsson, Shannon B., and Nagegowda, Dinesh A.

Subjects

JASMONATE, METABOLISM, RALSTONIA solanacearum, SECONDARY metabolism, PSEUDOMONAS syringae, SESQUITERPENES

Abstract

Terpene synthases (TPSs) produce a variety of terpenoids that play numerous functional roles in primary and secondary metabolism, as well as in ecological interactions. Here, we report the functional characterization of an inducible potato TPS gene encoding bulnesol/elemol synthase (StBUS/ELS). The expression of StBUS/ELS in potato leaves was significantly induced in response to both bacterial (Pseudomonas syringae) and fungal (Alternaria solani) infection as well as methyl jasmonate treatment, indicating its role in defense. The leaves exhibited the highest StBUS/ELS expression followed by the stem with least and similar expression in tuber, sprout and root. Recombinant StBUS/ELS catalyzed the formation of different sesquiterpenes by utilizing farnesyl diphosphate as substrate, and the monoterpene geraniol from geranyl diphosphate. Among the sesquiterpenes formed by StBUS/ELS, elemol was the predominant product followed by α‐bulnesene, bulnesol and β‐elemene. Further gas chromatography–mass spectrometry (GC–MS) analysis of StBUS/ELS assay products at different injection temperatures revealed elemol and bulnesol as the major products at 275 and 200/150°C, respectively, without much change in the levels of minor products. This indicated thermal rearrangement of bulnesol into elemol at higher temperatures. Transient overexpression of StBUS/ELS in potato leaves conferred tolerance against the growth of bacteria P. syringae and Ralstonia solanacearum, and the fungus A. solani. Further, expression analysis of pathogenesis‐related (PR) genes in StBUS/ELS overexpressing leaves showed no significant change in comparison to control, indicating a direct involvement of StBUS/ELS enzymatic products against pathogens. Overall, our study suggested that StBUS/ELS is a pathogen‐inducible TPS encoding bulnesol/elemol synthase and could provide a direct role in defense against biotic stress in potato. [ABSTRACT FROM AUTHOR]

Published

2021

10. Theoretical model and experimental investigation optically triggered hollow-cathode discharge formation.

Author

HUO, Weijie, HU, Jing, CAO, Xiaotong, QIN, Ling, and ZHAO, Wansheng

Published

2021

11. Tuftsin-Bearing Liposomes Co-Encapsulated with Doxorubicin and Curcumin Efficiently Inhibit EAC Tumor Growth in Mice.

Author

Murugesan, Kalaimathi, Srinivasan, Padmapriya, Mahadeva, Raghunandan, Gupta, Chhitar M, and Haq, Wahajul

Published

2020

12. Plasma simulation to analyze velocity distribution characteristics of pseudospark-sourced electron beam.

Author

Li, Hai-Long, Hu, Chen-Fei, Xu, Che, Yin, Yong, Wang, Bin, Meng, Lin, and Wang, Mao-Yan

Subjects

MONTE Carlo method, ELECTRON beams, MILLIMETER wave devices, CATHODES, VELOCITY, SUBMILLIMETER waves, ELECTRON distribution

Abstract

Pseudospark-sourced electron beam is a promising candidate for driving vacuum electronic devices to generate millimeter wave and terahertz wave radiation as it has a very high combined beam current density. However, the inherent velocity spread of the beam, which is difficult to measure in experiment, has a great influence on the operating frequency and efficiency of the vacuum electronic device. In this paper, the velocity distribution characteristics of the electron beam produced by a single-gap hollow cathode electron gun are numerically studied and a three-dimensional kinetic plasma simulation model of a single-gap hollow cathode electron gun is built by using particle in cell and Monte Carlo collision methods in Vorpal. Based on the simulation model, the time-dependent evolution of the plasma formation inside the hollow cathode and electron beam generation process are observed. It is demonstrated that the pseudospark-sourced electron beam has a relatively large velocity spread. The time-dependent velocity distribution of the beam is analyzed, and the dependence of the beam velocity distribution under various operating conditions such as anode–cathode potential difference, gas pressure, and cathode aperture size are also studied. [ABSTRACT FROM AUTHOR]

Published

2020

13. A plastid‐localized bona fide geranylgeranyl diphosphate synthase plays a necessary role in monoterpene indole alkaloid biosynthesis in Catharanthus roseus.

