Your search keyword '"protein expression"' showing total 65,604 results

1. Solving the time-dependent protein distributions for autoregulated bursty gene expression using spectral decomposition.

Author

Wu, Bingjie, Holehouse, James, Grima, Ramon, and Jia, Chen

Subjects

*GENE expression, *GENE regulatory networks, *DECOMPOSITION method, *PROTEIN expression, *CONTINUED fractions

Abstract

In this study, we obtain an exact time-dependent solution of the chemical master equation (CME) of an extension of the two-state telegraph model describing bursty or non-bursty protein expression in the presence of positive or negative autoregulation. Using the method of spectral decomposition, we show that the eigenfunctions of the generating function solution of the CME are Heun functions, while the eigenvalues can be determined by solving a continued fraction equation. Our solution generalizes and corrects a previous time-dependent solution for the CME of a gene circuit describing non-bursty protein expression in the presence of negative autoregulation [Ramos et al., Phys. Rev. E 83, 062902 (2011)]. In particular, we clarify that the eigenvalues are generally not real as previously claimed. We also investigate the relationship between different types of dynamic behavior and the type of feedback, the protein burst size, and the gene switching rate. [ABSTRACT FROM AUTHOR]

Published

2024

2. Production and characterization of novel Anti-HIV Fc-fusion proteins in plant-based systems: Nicotiana benthamiana & tobacco BY-2 cell suspension.

Author

Gutierrez-Valdes, Noemi, Cunyat, Francesc, Balieu, Juliette, Walet-Balieu, Marie-Laure, Paul, Matthew J., de Groot, Jonas, Blanco-Perera, Amaya, Carrillo, Jorge, Lerouge, Patrice, Seters, Mariëlle Jansma-van, Joensuu, Jussi J., Bardor, Muriel, Ma, Julian, Blanco, Julià, and Ritala, Anneli

Subjects

*ANTIBODY-dependent cell cytotoxicity, *NICOTIANA benthamiana, *RECOMBINANT proteins, *AGRICULTURE, *PROTEIN expression, *CELL suspensions

Abstract

Multifunctional anti-HIV Fc-fusion proteins aim to tackle HIV efficiently through multiple modes of action. Although results have been promising, these recombinant proteins are hard to produce. This study explored the production and characterization of anti-HIV Fc-fusion proteins in plant-based systems, specifically Nicotiana benthamiana plants and tobacco BY-2 cell suspension. Fc-fusion protein expression in plants was optimized by incorporating codon optimization, ER retention signals, and hydrophobin fusion elements. Successful transient protein expression was achieved in N. benthamiana , with notable improvements in expression levels achieved through N -terminal hydrophobin fusion and ER retention signals. Stable expression in tobacco BY-2 resulted in varying accumulation levels being at highest 2.2.mg/g DW. The inclusion of hydrophobin significantly enhanced accumulation, providing potential benefits for downstream processing. Mass spectrometry analysis confirmed the presence of the ER retention signal and of N -glycans. Functional characterization revealed strong binding to CD64 and CD16a receptors, the latter being important for antibody-dependent cellular cytotoxicity (ADCC). Interaction with HIV antigens indicated potential neutralization capabilities. In conclusion, this research highlights the potential of plant-based systems for producing functional anti-HIV Fc-fusion proteins, offering a promising avenue for the development of these novel HIV therapies. • Production of anti-HIV Fc-fusion proteins in plant-based systems was successful. • N-terminal hydrophobin & ER retention improved expression in Nicotiana benthamiana. • Stable expression in tobacco BY-2 resulted in varying accumulation levels. • Plant-based anti-HIV Fc-fusion proteins had good binding to CD64 & CD16a receptors. [ABSTRACT FROM AUTHOR]

Published

2024

3. Mild traumatic brain injury gives rise to chronic depression-like behavior and associated alterations in glutamatergic protein expression.

Author

Talty, Caiti-Erin, Murphy, Susan, and VandeVord, Pamela

Subjects

*BRAIN injuries, *FRONTAL lobe, *GLUTAMATE transporters, *PROTEIN expression, *SOCIAL interaction, *EXCITATORY amino acids

