Tanzila Islam scite author profile

Probably the most effective current vaccine against Marek's disease is the live Rispens (CVI988) attenuated serotype 1 Marek's disease virus (MDV). It is unknown whether the currently available Rispens vaccines transmit effectively between chickens. To investigate the kinetics and shedding of three commercially available strains of this virus and the extent of lateral transmission, we measured the shedding rate in dander and the viral load in peripheral blood lymphocytes (PBLs) and feather tips over time. Four identical climate-controlled rooms were stocked with a total of 70 specific-pathogen-free chickens for 56 days. In each of three rooms, 10 chickens were vaccinated with one of the commercial vaccines at day old and left in contact with 10 unvaccinated chickens. The fourth room contained 10 unvaccinated control chickens. As determined by MDV-specific quantitative real-time polymerase chain reaction of weekly room dust and individual PBLs and feather tip samples, the vaccine virus was shed from the vaccinated chickens in dander from day 7 postvaccination and transmitted effectively from vaccinated to in-contact chickens with a lag period of 2-3 wk. Viral load in PBLs and feather tips peaked at days 7 and 14, respectively, and declined thereafter, whereas viral load in dust increased rapidly to day 21 and then increased gradually thereafter. Antibody titer at day 56 was correlated with earlier measures of MDV load in PBLs but not feather tips or dust. These results show that currently available Rispens CVI988 vaccine virus is shed in significant quantities from vaccinated chickens and transmits effectively between chickens.

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Replication kinetics and shedding of very virulent Marek's disease virus and vaccinal Rispens/CVI988 virus during single and mixed infections varying in order and interval between infections

Islam

Walkden‐Brown

Renz

et al. 2014

Veterinary Microbiology

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Vaccination-challenge interval markedly influences protection provided by Rispens CVI988 vaccine against very virulent Marek's disease virus challenge

et al. 2013

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The Rispens (CVI988) vaccine is widely used to vaccinate chickens worldwide. We tested the protective effects of the Rispens vaccine against challenge with very virulent Marek's disease virus (vvMDV) at various intervals at, before or after vaccination. The experiment used commercial ISA Brown layers and vvMDV isolate 02LAR. The protective index (PI) was measured for vaccination challenge intervals (VCI) of -10, -5, 0, 5 and 10 days, with the negative values indicating challenge prior to vaccination. Chickens were challenged by injection with 400 plaque-forming units (PFU) of 02LAR and/or vaccinated with 3200 PFU of the Rispens vaccine virus at days 0, 5 and 10 of age, with appropriate negative controls injected with diluent only. The presence of visible Marek's disease tumours was assessed up to 56 days post challenge. MDV challenge in unvaccinated chickens resulted in tumours in 52% of chickens. The Rispens vaccine provided no significant protection when challenge preceded vaccination, with PIs of -4 and 21% for VCI of -5 and -10 days respectively. On the other hand, it provided PIs of 60, 85 and 100% at VCI of 0, 5 and 10 days respectively. The study also revealed that the vvMDV load in peripheral blood lymphocytes or feather tips at 14 and 21 days post infection as determined by quantitative real-time polymerase chain reaction, which can distinguish pathogenic MDV from the Rispens vaccine strain, was an accurate early predictor of Marek's disease incidence at 56 days post challenge. The load of Rispens virus in peripheral blood lymphocytes or feathers at the same times post vaccination did not offer similar predictive power.

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Quantitative investigation of MDA-MB-231 breast cancer cell motility: dependence on epidermal growth factor concentration and its gradient

Islam

Resat

2017

Mol. BioSyst.