Author

Kumar, Sarma Rajeev, Rai, Avanish, Bomzan, Dikki Pedenla, Kumar, Krishna, Hemmerlin, Andréa, Dwivedi, Varun, Godbole, Rucha C., Barvkar, Vitthal, Shanker, Karuna, Shilpashree, H. B., Bhattacharya, Ankita, Smitha, Attibele Ramamurthy, Hegde, Namratha, and Nagegowda, Dinesh A.

Subjects

INDOLE alkaloids, CATHARANTHUS roseus, BIOSYNTHESIS, FLUORESCENT proteins, GENE silencing

Abstract

SUMMARY: In plants, geranylgeranyl diphosphate (GGPP, C20) synthesized by GGPP synthase (GGPPS) serves as precursor for vital metabolic branches including specialized metabolites. Here, we report the characterization of a GGPPS (CrGGPPS2) from the Madagascar periwinkle (Catharanthus roseus) and demonstrate its role in monoterpene (C10)‐indole alkaloids (MIA) biosynthesis. The expression of CrGGPPS2 was not induced in response to methyl jasmonate (MeJA), and was similar to the gene encoding type‐I protein geranylgeranyltransferase_β subunit (CrPGGT‐I_β), which modulates MIA formation in C. roseus cell cultures. Recombinant CrGGPPS2 exhibited a bona fide GGPPS activity by catalyzing the formation of GGPP as the sole product. Co‐localization of fluorescent protein fusions clearly showed CrGGPPS2 was targeted to plastids. Downregulation of CrGGPPS2 by virus‐induced gene silencing (VIGS) significantly decreased the expression of transcription factors and pathway genes related to MIA biosynthesis, resulting in reduced MIA. Chemical complementation of CrGGPPS2‐vigs leaves with geranylgeraniol (GGol, alcoholic form of GGPP) restored the negative effects of CrGGPPS2 silencing on MIA biosynthesis. In contrast to VIGS, transient and stable overexpression of CrGGPPS2 enhanced the MIA biosynthesis. Interestingly, VIGS and transgenic‐overexpression of CrGGPPS2 had no effect on the main GGPP‐derived metabolites, cholorophylls and carotenoids in C. roseus leaves. Moreover, silencing of CrPGGT‐I_β, similar to CrGGPPS2‐vigs, negatively affected the genes related to MIA biosynthesis resulting in reduced MIA. Overall, this study demonstrated that plastidial CrGGPPS2 plays an indirect but necessary role in MIA biosynthesis. We propose that CrGGPPS2 might be involved in providing GGPP for modifying proteins of the signaling pathway involved in MIA biosynthesis. Significance Statement: Our study reveals a link between C20 metabolic intermediate (GGPP) and (C10)‐monoterpene indole alkaloids (MIA), thus adding new insights into MIA formation in Catharanthus roseus. The findings demonstrate that the plastid‐localized bona fide CrGGPPS2 plays an important role in MIA biosynthesis through its potential involvement in providing the precursor for protein‐geranylgeranyl‐transferase (PGGT) involved in modulation of the MIA pathway [ABSTRACT FROM AUTHOR]

Published

2020

14. Cytomegalovirus immunoglobulin G titers do not predict reactivation risk in immunocompetent hosts.

Author

Mansfield, Sara A., Dwivedi, Varun, Elgharably, Haytham, Griessl, Marion, Zimmerman, Peter D., Limaye, Ajit P., and Cook, Charles H.