Abstract

• Self-care deficits first emerged eight weeks after a single closed-head injury. • Injured animals lost social novelty preference within the first month post-injury. • Loss of desire for social interaction developed over a twelve week period. • GluN1 expression increased chronically in the injured frontal cortex and amygdala. • Hippocampal GLT-1 expression was decreased chronically following injury. Mild traumatic brain injury (mTBI) is known to result in chronic somatic, cognitive, and emotional symptoms. Depression is commonly reported among individuals suffering from persistent concussion symptoms; however, the underlying mechanisms are not understood. The glutamatergic system has recently been linked with mTBI and depression due to reports of similar changes in expression of glutamatergic proteins. Using a closed-head controlled cortical impact (cCCI) model in adult male rats (n = 8/group), this study investigated the emergence of self-care deficits and changes in social interaction behaviors at four, eight and twelve weeks post-injury. Western blotting was used to assess associated changes in expression of glutamate transporters and N-methyl-D-aspartate (NMDA) receptor subunits at twelve weeks. Splash test results revealed deficits in self-care behaviors beginning at eight weeks, which continued through twelve weeks in the injury group. Injured animals also exhibited decreased preference for social novelty at four weeks and loss of desire for social interaction as a whole by twelve weeks. GluN1 was increased in injured animals compared to shams in the frontal cortex and amygdala, while decreased GLT-1 was observed in the hippocampus. Linear regression was performed to evaluate relationships between behavioral and molecular variables; the results suggested that injury affects these relationships in a region-dependent manner. Together, these results suggest that the development of chronic depression-like behavior was associated with changes in glutamatergic protein expression. Deeper investigations into how injury influences glutamatergic synaptic protein expression are needed, as this has the potential to affect circuit-level neurotransmission that drives depression-like behavior following mTBI. [ABSTRACT FROM AUTHOR]

Published

2024

4. Glucocorticoids induce HMGB1 release in primary cultured rat cortical microglia.

Author

Hisaoka-Nakashima, Kazue, Takeuchi, Yuka, Saito, Yukino, Shimoda, Takahisa, Nakamura, Yoki, Wang, Dengli, Liu, Keyue, Nishibori, Masahiro, and Morioka, Norimitsu

Subjects

*GLUCOCORTICOID receptors, *MINERALOCORTICOID receptors, *MENTAL depression, *SERUM albumin, *PROTEIN expression, *MICROGLIA

Abstract

• ・Glucocorticoids induced HMGB1 release in primary cultured microglia but not in neuron. • ・Dexamethasone-BSA, a membrane-impermeable GR agonist induced HMGB1 release. • ・Glucocorticoids triggered translocation of HMGB1 from nuclear to cytosol. Stress, a risk factor for major depressive disorder and Alzheimer disease, leads to the release of high-mobility group box-1 (HMGB1) protein, which in turn causes neuroinflammation. The mechanism underlying stress-induced HMGB1 release is unknown, but stress-associated glucocorticoids could be involved. Primary cultured rat cortical microglia and neurons were treated with corticosterone, a stress-associated glucocorticoid, and HMGB1 release was measured by ELISA and western blotting to test this hypothesis. With corticosterone treatment, significant HMGB1 was released in microglia but not in neuronal cell cultures. HMGB1 mRNA expression and HMGB1 protein expression in microglia were not affected by corticosterone treatment. Thus, the source of extracellular HMGB1 released into the medium is likely to be existing nuclear HMGB1 rather than newly synthesized HMGB1. Corticosterone-induced HMGB1 release in microglia culture was significantly attenuated by blocking glucocorticoid receptors but not mineralocorticoid receptors. Dexamethasone, a selective glucocorticoid receptor agonist, and dexamethasone-bovine serum albumin (BSA), a membrane-impermeable glucocorticoid receptor agonist used to confirm the membrane receptor-mediated effects of glucocorticoids, increased the release of HMGB1. Immunocytochemistry showed that HMGB1 translocated from the nucleus to the cytoplasm following dexamethasone or dexamethasone-BSA treatment through glucocorticoid receptors. The present findings suggest that glucocorticoids stimulate microglial membrane glucocorticoid receptors and trigger cytoplasmic translocation and extracellular release of nuclear HMGB1. Thus, under stress conditions, glucocorticoids induce microglial HMGB1 release, leading to a neuroinflammatory state that could mediate neurological disorders. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effects of phosphorylation on CsTT12 transport function: A comparative phosphoproteomic analysis of flavonoid biosynthesis in tea plants (Camellia sinensis)

Author

Wang, Na‐Na, Xiu, Ke‐Yan, Deng, Min, Liu, Qi‐Yun, Jin, Di‐Di, Zhao, Qiao‐Mei, Su, Huang‐Qiang, Qiu, Ting‐ting, Wang, Hai‐Yan, Liu, Ya‐Jun, Jiang, Xiao‐Lan, Xia, Tao, and Gao, Li‐Ping

Subjects

*FLAVONOIDS, *PLANT invasions, *PHYTOPATHOGENIC microorganisms, *ANTHOCYANINS, *PROTEIN expression, *PROANTHOCYANIDINS