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Enhanced cell motility is one of the primary features of cancer. Accumulated evidence demonstrates that Epidermal Growth Factor Receptor (EGFR) mediated pathways play an important role in breast cancer cell proliferation and migration. We have quantified the MDA-MB-231 breast cancer cell migration in response to the stimulation of EGFR pathways with its ligand EGF to determine how cell motility of MDA-MB-231 cells depend on the ligand concentration and its gradient. Analysis at the single cell level combined with mathematical modeling and the ability to vary the ligand concentration and gradients locally using microfluidic devices allowed us to separate the unique contributions of ligand concentration and ligand gradients to cell motility. We tracked the motility of 6,600 cells individually using time lapse imaging under varying EGF stimulation conditions. Trajectory analysis of the tracked cells using non-linear multivariate regression models showed that: i) Cell migration of MDA-MB-231 breast cancer cells depends on ligand gradient but not on the ligand concentration. This observation was valid for both the total (direction independent) and directed (along gradient direction) cell velocities. Although the dependence of the directed motility on ligand gradient is to be expected, dependence of the total velocity solely on ligand gradient was an unexpected novel observation. ii) Enhancement of motilities of individual cells in a population upon exposure to ligand was highly heterogeneous, and only a very small percentage of cells responded strongly to the external stimuli. Separating out the non-responding cells using quantitative analysis of individual cell motilities enabled us to establish that enhanced motility of the responding cells indeed increases monotonically with increasing EGF gradient. iii) A large proportion of cells in a population were unresponsive to ligand stimulation, and their presence introduced considerable random intrinsic variability to the observations. This indicated that studying cell motilities at individual cell level is necessary to better capture the biological reality and that population averaging methods should be avoided. Studying motilities at individual cell level is particularly important to understand the biological processes which are possibly driven by the action of a small portion of cells in a population, such as metastasis. We discuss the implications of our results on the total and chemotactic movement of cancer cells in the tumor microenvironment.

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EGFR signaling pathways are wired differently in normal 184A1L5 human mammary epithelial and MDA-MB-231 breast cancer cells

Speth

Islam

Banerjee

et al. 2017

J. Cell Commun. Signal.

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Because of differences in the downstream signaling patterns of its pathways, the role of the human epidermal growth factor family of receptors (HER) in promoting cell growth and survival is cell line and context dependent. Using two model cell lines, we have studied how the regulatory interaction network among the key proteins of HER signaling pathways may be rewired upon normal to cancerous transformation. We in particular investigated how the transcription factor STAT3 and several key kinases' involvement in cancer-related signaling processes differ between normal 184A1L5 human mammary epithelial (HME) and MDA-MB-231 breast cancer epithelial cells. Comparison of the responses in these cells showed that normal-to-cancerous cellular transformation causes a major re-wiring of the growth factor initiated signaling. In particular, we found that: i) regulatory interactions between Erk, p38, JNK and STAT3 are triangulated and tightly coupled in 184A1L5 HME cells, and ii) STAT3 is only weakly associated with the Erk-p38-JNK pathway in MDA-MB-231 cells. Utilizing the concept of pathway substitution, we predicted how the observed differences in the regulatory interactions may affect the proliferation/survival and motility responses of the 184A1L5 and MDA-MB-231 cells when exposed to various inhibitors. We then validated our predictions experimentally to complete the experimentcomputation-experiment iteration loop. Validated differences in the regulatory interactions of the 184A1L5 and MDA-MB-231 cells indicated that instead of inhibiting STAT3, which has severe toxic side effects, simultaneous inhibition of JNK together with Erk or p38 could be a more effective strategy to impose cell death selectively to MDA-MB-231 cancer cells while considerably lowering the side effects to normal epithelial cells. Presented analysis establishes a framework with examples that would enable cell signaling researchers to identify the signaling network structures which can be used to predict the phenotypic responses in particular cell lines of interest.

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Tanzila Islam

Viral Kinetics, Shedding Profile, and Transmission of Serotype 1 Marek's Disease Vaccine Rispens/CVI988 in Maternal Antibody-Free Chickens

Replication kinetics and shedding of very virulent Marek's disease virus and vaccinal Rispens/CVI988 virus during single and mixed infections varying in order and interval between infections

Vaccination-challenge interval markedly influences protection provided by Rispens CVI988 vaccine against very virulent Marek's disease virus challenge

Quantitative investigation of MDA-MB-231 breast cancer cell motility: dependence on epidermal growth factor concentration and its gradient

EGFR signaling pathways are wired differently in normal 184A1L5 human mammary epithelial and MDA-MB-231 breast cancer cells

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