Abstract

Cytomegalovirus (CMV) reactivation occurs in roughly one‐third of immunocompetent patients during critical illness, and is associated with worse outcomes. These outcomes have prompted consideration of early antiviral prophylaxis, but two‐third of patients would receive unnecessary treatment. Tissue viral load has been associated with risk of reactivation in murine models, and recent work has suggested a relationship between immune responses to CMV and underlying viral load. We, therefore, sought to confirm the hypothesis that serum CMV‐specific immunoglobulin G (IgG) correlates with tissue viral load, and might be used to predict the risk of reactivation during critical illness. We confirm that there is a good correlation between tissue viral load and serum CMV‐specific IgG after laboratory infection of inbred mice. Further, we show that naturally infected outbred hosts have variable tissue viral DNA loads that do not correlate well with serum IgG. Perhaps as a consequence, CMV‐specific IgG was not predictive of reactivation events in immunocompetent humans. When reactivation did occur, those with the lowest IgG levels had longer durations of reactivation, but IgG quartiles were not associated with differing peak DNAemia. Together our data suggest that CMV‐specific IgG titers diverge from tissue viral loads in outbred immunocompetent hosts, and their importance for the control of reactivation events remains unclear. [ABSTRACT FROM AUTHOR]

Published

2019

15. Selective delipidation of Mycobacterium bovis BCG enables direct pulmonary vaccination and enhances protection against Mycobacterium tuberculosis.

Author

Moliva, Juan I., Hossfeld, Austin P., Sidiki, Sabeen, Canan, Cynthia H., Dwivedi, Varun, Beamer, Gillian, Turner, Joanne, and Torrelles, Jordi B.

Published

2019

16. A WRKY transcription factor from Withania somnifera regulates triterpenoid withanolide accumulation and biotic stress tolerance through modulation of phytosterol and defense pathways.

Author

Singh, Anup Kumar, Kumar, Sarma Rajeev, Dwivedi, Varun, Rai, Avanish, Pal, Shaifali, Shasany, Ajit K., and Nagegowda, Dinesh A.

Subjects

WITHANIA somnifera, TRANSCRIPTION factors, WITHANOLIDES, PHYTOSTEROLS, PLANT gene silencing, GENE expression in plants, IMMUNOPRECIPITATION

Abstract

Withania somnifera produces pharmacologically important triterpenoid withanolides that are derived via phytosterol pathway; however, their biosynthesis and regulation remain to be elucidated., A jasmonate- and salicin-inducible WRKY transcription factor from W. somnifera ( Ws WRKY1) exhibiting correlation with withaferin A accumulation was functionally characterized employing virus-induced gene silencing and overexpression studies combined with transcript and metabolite analyses, and chromatin immunoprecipitation assay., Ws WRKY1 silencing resulted in stunted plant growth, reduced transcripts of phytosterol pathway genes with corresponding reduction in phytosterols and withanolides in W. somnifera. Its overexpression elevated the biosynthesis of triterpenoids in W. somnifera (phytosterols and withanolides), as well as tobacco and tomato (phytosterols). Moreover, Ws WRKY1 binds to W-box sequences in promoters of W. somnifera genes encoding squalene synthase and squalene epoxidase, indicating its direct regulation of triterpenoid pathway. Furthermore, while Ws WRKY1 silencing in W. somnifera compromised the tolerance to bacterial growth, fungal infection, and insect feeding, its overexpression in tobacco led to improved biotic stress tolerance., Together these findings demonstrate that Ws WRKY1 has a positive regulatory role on phytosterol and withanolides biosynthesis, and defense against biotic stress, highlighting its importance as a metabolic engineering tool for simultaneous improvement of triterpenoid biosynthesis and plant defense. [ABSTRACT FROM AUTHOR]

Published

2017

17. Cytomegalovirus Reinfections Stimulate CD8 T-Memory Inflation.

Author

Trgovcich, Joanne, Kincaid, Michelle, Thomas, Alicia, Griessl, Marion, Zimmerman, Peter, Dwivedi, Varun, Bergdall, Valerie, Klenerman, Paul, and Cook, Charles H.