Abstract

SUMMARY Monomeric flavan‐3‐ols and their oligomeric forms, proanthocyanidins (PAs), are closely related to the bitterness of tea beverages. Monomeric flavan‐3‐ols are characteristic flavor compounds in tea. Increasing the content of PAs and anthocyanins enhances the resistance of tea plants to pathogen invasion but decreases the quality of tea beverages. MATE family transporters play a critical role in transferring monomeric flavan‐3‐ols and anthocyanins into vacuoles for storage or subsequent condensation into PAs. Their activities modulate the ratio of monomeric flavan‐3‐ols to PAs and increase anthocyanin content in tea plants. In this study, it was observed that the gene expression and protein phosphorylation level of the MATE transporter CsTT12, a vacuole‐localized flavonoid transporter, were notably upregulated following exogenous sucrose treatment, promoting PA synthesis in tea plants. Further analysis revealed that overexpression of CsTT12 and CsTT12S17D significantly increased the content of anthocyanins and PAs in plants, whereas CsTT12S17A did not. In CsTT12 knockdown plants, PA's accumulation decreased significantly, while monomeric catechin content increased. Moreover, phosphorylation modification enhanced the vacuolar membrane localization of CsTT12, whereas dephosphorylation weakened its vacuolar membrane localization. This study uncovers the crucial role of phosphorylation in flavonoid biosynthesis and provides insights into balancing quality improvements and resistance enhancement. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effect of 1800 MHz radiofrequency field exposure on cytokine and signal transduction protein expression in differentiated THP-1 cells.

Author

Bellier, Pascale V., McGarr, Gregory W., Smiley, Sandy, and McNamee, James P.

Subjects

*GSM communications, *CELLULAR signal transduction, *PROTEIN expression, *CELL communication, *ELECTROMAGNETIC fields

Abstract

Purpose: To evaluate the effects of 1800 MHz continuous wave (CW) and global system for mobile communications (GSM) modulated radiofrequency electromagnetic field (RFEMF) exposures on signal transduction (ST) protein and cytokine expression in differentiated human-derived monocytic THP-1 cells. Materials and methods: THP-1 cells were differentiated into adherent macrophage-like cells using phorbol 12-myristate 13-acetate (PMA). Following differentiation, cells were exposed to 1800 MHz CW or GSM modulated RFEMF for 0.5, 4, or 24 h at a specific absorption rate (SAR) of 0 (sham) or 2.0 W/kg. Concurrent positive controls (lipopolysaccharide for cytokines; anisomycin for ST proteins) and negative controls were included in each experiment. The expression levels of cytokines (GM-CSF, IFN-γ, IL-1β, IL-6, IL-10, TNF-α) from culture media and phosphorylated and total ST proteins (CREB, JNK, NF-κB, p38, ERK1/2, Akt, p70S6k, STAT3, STAT5) from cell lysates were assessed using Milliplex magnetic bead array panels. Results: No consistent effect of RFEMF exposure was observed in differentiated THP-1 cells. A statistically significant effect of overall exposure condition was observed for IL-6 with GSM modulation (P = 0.042), but no difference between RFEMF and sham for any exposure condition remained following adjustment for multiple comparisons (P ≥ 0.128). No statistically significant effect of exposure condition was detected for any other cytokine evaluated with either of the RFEMF modulations (P ≥ 0.078). There were no statistically significant changes in expression levels for any of the ST proteins under any studied exposure condition (P ≥ 0.320). Conclusions: In this study, no evidence of changes were observed in differentiated human derived THP-1 cells following exposure of up to 24 h to 1800 MHz RFEMF at SARs of 0 and 2.0 W/kg on the expression of ST proteins or cytokines. [ABSTRACT FROM AUTHOR]

Published

2024

7. GATDE: A graph attention network with diffusion-enhanced protein-protein interaction for cancer classification.

Author

Song, Ruike, Wang, Xiaofeng, Zhang, Jiahao, Chen, Shengquan, and Zhou, Jianyu

Subjects

*TUMOR classification, *PROTEIN expression, *BREAST cancer, *PROTEINS

Abstract

Cancer classification is crucial for effective patient treatment, and recent years have seen various methods emerge based on protein expression levels. However, existing methods oversimplify by assuming uniform interaction strengths and neglecting intermediate influences among proteins. Addressing these limitations, GATDE employs a graph attention network enhanced with diffusion on protein-protein interactions. By constructing a weighted protein-protein interaction network, GATDE captures the diversity of these interactions and uses a diffusion process to assess multi-hop influences between proteins. This information is subsequently incorporated into the graph attention network, resulting in precise cancer classification. Experimental results on breast cancer and pan-cancer datasets demonstrate that GATDE surpasses current leading methods. Additionally, in-depth case studies further validate the effectiveness of the diffusion process and the attention mechanism, highlighting GATDE's robustness and potential for real-world applications. • Proposed a novel method, GATDE, which applies the graph attention network to cancer classification. • Applied the diffusion mechanism to the PPI network to capture complex multi-hop interactions between proteins. • Performed excellently in breast cancer classification, where the new protein interactions captured by diffusion and attention mechanisms are supported by biological literature. [ABSTRACT FROM AUTHOR]

