Your search keyword '"Paurus V"' showing total 5 results

1. Single Nuclei RNA Sequencing of Differentially Affected Regions in IPF Lungs Suggests a Central Role of Aberrant Basaloid Cells in Disease Progression

Author

Schupp, J.C., primary, Clair, G., additional, Adams, T., additional, Mcdonough, J.E., additional, Flint, J., additional, Kothapalli, N., additional, De Sadeleer, L., additional, Justet, A., additional, Melchior, J., additional, Paurus, V., additional, Olson, H., additional, Deluliis, G., additional, Ahangari, F., additional, Bar-Joseph, Z., additional, Yan, X., additional, Ding, J., additional, Wuyts, W.A., additional, Vanaudenaerde, B., additional, and Kaminski, N., additional

Published

2022

2. Metabolomic, photoprotective, and photosynthetic acclimatory responses to post-flowering drought in sorghum.

Author

Baker CR, Patel-Tupper D, Cole BJ, Ching LG, Dautermann O, Kelikian AC, Allison C, Pedraza J, Sievert J, Bilbao A, Lee JY, Kim YM, Kyle JE, Bloodsworth KJ, Paurus V, Hixson KK, Hutmacher R, Dahlberg J, Lemaux PG, and Niyogi KK

Abstract

Climate change is globally affecting rainfall patterns, necessitating the improvement of drought tolerance in crops. Sorghum bicolor is a relatively drought-tolerant cereal. Functional stay-green sorghum genotypes can maintain green leaf area and efficient grain filling during terminal post-flowering water deprivation, a period of ~10 weeks. To obtain molecular insights into these characteristics, two drought-tolerant genotypes, BTx642 and RTx430, were grown in replicated control and terminal post-flowering drought field plots in California's Central Valley. Photosynthetic, photoprotective, and water dynamics traits were quantified and correlated with metabolomic data collected from leaves, stems, and roots at multiple timepoints during control and drought conditions. Physiological and metabolomic data were then compared to longitudinal RNA sequencing data collected from these two genotypes. The unique metabolic and transcriptomic response to post-flowering drought in sorghum supports a role for the metabolite galactinol in controlling photosynthetic activity through regulating stomatal closure in post-flowering drought. Additionally, in the functional stay-green genotype BTx642, photoprotective responses were specifically induced in post-flowering drought, supporting a role for photoprotection in the molecular response associated with the functional stay-green trait. From these insights, new pathways are identified that can be targeted to maximize yields under growth conditions with limited water., Competing Interests: The authors declare that they have no conflict of interest, financial or otherwise, that influenced this manuscript., (© 2023 The Authors. Plant Direct published by American Society of Plant Biologists and the Society for Experimental Biology and John Wiley & Sons Ltd.)

Published

2023

3. New insights into the natural history of bronchopulmonary dysplasia from proteomics and multiplexed immunohistochemistry.

Author

Dylag AM, Misra RS, Bandyopadhyay G, Poole C, Huyck HL, Jehrio MG, Haak J, Deutsch GH, Dvorak C, Olson HM, Paurus V, Katzman PJ, Woo J, Purkerson JM, Adkins JN, Mariani TJ, Clair GC, and Pryhuber GS

Subjects

Child, Preschool, Infant, Newborn, Humans, Child, Immunohistochemistry, Proteome, Proteomics, Lung metabolism, Bronchopulmonary Dysplasia pathology

Abstract

Bronchopulmonary dysplasia (BPD) is a disease of prematurity related to the arrest of normal lung development. The objective of this study was to better understand how proteome modulation and cell-type shifts are noted in BPD pathology. Pediatric human donors aged 1-3 yr were classified based on history of prematurity and histopathology consistent with "healed" BPD (hBPD, n = 3) and "established" BPD (eBPD, n = 3) compared with respective full-term born ( n = 6) age-matched term controls. Proteins were quantified by tandem mass spectroscopy with selected Western blot validations. Multiplexed immunofluorescence (MxIF) microscopy was performed on lung sections to enumerate cell types. Protein abundances and MxIF cell frequencies were compared among groups using ANOVA. Cell type and ontology enrichment were performed using an in-house tool and/or EnrichR. Proteomics detected 5,746 unique proteins, 186 upregulated and 534 downregulated, in eBPD versus control with fewer proteins differentially abundant in hBPD as compared with age-matched term controls. Cell-type enrichment suggested a loss of alveolar type I, alveolar type II, endothelial/capillary, and lymphatics, and an increase in smooth muscle and fibroblasts consistent with MxIF. Histochemistry and Western analysis also supported predictions of upregulated ferroptosis in eBPD versus control. Finally, several extracellular matrix components mapping to angiogenesis signaling pathways were altered in eBPD. Despite clear parsing by protein abundance, comparative MxIF analysis confirms phenotypic variability in BPD. This work provides the first demonstration of tandem mass spectrometry and multiplexed molecular analysis of human lung tissue for critical elucidation of BPD trajectory-defining factors into early childhood. NEW & NOTEWORTHY We provide new insights into the natural history of bronchopulmonary dysplasia in donor human lungs after the neonatal intensive care unit hospitalization. This study provides new insights into how the proteome and histopathology of BPD changes in early childhood, uncovering novel pathways for future study.