Subjects

CYTOMEGALOVIRUS diseases, CD8 antigen, VIRUS reactivation, IMMUNOLOGIC memory, T cells, LABORATORY mice

Abstract

Cytomegalovirus (CMV) has been shown to induce large populations of CD8 T-effector memory cells that unlike central memory persist in large quantities following infection, a phenomenon commonly termed “memory inflation”. Although murine models to date have shown very large and persistent CMV-specific T-cell expansions following infection, there is considerable variability in CMV-specific T-memory responses in humans. Historically such memory inflation in humans has been assumed a consequence of reactivation events during the life of the host. Because basic information about CMV infection/re-infection and reactivation in immune competent humans is not available, we used a murine model to test how primary infection, reinfection, and reactivation stimuli influence memory inflation. We show that low titer infections induce “partial” memory inflation of both mCMV specific CD8 T-cells and antibody. We show further that reinfection with different strains can boost partial memory inflation. Finally, we show preliminary results suggesting that a single strong reactivation stimulus does not stimulate memory inflation. Altogether, our results suggest that while high titer primary infections can induce memory inflation, reinfections during the life of a host may be more important than previously appreciated. [ABSTRACT FROM AUTHOR]

Published

2016

18. Broncholaveolar lavage to detect cytomegalovirus infection, latency, and reactivation in immune competent hosts.

Author

Mansfield, Sara, Dwivedi, Varun, Byrd, Sara, Trgovcich, Joanne, Griessl, Marion, Gutknecht, Michael, and Cook, Charles H.

Abstract

Roughly 1/3rd of immune competent patients will reactivate latent cytomegalovirus (CMV) during critical illness. There are no standard methods to detect reactivation, and some investigators have postulated that presence of DNA in BAL fluid is indicative of viral replication. To test this hypothesis, we used a murine model that allows inclusion of matched healthy controls which is not possible in human studies. BALB/c mice infected with Smith-murine CMV or PBS (mock) had BAL evaluated 7, 14, or 21 days after acute infections, during latency, or during bacterial sepsis. Plaque assay, PCR, and rtPCR were performed on BALs and concomitantly obtained lung tissue. BAL cellular compositions, including tetramer evaluation of CMV-specific T cells were evaluated by flow cytometry. CMV DNA were detected in BAL at all time-points during acute infection, becoming undetectable in all mice during latency, then were detected again during bacterial sepsis, peaking 3 weeks after onset. mCMV specific T-cells were most numerous in BAL after acute viral infections, decreasing to low levels during latency, then fluctuating during bacterial sepsis. Specifically, mCMV-specific T-cells contracted at sepsis onset, expanding 2-4 weeks post-sepsis, presumably in response to increased viral loads at that time point. Altogether, our results support the use of BAL PCR for the diagnosis of CMV replication in immune competent hosts. Additionally, we demonstrate dynamic changes in CMV-specific T cells that occur in BAL during CMV infection and during sepsis induced viral reactivation. J. Med. Virol. 88:1408-1416, 2016. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2016

19. Virus-induced gene silencing of Withania somnifera squalene synthase negatively regulates sterol and defence-related genes resulting in reduced withanolides and biotic stress tolerance.

Author

Singh, Anup Kumar, Dwivedi, Varun, Rai, Avanish, Pal, Shaifali, Reddy, Sajjalavarahalli Gangireddy Eswara, Rao, Dodaghatta Krishnarao Venkata, Shasany, Ajit Kumar, and Nagegowda, Dinesh A.

Subjects

WITHANIA somnifera, MEDICINAL plants, SQUALENE, STEROLS, PLANT gene silencing, WITHANOLIDES, PHYSIOLOGICAL stress