Published

2024

8. Oncogenic alterations in KIR3DL1 in cutaneous acral CD8+ lymphoproliferative disorder.

Author

Wobser, Marion, Appenzeller, Silke, Roth, Sabine, Siedel, Claudia, Goebeler, Matthias, Geissinger, Eva, Rosenwald, Andreas, and Maurus, Katja

Subjects

*IMMUNOSTAINING, *LYMPHOPROLIFERATIVE disorders, *CD8 antigen, *PROTEIN expression, *DELETION mutation, *CUTANEOUS T-cell lymphoma

Abstract

Background Primary cutaneous acral CD8+ T-cell lymphoproliferative disorder (TLPD) is a rare and indolent lymphoma entity. Although TLPD was first identified many years ago, the molecular pathogenesis is still not fully understood. Objectives In order to better understand the molecular pathogenesis of cutaneous acral CD8+ TLPD and to identify further discriminatory markers to differentiate this lymphoma subtype from other CD8+ cutaneous lymphomas, we analysed five cases of cutaneous acral CD8+ TLPD for putative molecular alterations. Methods Somatic alterations were assessed using whole-exome and targeted sequencing of paraffin-embedded tissue. Results were evaluated using immunohistochemical staining of respective relevant proteins. CD8+ cutaneous T-cell lymphomas (n = 12) served as control for KIR3DL1 staining. Results Copy number variation analysis revealed a homozygous deletion of the KIR3DL1 gene in two of the analysed cases. This resulted in loss of KIR3DL1 protein expression, which was observed in all cases of cutaneous acral CD8+ TLPD. In contrast, KIR3DL1 expression was more variable in other CD8+ cutaneous T-cell lymphomas with 50% of analysed cases (n = 12) found to be positive. In addition, one further case of acral CD8+ TLPD harboured a loss-of-function mutation in the PIK3R1 gene, presumably activating the phosphoinositide 3-kinase-AKT pathway. Conclusions Alterations of the KIR3DL1 gene may be of pathogenetic relevance for acral CD8+ TLPD. Loss of KIR3DL1 protein expression may support the diagnosis of this indolent lymphoma entity; however, this is not a subtype-specific discriminative feature. [ABSTRACT FROM AUTHOR]

Published

2024

9. Rutin reduces inflammation and fibrosis via TGF‐β/SMAD pathways in IgA nephropathy induced rats.

Author

Jash, Rajiv, Maji, Himangshu Sekhar, Chowdhury, Arnab, Biswas, Sayak, Maparu, Kousik, Khatun, Robina, and Dey, Suddhasattya

Subjects

*IGA glomerulonephritis, *KIDNEY physiology, *FLAVONOIDS, *RUTIN, *PROTEIN expression

Abstract

Aim: Rutin is a flavonoid glycoside obtained from the plant Ruta graveolens. It was known to have immunosuppressant activities. This study was focused on effect of rutin against immunoglobulin A (IgA) nephropathy. Methods: IgA nephropathy was induced in Sprague–Dawley rats with various inducing agents described in text. During the later part of the induction phase, rutin was administered. Control group rats did not receive any treatment or inducing agent, induced group rats received only the inducing agents, whereas treatment group received the inducing agents as well as rutin. Results: During the study, various biochemical parameters pertaining to kidney function were evaluated and also, the expression of proteins and cytokines responsible for inflammation and fibrosis were assessed. The effect of rutin in IgA nephropathy was promising as treatment with rutin reduced the deposition of IgA in the glomeruli of rats. Along with this we also tried to establish the probable mechanism of action of rutin and based on the summary of the results it was concluded that rutin reduced the inflammation and fibrosis related to IgA nephropathy by inhibiting the TGF‐β/SMAD pathways and ultimately reducing the expression of α‐smooth muscle actin (α‐SMA). Conclusion: Comprehending all the above consideration, it may be safely said that that rutin alleviated inflammation and also fibrosis mediated by IgA, by suppressing the transforming growth factor‐β (TGF‐β) activities through suppressor of mothers against decapentaplegic pathways and reduced the epithelial‐to‐mesenchymal transition by downregulating the α‐SMA which is a marker for fibrosis. [ABSTRACT FROM AUTHOR]

Published

2024

10. CRISPR-Cas13b-mediated suppression of HBV replication and protein expression.

Author

McCoullough, Laura C., Fareh, Mohamed, Hu, Wenxin, Sozzi, Vitina, Makhlouf, Christina, Droungas, Yianni, Lee, Chee Leng, Takawy, Mina, Fabb, Stewart A., Payne, Thomas J., Pouton, Colin W., Netter, Hans J., Lewin, Sharon R., Purcell, Damian FJ., Holmes, Jacinta A., Trapani, Joseph A., Littlejohn, Margaret, and Revill, Peter A.

