Allyl isothiocyanate inhibits actin mediated intracellular transport in Arabidopsis thaliana.

Volatile allyl isothiocyanate (AITC) derives from the biodegradation of the glucosinolate sinigrin and has been associated with growth inhibition in several plants, including the model plant Arabidopsis thaliana. However, the underlying cellular mechanisms of this feature remain scarcely investigated in plants. In this study, we present evidence of an AITC-induced inhibition of actin-dependent intracellular transport in A. thaliana. A transgenic line of A. thaliana expressing yellow fluorescent protein (YFP)-tagged actin filaments was used to show attenuation of actin filament movement by AITC. This appeared gradually in a time- and dose-dependent manner and resulted in actin filaments appearing close to static. Further, we employed four transgenic lines with YFP-fusion proteins labeling the Golgi apparatus, endoplasmic reticulum (ER), vacuoles and peroxisomes to demonstrate an AITC-induced inhibition of actin-dependent intracellular transport of or, in these structures, consistent with the decline in actin filament movement. Furthermore, the morphologies of actin filaments, ER and vacuoles appeared aberrant following AITC-exposure. However, AITC-treated seedlings of all transgenic lines tested displayed morphologies and intracellular movements similar to that of the corresponding untreated and control-treated plants, following overnight incubation in an AITC-absent environment, indicating that AITC-induced decline in actin-related movements is a reversible process. These findings provide novel insights into the cellular events in plant cells following exposure to AITC, which may further expose clues to the physiological significance of the glucosinolate-myrosinase system© 2015 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons by Attribution (CC-BY) license (http://creativecommons.org/licenses/by/4.0/)

Allyl-isothiocyanate treatment induces a complex transcriptional reprogramming including heat stress, oxidative stress and plant defence responses in Arabidopsis thaliana

Comparison of the transcriptional response to allyl-ITC with the CPR response. (XLSX 85 kb

Rapport utvekslingsprosjekt Japan 2016-2019

Oppdragsgiver: Høgskolen i Innlandet, høgskolesenteret i Kongsvinger og Scandinavia-Japan Sasakawa Foundation.Våren 2016 begynte planleggingen av en utveksling av sykepleiestudentet mellom Kitasatouniversitetet i Sagamihara, Japan og Høgskolen i Innlandet, Norge. Det ble søkt om midler og planleggingen av den første turent til japan begynte. Fem stykker fra Norge dro til japan i juni 2017. Vi var der i 14 dager. Konklusjonene på oppholdet var at det kunne bli en god utvekslingspraksis for studenter, både fra Japan til Norge og omvendt. Denne rapporten viser vår vei fra planleggingen begynte i 2016 til utvekslingsoppholdet i 2019. Både utveksling av studenter og samarbeid gjennom forskning og fagutvikling mellom høgskolen i Inlandet og Kitasato Universitetet var et faktum.Abstract: In the spring of 2016, planning began for an exchange of the nursing student between Kitasato University in Sagamihara, Japan and Innlandet University College, Norway. Funds were applied for and the planning of the first trip to Japan began. Five pieces from Norway went to Japan in June 2017. We were there for 14 days. The conclusions of the stay were that it could be a good exchange practice for students, both from Japan to Norway and vice versa. This report shows our path from the planning began in 2016 to the exchange stay in 2019. Both exchange of students and collaboration through research and professional development between Inland University College and Kitasato University was a fact.publishedVersio

Preoperative predictors of pathological tumour stage and prognosis may be used when selecting candidates for intensified treatment in upper tract urothelial carcinoma

Purpose: Intensified treatment such as extended lymph node dissection (LND) and/or perioperative chemotherapy in addition to radical nephroureterectomy (RNU) has been suggested for high-risk cases of upper tract urothelial carcinoma (UTUC). We aimed to identify preoperative predictors of tumour stage and prognosis in the diagnostic work-up before RNU. Further to evaluate if our findings could be used in selecting patients for intensified treatment. Patients and methods: A total of 179 patients treated with RNU for UTUC at Haukeland University Hospital (HUS) and Vestfold Hospital Trust (VHT) during 2005–2017 were included in this retrospective study. All relevant preoperative variables regarding the patient, the CT and the ureteroscopy (URS) were registered and analysed regarding their ability to predict non-organ confined disease (NOCD, pT3þ and/or Nþ) at final pathology after RNU. The prognosis was assessed calculating survival for the cohort and stratified by preoperative variables. Results: Local invasion and pathological lymph nodes at CT predicted NOCD in uni and multivariate regression analyses (OR 3.36, p¼.004 and OR 6.21, p¼.03, respectively). Reactive oedema surrounding the tumour (OR 2.55, p¼.02), tumour size (4.8 vs. 3.9 cm, p¼.006) and high-grade tumour at URS biopsy (OR 3.59, p¼.04) predicted NOCD at univariate regression analyses. The 5-year CSS and OS for the entire cohort was 79% and 60%. ECOG, local invasion, pathological lymph nodes and reactive oedema surrounding the tumour at CT predicted CSS. Conclusions: Several variables at the CT predicted both stage and survival. Local invasion at CT seems the most promising feature for selecting patients for intensified treatment.publishedVersio

Optimized submerged batch fermentation strategy for systems scale studies of metabolic switching in Streptomyces coelicolor A3(2)