Abstract

Withania somnifera (L.) Dunal is an important Indian medicinal plant that produces withanolides, which are triterpenoid steroidal lactones having diverse biological activities. To enable fast and efficient functional characterization of genes in this slow-growing and difficult-to-transform plant, a virus-induced gene silencing (VIGS) was established by silencing phytoene desaturase (PDS) and squalene synthase (SQS). VIGS of the gene encoding SQS, which provides precursors for triterpenoids, resulted in significant reduction of squalene and withanolides, demonstrating its application in studying withanolides biosynthesis in W. somnifera leaves. A comprehensive analysis of gene expression and sterol pathway intermediates in WsSQS-vigs plants revealed transcriptional modulation with positive feedback regulation of mevalonate pathway genes, and negative feed-forward regulation of downstream sterol pathway genes including DWF1 (delta-24-sterol reductase) and CYP710A1 (C-22-sterol desaturase), resulting in significant reduction of sitosterol, campesterol and stigmasterol. However, there was little effect of SQS silencing on cholesterol, indicating the contribution of sitosterol, campesterol and stigmasterol, but not of cholesterol, towards withanolides formation. Branch-point oxidosqualene synthases in WsSQS-vigs plants exhibited differential regulation with reduced CAS (cycloartenol synthase) and cycloartenol, and induced BAS (bamyrin synthase) and b-amyrin. Moreover, SQS silencing also led to the down-regulation of brassinosteroid-6-oxidase-2 (BR6OX2), pathogenesis-related (PR) and nonexpressor of PR (NPR) genes, resulting in reduced tolerance to bacterial and fungal infection as well as to insect feeding. Taken together, SQS silencing negatively regulated sterol and defence-related genes leading to reduced phytosterols, withanolides and biotic stress tolerance, thus implicating the application of VIGS for functional analysis of genes related to withanolides formation in W. somnifera leaves. [ABSTRACT FROM AUTHOR]

Published

2015

20. Pretreatment of Epithelial Cells with Live Streptococcus pneumoniae Has No Detectable Effect on Influenza A Virus Replication In Vitro.

Author

Ouyang, Kang, Woodiga, Shireen A., Dwivedi, Varun, Buckwalter, Carolyn M., Singh, Anirudh K., Binjawadagi, Basavaraj, Hiremath, Jagadish, Manickam, Cordelia, Schleappi, Rose, Khatri, Mahesh, Wu, Jianmin, King, Samantha J., and Renukaradhya, Gourapura J.

Subjects

INFLUENZA A virus, STREPTOCOCCUS pneumoniae, RESPIRATORY infections, RESPIRATORY organ microbiology, VIRAL replication, IN vitro studies, BACTERIAL diseases

Abstract

Influenza A virus (IAV) and Streptococcus pneumoniae (pneumococcus) are two major upper respiratory tract pathogens responsible for exacerbated disease in coinfected individuals. Despite several studies showing increased susceptibility to secondary bacterial infections following IAV infection, information on the direct effect of S. pneumoniae on IAV in vitro is unknown. This is an important area of investigation as S. pneumoniae is a common commensal of the human upper respiratory tract, present as an important coinfecting pathogen with IAV infection. A recent study showed that S. pneumoniae enhances human metapneumovirus infection in polarized bronchial epithelial cells in vitro. The aim of the current study was to determine whether treatment of epithelial cells with S. pneumoniae affects IAV replication using a standard immunofluorescence assay (IFA). For this study we used four IAV permissive epithelial cell lines including two human-derived cell lines, 12 pneumococcal strains including recent human clinical isolates which represent different genetic backgrounds and serotypes, and six IAV strains of varying genetic nature and pathogenic potential including the pandemic 2009 H1N1 virus. Our results suggested that pretreatment of MDCK cells with 7.5×106 colony-forming units (CFUs) of live S. pneumoniae resulted in gradual cell-death in a time-dependent manner (0.5 to 4 hr). But, pretreatment of cell lines with 7.5×105 and lower CFUs of S. pneumoniae had no detectable effect on either the morphology of cells or on the IAV replication. However, unlike in epithelial cell lines, due to influence of secreted host factors the effect of pneumococci on IAV replication may be different during coinfections in vivo in the human upper respiratory tract, and in vitro with primary human polarized bronchial epithelial cells. [ABSTRACT FROM AUTHOR]

Published

2014

21. Biodegradable Nanoparticle-Entrapped Vaccine Induces Cross-Protective Immune Response against a Virulent Heterologous Respiratory Viral Infection in Pigs.

Author

Dwivedi, Varun, Manickam, Cordelia, Binjawadagi, Basavaraj, Joyappa, Dechamma, and Renukaradhya, Gourapura J.