Subjects

*HEPATITIS associated antigen, *HEPATITIS B virus, *HEPATITIS B, *PROTEIN expression, *FLUORESCENT proteins

Abstract

New antiviral approaches that target multiple aspects of the HBV replication cycle to improve rates of functional cure are urgently required. HBV RNA represents a novel therapeutic target. Here, we programmed CRISPR-Cas13b endonuclease to specifically target the HBV pregenomic RNA and viral mRNAs in a novel approach to reduce HBV replication and protein expression. Cas13b CRISPR RNAs (crRNAs) were designed to target multiple regions of HBV pregenomic RNA. Mammalian cells transfected with replication competent wild-type HBV DNA of different genotypes, a HBV-expressing stable cell line, a HBV infection model and a hepatitis B surface antigen (HBsAg)-expressing stable cell line were transfected with Psp Cas13b-BFP (blue fluorescent protein) and crRNA plasmids, and the impact on HBV replication and protein expression was measured. Wild-type HBV DNA, Psp Cas13b-BFP and crRNA plasmids were simultaneously hydrodynamically injected into mice, and serum HBsAg was measured. Psp Cas13b mRNA and crRNA were also delivered to a HBsAg-expressing stable cell line via lipid nanoparticles and the impact on secreted HBsAg determined. Our HBV-targeting crRNAs strongly suppressed HBV replication and protein expression in mammalian cells by up to 96% (p <0.0001). HBV protein expression was also reduced in a HBV-expressing stable cell line and in the HBV infection model. CRISPR-Cas13b crRNAs reduced HBsAg expression by 50% (p <0.0001) in vivo. Lipid nanoparticle-encapsulated Psp Cas13b mRNA reduced secreted HBsAg by 87% (p = 0.0168) in a HBsAg-expressing stable cell line. Together, these results show that CRISPR-Cas13b can be programmed to specifically target and degrade HBV RNAs to reduce HBV replication and protein expression, demonstrating its potential as a novel therapeutic option for chronic HBV infection. Owing to the limitations of current antiviral therapies for hepatitis B, there is an urgent need for new treatments that target multiple aspects of the HBV replication cycle to improve rates of functional cure. Here, we present CRISPR-Cas13b as a novel strategy to target HBV replication and protein expression, paving the way for its development as a potential new treatment option for patients living with chronic hepatitis B. [Display omitted] • HBV RNA may be targeted by CRISPR-Cas13b to reduce HBV replication in cell culture models. • Cas13b reduced secreted HBeAg and HBsAg by >95% in HepG2 cells. • Cas13b reduced serum HBsAg by 50% in vivo. • Delivery of Cas13b mRNA by lipid nanoparticles reduced secreted HBsAg by 87% in an HBsAg-expressing stable cell line. [ABSTRACT FROM AUTHOR]

Published

2024

11. Synthesis, spectral analysis, XRD, molecular docking simulation of dithranol and glycine mixed ligand complexes and their potential role in suppressing breast cancer cells via down‐regulating the expression of protein metalloproteinase‐9.

Author

Abd El‐Hamid, Sherif M., Aziz, Safa W., Sadeek, Sadeek A., Sabry, Mohamed A., and El‐Gedamy, Mohammed S.

Subjects

*MOLAR conductivity, *X-ray diffraction, *PROTEIN expression, *ELEMENTAL analysis, *MOLECULAR docking

