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1. Modulated Fibrosis and Mechanosensing of Fibroblasts by SB525334 in Pediatric Subglottic Stenosis

   https://doi.org/10.1002/lary.30873  

   Ali Akbari Ghavimi, Soheila; Aronson, Matthew R.; Ghaderi, Daniel D.; Friedman, Ryan M.; Patel, Neil; Giordano, Terri; Borek, Ryan C.; Devine, Conor M.; Han, Lin; Jacobs, Ian N.; et al (July 2023, The Laryngoscope)

   ObjectiveSubglottic stenosis (SGS) may result from prolonged intubation where fibrotic scar tissue narrows the airway. The scar forms by differentiated myofibroblasts secreting excessive extracellular matrix (ECM). TGF‐β1 is widely accepted as a regulator of fibrosis; however, it is unclear how biomechanical pathways co‐regulate fibrosis. Therefore, we phenotyped fibroblasts from pediatric patients with SGS to explore how key signaling pathways, TGF‐β and Hippo, impact scarring and assess the impact of inhibiting these pathways with potential therapeutic small molecules SB525334 and DRD1 agonist dihydrexidine hydrochloride (DHX). MethodsLaryngeal fibroblasts isolated from subglottic as well as distal control biopsies of patients with evolving and maturing subglottic stenosis were assessed by α‐smooth muscle actin immunostaining and gene expression for α‐SMA, FN, HGF, and CTGF markers. TGF‐β and Hippo signaling pathways were modulated during TGF‐β1‐induced fibrosis using the inhibitor SB525334 or DHX and analyzed by RT‐qPCR for differential gene expression and atomic force microscopy for ECM stiffness. ResultsSGS fibroblasts exhibited higher α‐SMA staining and greater inflammatory cytokine and fibrotic marker expression upon TGF‐β1 stimulation (p < 0.05). SB525334 restored levels to baseline by reducing SMAD2/3 nuclear translocation (p < 0.0001) and pro‐fibrotic gene expression (p < 0.05). ECM stiffness of stenotic fibroblasts was greater than healthy fibroblasts and was restored to baseline by Hippo pathway modulation using SB525334 and DHX (p < 0.01). ConclusionWe demonstrate that distinct fibroblast phenotypes from diseased and healthy regions of pediatric SGS patients respond differently to TGF‐β1 stimulation, and SB525334 has the superior potential for subglottic stenosis treatment by simultaneously modulating TGF‐β and Hippo signaling pathways. Level of EvidenceNALaryngoscope, 134:287–296, 2024 

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2. Shear stress magnitude and transforming growth factor-βeta 1 regulate endothelial to mesenchymal transformation in a three-dimensional culture microfluidic device

   https://doi.org/10.1039/C6RA16607E  

   Mina, Sara G.; Wang, Wei; Cao, Qingfeng; Huang, Peter; Murray, Bruce T.; Mahler, Gretchen J. (January 2016, RSC Advances)

   Normal fibroblasts are present within the extracellular matrix (ECM). They can become activated, leading to increased proliferation and ECM protein secretion such as collagen type I to promote tissue remodeling. These cells are also involved in adult pathologies including cancer metastasis and cardiac and renal fibrosis. One source of activated fibroblasts is endothelial to mesenchymal transformation (EndMT), in which endothelial cells lose their cell–cell and cell–ECM adhesions, gain invasive properties, and become mesenchymal cells. While EndMT is well characterized in developmental biology, the mechanisms and functional role of EndMT in adult physiology and pathology have not been fully investigated. A microfluidic device with an incorporated three-dimensional ECM chamber was developed to study the role of combined steady fluid shear stress magnitudes and transforming growth factor-βeta 1 (TGF-β1) on EndMT. Low (1 dyne per cm 2 ) steady shear stress and TGF-β1 exposure induced EndMT in endothelial cells, including upregulation of mesenchymal protein and gene expression markers. Cells exposed to TGF-β1 and high (20 dynes per cm 2 ) steady shear stress did not undergo EndMT, and protein and gene expression of mesenchymal markers was significantly downregulated. Mesenchymally transformed cells under static conditions with and without TGF-β1 showed significantly more collagen production when compared to fluidic conditions. These results confirm that both low shear stress and TGF-β1 induce EndMT in endothelial cells, but this process can be prevented by exposure to physiologically relevant high shear stress. These results also show conditions most likely to cause tissue pathology. 

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3. CD36‐Binding Amphiphilic Nanoparticles for Attenuation of α‐Synuclein‐Induced Microglial Activation

   https://doi.org/10.1002/anbr.202100120  

   Zhao, Nanxia; Francis, Nicola_L; Song, Shuang; Kholodovych, Vladyslav; Calvelli, Hannah_R; Hoop, Cody_L; Pang, Zhiping_P; Baum, Jean; Uhrich, Kathryn_E; Moghe, Prabhas_V (March 2022, Advanced NanoBiomed Research)

   Neuroinflammation is one of the hallmarks contributing to Parkinson's disease (PD) pathology, where microglial activation occurs as one of the earliest events, triggered by extracellular α‐synuclein (aSYN) binding to the cluster of differentation 36 (CD36) receptor. Herein, CD36‐binding nanoparticles (NPs) containing tartaric acid–based amphiphilic macromolecules (AMs) are rationally designed to inhibit this aSYN–CD36 binding. In silico docking reveals that four AMs with varying alkyl side chain lengths present differential levels of CD36 binding affinity and that an optimal alkyl chain length promotes the strongest inhibitory activity toward aSYN–CD36 interactions. In vitro competitive binding assays indicate that the inhibitory activity of AM‐based NPs plateaus at intermediate side chain lengths of 12 and 18 carbons, supporting the in silico docking predictions. These intermediate‐length AM NPs also has significantly stronger effects on reducing aSYN internalization and inhibiting proinflammatory molecules tumor necrosis factor α (TNF‐α) and nitric oxide from aSYN‐challenged microglia. All four NPs modulate the gene expression of aSYN‐challenged microglia, downregulating proinflammatory genes TNF, interleukin 6 (IL‐6), and IL‐1β, and upregulating anti‐inflammatory genes transforming growth factor β (TGF‐β) and Arg1 expression. Herein, overall, a novel polymeric nanotechnology platform is represented that can be used to modulate aSYN‐induced microglial activation. 