Subjects

VACCINATION, VIRUS diseases, IMMUNE response, IMMUNOLOGY, RETICULO-endothelial system

Abstract

Biodegradable nanoparticle-based vaccine development research is unexplored in large animals and humans. In this study, we illustrated the efficacy of nanoparticle-entrapped UV-killed virus vaccine against an economically important respiratory viral disease of pigs called porcine reproductive and respiratory syndrome virus (PRRSV). We entrapped PLGA [poly (lactideco- glycolides)] nanoparticles with killed PRRSV antigens (Nano-KAg) and detected its phagocytosis by pig alveolar macrophages. Single doses of Nano-KAg vaccine administered intranasally to pigs upregulated innate and PRRSV specific adaptive responses. In a virulent heterologous PRRSV challenge study, Nano-KAg vaccine significantly reduced the lung pathology and viremia, and the viral load in the lungs. Immunologically, enhanced innate and adaptive immune cell population and associated cytokines with decreased secretion of immunosuppressive mediators were observed at both mucosal sites and blood. In summary, we demonstrated the benefits of intranasal delivery of nanoparticle-based viral vaccine in eliciting cross-protective immune response in pigs, a potential large animal model. [ABSTRACT FROM AUTHOR]

Published

2012

22. Mucosal vaccines to prevent porcine reproductive and respiratory syndrome: a new perspective.

Author

Renukaradhya, Gourapura J., Dwivedi, Varun, Manickam, Cordelia, Binjawadagi, Basavaraj, and Benfield, David

Subjects

PORCINE reproductive & respiratory syndrome, VIRUS diseases in swine, IMMUNE response, IMMUNOLOGICAL adjuvants, IMMUNITY, THERAPEUTICS

Abstract

Porcine reproductive and respiratory syndrome (PRRS) is an economically important infectious disease of swine. Constant emergence of variant strains of PRRS virus (PPRSV) and virus-mediated immune evasion followed by viral persistence result in increased incidence and recurrence of PRRS in swine herds. Current live and killed PRRSV vaccines administered by a parenteral route are ineffective in inducing complete protection. Thus, new approaches in design and delivery of PRRSV vaccines are needed to reduce the disease burden of the swine industry. Induction of an effective mucosal immunity to several respiratory pathogens by direct delivery of a vaccine to mucosal sites has proven to be effective in a mouse model. However, there are challenges in eliciting mucosal immunity to PRRS due to our limited understanding of safe and potent mucosal adjuvants, which could potentiate the mucosal immune response to PRRSV. The purpose of this review is to discuss methods for induction of protective mucosal immune responses in the respiratory tract of pigs. The manuscript also discusses how PRRSV modulates innate, adaptive and immunoregulatory responses at both mucosal and systemic sites of infected and/or vaccinated pigs. This information may help in the design of innovative mucosal vaccines to elicit superior cross-protective immunity against divergent field strains of PRRSV. [ABSTRACT FROM PUBLISHER]

Published

2012

23. Functional Invariant NKT Cells in Pig Lungs Regulate the Airway Hyperreactivity: A Potential Animal Model.

Author

Renukaradhya, Gourapura, Manickam, Cordelia, Khatri, Mahesh, Rauf, Abdul, Li, Xiangming, Tsuji, Moriya, Rajashekara, Gireesh, and Dwivedi, Varun

Subjects

KILLER cells, AIRWAY (Anatomy), ASTHMA, CELL culture, CYTOKINES, GLYCOLIPIDS, ANTIGENS, LABORATORY swine

Abstract

Important roles played by invariant natural killer T (iNKT) cells in asthma pathogenesis have been demonstrated. We identified functional iNKT cells and CD1d molecules in pig lungs. Pig iNKT cells cultured in the presence of α-GalCer proliferated and secreted Th1 and Th2 cytokines. Like in other animal models, direct activation of pig lung iNKT cells using α-GalCer resulted in acute airway hyperreactivity (AHR). Clinically, acute AHR-induced pigs had increased respiratory rate, enhanced mucus secretion in the airways, fever, etc. In addition, we observed petechial hemorrhages, infiltration of CD4 cells, and increased Th2 cytokines in AHR-induced pig lungs. Ex vivo proliferated iNKT cells of asthma induced pigs in the presence of C-glycoside analogs of α-GalCer had predominant Th2 phenotype and secreted more of Th2 cytokine, IL-4. Thus, baby pigs may serve as a useful animal model to study iNKT cell-mediated AHR caused by various environmental and microbial CD1d-specific glycolipid antigens. [ABSTRACT FROM AUTHOR]