Abstract

Five novel complexes of nickel (II)(1), zinc (II)(2), zirconium (IV)(3), lanthanum (III)(4), thorium (IV)(5), with the dithranol (Dithr) ligand and glycine (Gly) were synthesized and characterized. Their structures were investigated using elemental analysis, molar conductance (Λ), magnetic studies (μeff), spectroscopic methods (FT‐IR, UV–Vis., 1H NMR, XRD), mass spectrometry, TG/DTG and DTA. Findings revealed that Dithr was chelated via two hydroxyl oxygen atoms and carbonyl group while, Gly chelated through carboxylic oxygen and nitrogen atom. All complexes appeared with molar ratio 1:1:1 (M:Dithr:Gly) and were electrolytes with 1:1 for (1), (2) and (3) complexes, 1:2 for (4) complex, and 1:3 for (5) complex according to elemental analysis and molar conductivity data. All metal‐chelates, except Th (IV)‐complex, were confirmed to have lattice water molecules based on their thermal behavior. Average crystalline size of all compounds was calculated using XRD analysis and found in the range 35.50–55.57 nm, indicating the compounds existed as nanocrystalline structure, except zirconium (IV) complex. Then, we studied cytotoxic effects of our synthetic drugs on the survival of an aggressive‐breast‐cancer‐histotype"66cl‐4." Given its involvement in cancer‐metastasis, matrix‐metalloproteinase‐(MMP)‐9 protein expression was evaluated using western‐blotting‐assays. Th(IV)‐complex emerged as the most effective option in inhibiting cancer‐cells‐proliferation (IC50: 9.39 μM), and suppressed expression MMP‐9 levels by 86%, at 25 μM dose, and drug‐binding‐affinity was interpreted via molecular modeling. [ABSTRACT FROM AUTHOR]

Published

2024

12. Advancements and challenges in protein purification techniques for denitrifying enzymes: A path to effective nitrogen removal and reduced N2O emissions.

Author

Liu, Lingxiu, Li, Anhang, Shi, Changjie, Hrynsphan, Dzmitry, Tatsiana, Savitskaya, Wang, Zeyu, and Chen, Jun

Subjects

*NUCLEAR magnetic resonance, *PROTEIN structure, *PROTEIN folding, *X-ray crystallography, *PROTEIN expression

Abstract

The biological denitrification process is crucial for removing nitrogen and reducing nitrous oxide (N2O) emissions. To investigate the mechanism of action of key enzymes in the denitrification process, it is necessary to analyze the protein structure, active site, and conformational changes of denitrifying enzymes. X-ray crystallography, nuclear magnetic resonance (NMR), and cryogenic electron microscopy (Cryo-EM), as well as spectroscopic analyses such as Raman resonance and UV-vis, have been used to study the structure of denitrifying enzymes. However, practical application is limited by protein folding and assembly, as well as issues of purity, concentration, and homogeneity. This review summarizes the biochemical properties of the four denitrifying enzymes and typical purification methods. Additionally, this review emphasizes important factors to consider during protein expression, crude extract, and chromatographic purification. It also provides insight into the future development of protein purification methods for denitrifying enzymes. This review aims to bridge the gap between the complex biochemical process of denitrifying enzymes and the technical intricacies of protein purification, with the ultimate goal of reducing N2O emissions in ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

13. Asiaticoside Inhibits Growth and Metastasis in Non‐Small Cell Lung Cancer by Disrupting EMT via Wnt/β‐Catenin Pathway.

Author

Zhang, Yanan, Liu, Jiangyong, Yang, Gang, Zou, Jiani, Tan, Yan, Xi, Erping, Geng, Qing, and Wang, Zheng

Subjects

LUNG cancer, PROTEIN expression, WESTERN immunoblotting, CELL cycle, NON-small-cell lung carcinoma

Abstract

Non‐small cell lung cancer (NSCLC) is the primary inducer of cancer‐related death worldwide. Asiaticoside (ATS) is a triterpenoid saponin that has been indicated to possess an antitumor activity in several malignancies. Nonetheless, its detailed functions in NSCLC remain unclarified. In this study, NSCLC cells were exposed to various doses of ATS. Functional experiments were employed to estimate the ATS effect on NSCLC cell behaviors. Western blotting was implemented for protein expression evaluation. A xenograft mouse model was established to assess the ATS effect on NSCLC in vivo. The results showed that ATS restrained NSCLC cell proliferation, cell cycle progression, migration, and invasiveness. ATS reversed TGF‐β‐induced promotion in epithelial‐mesenchymal transition (EMT). Mechanistically, ATS inhibited Wnt/β‐catenin signaling in NSCLC. Upregulating β‐catenin restored ATS‐mediated suppression of NSCLC cell aggressiveness. Moreover, ATS administration repressed tumorigenesis in tumor‐bearing mice. In conclusion, ATS represses growth and metastasis in NSCLC by blocking EMT via the inhibition of Wnt/β‐catenin signaling. [ABSTRACT FROM AUTHOR]

Published

2024

14. Ticagrelor modestly raises plasma riboflavin concentration in humans and inhibits riboflavin transport by BCRP and MRP4.