Published

2023

4. Re-routing of Sugar Catabolism Provides a Better Insight Into Fungal Flexibility in Using Plant Biomass-Derived Monomers as Substrates.

Author

Chroumpi T, Peng M, Markillie LM, Mitchell HD, Nicora CD, Hutchinson CM, Paurus V, Tolic N, Clendinen CS, Orr G, Baker SE, Mäkelä MR, and de Vries RP

Abstract

The filamentous ascomycete Aspergillus niger has received increasing interest as a cell factory, being able to efficiently degrade plant cell wall polysaccharides as well as having an extensive metabolism to convert the released monosaccharides into value added compounds. The pentoses D-xylose and L-arabinose are the most abundant monosaccharides in plant biomass after the hexose D-glucose, being major constituents of xylan, pectin and xyloglucan. In this study, the influence of selected pentose catabolic pathway (PCP) deletion strains on growth on plant biomass and re-routing of sugar catabolism was addressed to gain a better understanding of the flexibility of this fungus in using plant biomass-derived monomers. The transcriptome, metabolome and proteome response of three PCP mutant strains, Δ larA Δ xyrA Δ xyrB , Δ ladA Δ xdhA Δ sdhA and Δ xkiA , grown on wheat bran (WB) and sugar beet pulp (SBP), was evaluated. Our results showed that despite the absolute impact of these PCP mutations on pure pentose sugars, they are not as critical for growth of A. niger on more complex biomass substrates, such as WB and SBP. However, significant phenotypic variation was observed between the two biomass substrates, but also between the different PCP mutants. This shows that the high sugar heterogeneity of these substrates in combination with the high complexity and adaptability of the fungal sugar metabolism allow for activation of alternative strategies to support growth., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Chroumpi, Peng, Markillie, Mitchell, Nicora, Hutchinson, Paurus, Tolic, Clendinen, Orr, Baker, Mäkelä and de Vries.)

Published

2021

5. Preserved and variable spatial-chemical changes of lipids across tomato leaves in response to central vein wounding reveals potential origin of linolenic acid in signal transduction cascade.

Author

Veličković D, Chu RK, Henkel C, Nyhuis A, Tao N, Kyle JE, Adkins JN, Anderton CR, Paurus V, Bloodsworth K, Bramer LM, Cornett DS, Curtis WR, and Burnum-Johnson KE

Abstract

Membrane lipids serve as substrates for the generation of numerous signaling lipids when plants are exposed to environmental stresses, and jasmonic acid, an oxidized product of 18-carbon unsaturated fatty acids (e.g., linolenic acid), has been recognized as the essential signal in wound-induced gene expression. Yet, the contribution of individual membrane lipids in linolenic acid generation is ill-defined. In this work, we performed spatial lipidomic experiments to track lipid changes that occur locally at the sight of leaf injury to better understand the potential origin of linolenic and linoleic acids from individual membrane lipids. The central veins of tomato leaflets were crushed using surgical forceps, leaves were cryosectioned and analyzed by two orthogonal matrix-assisted laser desorption/ionization mass spectrometry imaging platforms for insight into lipid spatial distribution. Significant changes in lipid composition are only observed 30 min after wounding, while after 60 min lipidome homeostasis has been re-established. Phosphatidylcholines exhibit a variable pattern of spatial behavior in individual plants. Among lysolipids, lysophosphatidylcholines strongly co-localize with the injured zone of wounded leaflets, while, for example, lysophosphatidylglycerol (LPG) (16:1) accumulated preferentially toward the apex in the injured zone of wounded leaflets. In contrast, two other LPGs (LPG [18:3] and LPG [18:2]) are depleted in the injured zone. Our high-resolution co-localization imaging analyses suggest that linolenic acids are predominantly released from PCs with 16_18 fatty acid composition along the entire leaf, while it seems that in the apex zone PG (16:1_18:3) significantly contributes to the linolenic acid pool. These results also indicate distinct localization and/or substrate preferences of phospholipase isoforms in leaf tissue., Competing Interests: The authors have no conflict of interest to declare., (© 2021 The Authors. Journal of Plant‐Environment Interactions Published by John Wiley & Sons Ltd.)

Published

2021