Published

2011

24. Improvement in the antifilarial efficacy of doxycycline and rifampicin by combination therapy and drug delivery approach.

Author

Dangi, Anil, Dwivedi, Varun, Vedi, Satish, Owais, Mohammad, and Misra-Bhattacharya, Shailja

Subjects

LIPOSOMES, ANTIBIOTICS, RIFAMPIN, FILARIIDAE, MASTOMYS coucha

Abstract

The present investigation deals with the evaluation of antifilarial efficacy of liposome entrapped antiwolbachial antibiotics doxycycline and rifampicin (5 doses at 10 mg/kg, subcutaneously for 15 days) alone and/or in combination with standard filaricide diethylcarbamazine (DEC) against human lymphatic filariid Brugia malayi in rodent host Mastomys coucha. The delivery system maintained the sustained release of antibiotics up to 48 h and significantly ( P < 0.05) augmented the antifilarial potential of these antibiotics over their free administration. A combination of DEC with each entrapped antibiotics significantly ( P<0.05) improved microfilaricidal efficacy, while marginal enhancement was noticed in adulticidal activity. Combination of both antibiotics formulation with DEC demonstrated marginal increase in macrofilaricidal efficacy; however, it was highest (∼75%). [ABSTRACT FROM AUTHOR]

Published

2010

25. Lethality of SARS-CoV-2 infection in K18 human angiotensin-converting enzyme 2 transgenic mice.

Author

Oladunni, Fatai S., Park, Jun-Gyu, Pino, Paula A., Gonzalez, Olga, Akhter, Anwari, Allué-Guardia, Anna, Olmo-Fontánez, Angélica, Gautam, Shalini, Garcia-Vilanova, Andreu, Ye, Chengjin, Chiem, Kevin, Headley, Colwyn, Dwivedi, Varun, Parodi, Laura M., Alfson, Kendra J., Staples, Hilary M., Schami, Alyssa, Garcia, Juan I., Whigham, Alison, and Platt II, Roy Neal

Subjects

ANGIOTENSIN converting enzyme, TRANSGENIC mice, SARS-CoV-2, COVID-19, KERATIN, CYTOKINE release syndrome, VIRAL antibodies

Abstract

Vaccine and antiviral development against SARS-CoV-2 infection or COVID-19 disease would benefit from validated small animal models. Here, we show that transgenic mice expressing human angiotensin-converting enzyme 2 (hACE2) by the human cytokeratin 18 promoter (K18 hACE2) represent a susceptible rodent model. K18 hACE2 transgenic mice succumbed to SARS-CoV-2 infection by day 6, with virus detected in lung airway epithelium and brain. K18 ACE2 transgenic mice produced a modest TH1/2/17 cytokine storm in the lung and spleen that peaked by day 2, and an extended chemokine storm that was detected in both lungs and brain. This chemokine storm was also detected in the brain at day 6. K18 hACE2 transgenic mice are, therefore, highly susceptible to SARS-CoV-2 infection and represent a suitable animal model for the study of viral pathogenesis, and for identification and characterization of vaccines (prophylactic) and antivirals (therapeutics) for SARS-CoV-2 infection and associated severe COVID-19 disease. Here, the authors characterize tissue-level SARS-CoV-2 infection and pathogenesis in transgenic mice expressing human angiotensin converting enzyme 2 (hACE2) by the human cytokeratin 18 promoter (K18-hACE2) and show that infection induces lethality, making the K18-hACE2 model suitable for vaccine and therapeutic evaluation. [ABSTRACT FROM AUTHOR]

Published

2020