Author

Deng, Feng, Hämäläinen, Kreetta, Lehtisalo, Minna, Neuvonen, Mikko, and Niemi, Mikko

Subjects

PROTEIN expression, BREAST cancer, TICAGRELOR, CONFIDENCE intervals, VITAMIN B2, ENTEROCYTES

Abstract

Riboflavin (vitamin B2) has been proposed as a biomarker for breast cancer resistance protein (BCRP) activity. In recent studies in mice, cynomolgus monkeys, and humans, BCRP‐inhibiting drugs increased the plasma concentration of riboflavin. We showed recently that ticagrelor inhibits BCRP and raises the plasma concentrations of the BCRP substrate rosuvastatin in healthy volunteers. In the same drug–drug interaction study, we now investigated whether ticagrelor affects the plasma concentrations of riboflavin. Intake of 90 mg ticagrelor increased the ratio between the peak plasma riboflavin concentration and the fasting riboflavin concentration before ticagrelor administration by 1.20‐fold (90% confidence interval, 1.10–1.32; P = 0.006) compared to placebo. In vitro, riboflavin was transported by BCRP and multidrug‐resistance‐associated protein 4 (MRP4) but no clear transport was observed by MRP2, MRP3, or the P‐glycoprotein. Moreover, ticagrelor inhibited the transport of riboflavin in BCRP‐ and MRP4‐expressing membrane vesicles with unbound 50% inhibitory concentrations of 0.020 and 1.1 μM, respectively. Based on vesicle and tissue protein expression data, the small intestinal MRP4‐mediated efflux clearance of riboflavin (1.2–1.4 nL/min/mg) was estimated to be similar to that mediated by BCRP (0.23–1.3 nL/min/mg). As MRP4 is expressed in the basolateral membrane of enterocytes, it may facilitate the absorption of riboflavin and impair the utility of riboflavin as a biomarker of intestinal BCRP. To conclude, ticagrelor modestly raises the plasma concentration of riboflavin probably by inhibiting intestinal BCRP. Inhibition of intestinal MRP4 may have reduced the absorption of riboflavin and limited the effect of ticagrelor on riboflavin levels. [ABSTRACT FROM AUTHOR]

Published

2024

15. Rhein Alleviates Doxorubicin-Induced Myocardial Injury by Inhibiting the p38 MAPK/HSP90/c-Jun/c-Fos Pathway-Mediated Apoptosis.

Author

Chen, Yong, Tu, Yadan, Cao, Jin, Wang, Yigang, and Ren, Yi

Subjects

CARDIOTOXICITY, MYOCARDIAL injury, GENE regulatory networks, PROTEIN expression, DOXORUBICIN

Abstract

Doxorubicin (Dox) has been limited in clinical application due to its cardiac toxicity that varies with the dose. This study aimed to explore how Rhein modulates Dox-induced myocardial toxicity. The general condition and echocardiographic changes of mice were observed to evaluate cardiac function and structure, with myocardial cell injury and apoptosis checked by TUNEL and HE staining. The ELISA assessed markers of myocardial damage and inflammation. The TCMSP and SwissTargetPrediction databases were used to retrieve Rhein's targets while GeneCards was used to find genes related to Dox-induced myocardial injury. Intersection genes were analyzed by Protein–Protein Interaction Networks. The core network genes underwent GO and KEGG enrichment analysis using R software. Western blot was used to detect protein expression. Compared to the Dox group, there was no remarkable difference in heart mass /body mass ratio in the Rhein+Dox group. However, heart mass/tibia length increased. Mice in the Rhein+Dox group had significantly increased LVEF, LVPWs, and LVFS compared to those in the Dox group. Myocardial cell damage, inflammation, and apoptosis significantly reduced in the Rhein+Dox group compared to the model group. Eleven core network genes were selected. Further, Rhein+Dox group showed significantly downregulated expression of p38/p-p38, HSP90AA1, c-Jun/p-c-Jun, c-Fos/p-c-Fos, Bax, and cleaved-caspase-3/caspase-3 while Bcl-2 expression significantly upregulated compared to the Dox group. The study suggests that Rhein mediates cardioprotection against Dox-induced myocardial injury, at least partly, by influencing multiple core genes in the MAPK signaling pathway to inhibit myocardial cell apoptosis. [ABSTRACT FROM AUTHOR]

Published

2024

16. Endocrine disruption of adipose physiology: Screening in SGBS cells.

Author

Kucera, Jan, Chalupova, Zuzana, Wabitsch, Martin, and Bienertova‐Vasku, Julie

Subjects

ENDOCRINE system, ADIPOSE tissues, PERFLUOROOCTANOIC acid, PROTEIN expression, DIBUTYL phthalate, ADIPOGENESIS