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4. Coinfection of channel catfish ( Ictalurus punctatus ) with virulent Aeromonas hydrophila and Flavobacterium covae exacerbates mortality

   https://doi.org/10.1111/jfd.13912  

   Wise, Allison L; LaFrentz, Benjamin R; Kelly, Anita M; Liles, Mark R; Griffin, Matt J; Beck, Benjamin H; Bruce, Timothy J (January 2024, Journal of Fish Diseases)

   Abstract Flavobacterium covaeand virulentAeromonas hydrophilaare prevalent bacterial pathogens within the US catfish industry that can cause high mortality in production ponds. An assessment of in vivo bacterial coinfection with virulentA. hydrophila(ML09‐119) andF. covae(ALG‐00‐530) was conducted in juvenile channel catfish (Ictalurus punctatus). Catfish were divided into seven treatments: (1) mock control; (2) and (3) high and low doses of virulentA. hydrophila; (4) and (5) high and low doses ofF. covae; (6) and (7) simultaneous challenge with high and low doses of virulentA. hydrophilaandF. covae. In addition to the mortality assessment, anterior kidney and spleen were collected to evaluate immune gene expression, as well as quantify bacterial load by qPCR. At 96 h post‐challenge (hpc), the high dose of virulentA. hydrophilainfection (immersed in 2.3 × 10⁷ CFU mL⁻¹) resulted in cumulative percent mortality (CPM) of 28.3 ± 9.5%, while the high dose ofF. covae(immersed in 5.2 × 10⁶ CFU mL⁻¹) yielded CPM of 23.3 ± 12.9%. When these pathogens were delivered in combination, CPM significantly increased for both the high‐ (98.3 ± 1.36%) and low‐dose combinations (76.7 ± 17.05%) (p < .001). Lysozyme activity was found to be different at 24 and 48 hpc, with the high‐dose vAh group demonstrating greater levels than unexposed control fish at each time point. Three proinflammatory cytokines (tnfα,il8,il1b) demonstrated increased expression levels at 48 hpc. These results demonstrate the additive effects on mortality when these two pathogens are combined. The synthesis of these mortality and health metrics advances our understanding of coinfections of these two important catfish pathogens and will aid fish health diagnosticians and channel catfish producers in developing therapeutants and prevention methods to control bacterial coinfections. 

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5. The Infection Dynamics of Experimental Edwardsiella ictaluri and Flavobacterium covae Coinfection in Channel Catfish (Ictalurus punctatus)

   https://doi.org/10.3390/pathogens12030462  

   Wise, Allison L.; LaFrentz, Benjamin R.; Kelly, Anita M.; Liles, Mark R.; Griffin, Matt J.; Beck, Benjamin H.; Bruce, Timothy J. (March 2023, Pathogens)

   Edwardsiella ictaluri and Flavobacterium covae are pervasive bacterial pathogens associated with significant losses in catfish aquaculture. Bacterial coinfections have the potential to increase outbreak severity and can worsen on-farm mortality. A preliminary assessment of in vivo bacterial coinfection with E. ictaluri (S97-773) and F. covae (ALG-00-530) was conducted using juvenile channel catfish (Ictalurus punctatus). Catfish were divided into five treatment groups: (1) mock control; (2) E. ictaluri full dose (immersion; 5.4 × 105 CFU mL−1); (3) F. covae full dose (immersion; 3.6 × 106 CFU mL−1); (4) E. ictaluri half dose (immersion; 2.7 × 105 CFU mL−1) followed by half dose F. covae (immersion; 1.8 × 106 CFU mL−1); and (5) F. covae half dose followed by half dose E. ictaluri. In the coinfection challenges, the second inoculum was delivered 48 h after the initial exposure. At 21 days post-challenge (DPC), the single dose E. ictaluri infection yielded a cumulative percent mortality (CPM) of 90.0 ± 4.1%, compared with 13.3 ± 5.9% in the F. covae group. Mortality patterns in coinfection challenges mimicked the single dose E. ictaluri challenge, with CPM of 93.3 ± 5.4% for fish initially challenged with E. ictaluri followed by F. covae, and 93.3 ± 2.7% for fish exposed to F. covae and subsequently challenged with E. ictaluri. Despite similarities in the final CPM within the coinfection groups, the onset of peak mortality was delayed in fish exposed to F. covae first but was congruent with mortality trends in the E. ictaluri challenge. Catfish exposed to E. ictaluri in both the single and coinfected treatments displayed increased serum lysozyme activity at 4-DPC (p < 0.001). Three pro-inflammatory cytokines (il8, tnfα, il1β) were evaluated for gene expression, revealing an increase in expression at 7-DPC in all E. ictaluri exposed treatments (p < 0.05). These data enhance our understanding of the dynamics of E. ictaluri and F. covae coinfections in US farm-raised catfish. 

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