Background: Systems biology approaches to study metabolic switching in Streptomyces coelicolor A3(2) depend on cultivation conditions ensuring high reproducibility and distinct phases of culture growth and secondary metabolite production. In addition, biomass concentrations must be sufficiently high to allow for extensive time-series sampling before occurrence of a given nutrient depletion for transition triggering. The present study describes for the first time the development of a dedicated optimized submerged batch fermentation strategy as the basis for highly time-resolved systems biology studies of metabolic switching in S. coelicolor A3(2). Results: By a step-wise approach, cultivation conditions and two fully defined cultivation media were developed and evaluated using strain M145 of S. coelicolor A3(2), providing a high degree of cultivation reproducibility and enabling reliable studies of the effect of phosphate depletion and L-glutamate depletion on the metabolic transition to antibiotic production phase. Interestingly, both of the two carbon sources provided, D-glucose and L-glutamate, were found to be necessary in order to maintain high growth rates and prevent secondary metabolite production before nutrient depletion. Comparative analysis of batch cultivations with (i) both L-glutamate and D-glucose in excess, (ii) L-glutamate depletion and D-glucose in excess, (iii) L-glutamate as the sole source of carbon and (iv) D-glucose as the sole source of carbon, reveal a complex interplay of the two carbon sources in the bacterium's central carbon metabolism. Conclusions: The present study presents for the first time a dedicated cultivation strategy fulfilling the requirements for systems biology studies of metabolic switching in S. coelicolor A3(2). Key results from labelling and cultivation experiments on either or both of the two carbon sources provided indicate that in the presence of D-glucose, L-glutamate was the preferred carbon source, while D-glucose alone appeared incapable of maintaining culture growth, likely due to a metabolic bottleneck at the oxidation of pyruvate to acetyl-CoA

Allyl isothiocyanate inhibits actin mediated intracellular transport in Arabidopsis thaliana.

Volatile allyl isothiocyanate (AITC) derives from the biodegradation of the glucosinolate sinigrin and has been associated with growth inhibition in several plants, including the model plant Arabidopsis thaliana. However, the underlying cellular mechanisms of this feature remain scarcely investigated in plants. In this study, we present evidence of an AITC-induced inhibition of actin-dependent intracellular transport in A. thaliana. A transgenic line of A. thaliana expressing yellow fluorescent protein (YFP)-tagged actin filaments was used to show attenuation of actin filament movement by AITC. This appeared gradually in a time- and dose-dependent manner and resulted in actin filaments appearing close to static. Further, we employed four transgenic lines with YFP-fusion proteins labeling the Golgi apparatus, endoplasmic reticulum (ER), vacuoles and peroxisomes to demonstrate an AITC-induced inhibition of actin-dependent intracellular transport of or, in these structures, consistent with the decline in actin filament movement. Furthermore, the morphologies of actin filaments, ER and vacuoles appeared aberrant following AITC-exposure. However, AITC-treated seedlings of all transgenic lines tested displayed morphologies and intracellular movements similar to that of the corresponding untreated and control-treated plants, following overnight incubation in an AITC-absent environment, indicating that AITC-induced decline in actin-related movements is a reversible process. These findings provide novel insights into the cellular events in plant cells following exposure to AITC, which may further expose clues to the physiological significance of the glucosinolate-myrosinase syste

Allyl isothiocyanate affects the cell cycle of Arabidopsis thaliana

Isothiocyanates (ITCs) are degradation products of glucosinolates present in members of the Brassicaceae family acting as herbivore repellents and antimicrobial compounds. Recent results indicate that allyl ITC (AITC) has a role in defense responses such as glutathione depletion, ROS generation and stomatal closure. In this study we show that exposure to non-lethal concentrations of AITC causes a shift in the cell cycle distribution of Arabidopsis thaliana leading to accumulation of cells in S-phases and a reduced number of cells in non-replicating phases. Furthermore, transcriptional analysis revealed an AITC-induced up-regulation of the gene encoding cyclin-dependent kinase A while several genes encoding mitotic proteins were down-regulated, suggesting an inhibition of mitotic processes. Interestingly, visualization of DNA synthesis indicated that exposure to AITC reduced the rate of DNA replication. Taken together, these results indicate that non-lethal concentrations of AITC induce cells of A. thaliana to enter the cell cycle and accumulate in S-phases, presumably as a part of a defensive response. Thus, this study suggests that AITC has several roles in plant defense and add evidence to the growing data supporting a multifunctional role of glucosinolates and their degradation products in plants

Naturally occurring phenethyl isothiocyanate-induced inhibition of gastric cancer cell growth by disruption of microtubules

Abstract Background and Aim Phenethyl isothiocyanate (PEITC) derives from vegetables commonly consumed by man and has been demonstrated as a promising chemopreventive agent against several types of cancer. However, the potential in preventing gastric cancer as well as the underlying mechanisms are to date not fully understood. The present study aimed at elucidating the cellular effects induced by PEITC in gastric cancer cells leading to apoptosis. Methods The human gastric cancer cell lines Kato-III and MKN74 were employed. Cell proliferation was assayed using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay. Morphology and migration were investigated through a contrast microscope. Cell cycle distribution was analyzed using flow cytometry of PI-stained cells. Microtubules were studied by confocal detection of Kato-III cells transfected to express GFP-tagged microtubules. Commercial kits were employed to study the effect of PEITC on apoptosis, caspase-3 activity, and glutathione content in MKN74 cells. Results Kato-III and MKN74 cells responded, with different sensitivity, dose- and time-dependently in inhibition of cell proliferation to PEITC treatment. Further, PEITC induced aberrated cell morphologies and inhibited migration of MKN74 cells. Kato-III cells treated with PEITC accumulated in G2/M phase and displayed a loss of microtubuli with the subsequent formation of apoptotic bodies. Although weak responses, MKN74 cells also accumulated in G2/M phase, became apoptotic, increased caspase-3 activity, and suffered a reduction of glutathione pool. Conclusion Our findings demonstrate that PEITC induces disintegration of microtubules in human gastric cancer cells contributing to cell cycle arrest and ultimately apoptosis, contributing to an increased understanding of PEITC-induced inhibition of gastric cancer cell growth