Abstract

The increasing use of industrial chemicals has raised concerns regarding exposure to endocrine‐disrupting chemicals (EDCs), which interfere with developmental, reproductive and metabolic processes. Of particular concern is their interaction with adipose tissue, a vital component of the endocrine system regulating metabolic and hormonal functions. The SGBS (Simpson Golabi Behmel Syndrome) cell line, a well‐established human‐relevant model for adipocyte research, closely mimics native adipocytes' properties. It responds to hormonal stimuli, undergoes adipogenesis and has been successfully used to study the impact of EDCs on adipose biology. In this study, we screened human exposure‐relevant doses of various EDCs on the SGBS cell line to investigate their effects on viability, lipid accumulation and adipogenesis‐related protein expression. Submicromolar doses were generally well tolerated; however, at higher doses, EDCs compromised cell viability, with cadmium chloride (CdCl2) showing the most pronounced effects. Intracellular lipid levels remained unaffected by EDCs, except for tributyltin (TBT), used as a positive control, which induced a significant increase. Analysis of adipogenesis‐related protein expression revealed several effects, including downregulation of fatty acid‐binding protein 4 (FABP4) by dibutyl phthalate, upregulation by CdCl2 and downregulation of perilipin 1 and FABP4 by perfluorooctanoic acid. Additionally, TBT induced dose‐dependent upregulation of C/EBPα, perilipin 1 and FABP4 protein expression. These findings underscore the importance of employing appropriate models to study EDC‐adipocyte interactions. Conclusions from this research could guide strategies to reduce the negative impacts of EDC exposure on adipose tissue. The increasing use of chemicals raises concerns about exposure to endocrine‐disrupting chemicals (EDCs). This study used the Simpson Golabi Behmel Syndrome cell line, a human‐relevant adipocyte model, to screen the effect of various EDCs on viability, lipid accumulation and adipogenesis‐related protein expression. Submicromolar doses were generally well tolerated, and EDCs did not affect lipid levels except for tributyltin, which increased them and also upregulated FABP4, perilipin 1 and C/EBPα. [ABSTRACT FROM AUTHOR]

Published

2024

17. 5-Fluorouracil dose escalation generated desensitized colorectal cancer cells with reduced expression of protein methyltransferases and no epithelial-to-mesenchymal transition potential.

Author

FENECH, KIMBERLY, MICALLEF, ISAAC, and BARON, BYRON

Subjects

EPITHELIAL-mesenchymal transition, TRANSCRIPTION factors, PROTEIN expression, COLORECTAL cancer, METHYLTRANSFERASES

Abstract

Background: Colorectal cancer (CRC) is one of the most frequently diagnosed cancers. In many cases, the poor prognosis of advanced CRC is associated with resistance to treatment with chemotherapeutic drugs such as 5-Fluorouracil (5-FU). The epithelial-to-mesenchymal transition (EMT) and dysregulation in protein methylation are two mechanisms associated with chemoresistance in many cancers. This study looked into the effect of 5-FU dose escalation on EMT and protein methylation in CRC. Materials and Methods: HCT-116, Caco-2, and DLD-1 CRC cell lines were exposed to dose escalation treatment of 5-FU. The motility and invasive potentials of the cells before and after treatment with 5-FU were investigated through wound healing and invasion assays. This was followed by aWestern blot which analyzed the protein expressions of the epithelial marker E-cadherin, mesenchymal marker vimentin, and the EMT transcription factor (EMTTF), the snail family transcriptional repressor 1 (Snail) in the parental and desensitized cells. Western blotting was also conducted to study the protein expressions of the protein methyltransferases (PMTs), Euchromatic histone lysine methyltransferase 2 (EHMT2/G9A), protein arginine methyltransferase (PRMT5), and SET domain containing 7/9 (SETD7/9) along with the global lysine and arginine methylation profiles. Results: The dose escalation method generated 5-FU desensitized CRC cells with distinct morphological features and increased tolerance to high doses of 5-FU. The 5-FU desensitized cells experienced a decrease in migration and invasion when compared to the parental cells. This was reflected in the observed reduction in E-cadherin, vimentin, and Snail in the desensitized cell lines. Additionally, the protein expressions of EHMT2/G9A, PRMT5, and SETD7/9 also decreased in the desensitized cells and global protein lysine and arginine methylation became dysregulated with 5-FU treatment. Conclusion: This study showed that continuous, dose-escalation treatment of 5-FU in CRC cells generated 5-FU desensitized cancer cells that seemed to be less aggressive than parental cells. [ABSTRACT FROM AUTHOR]

Published

2024

18. Menstrual blood‐derived mesenchymal stem cells combining with platelet‐rich plasma infusion in endometrium repair.

Author

Wang, Yang, Liu, Wenxin, Xu, Hui, Dong, Liyuan, Jiao, Yalou, and Qiao, Zhe

Subjects

*MESENCHYMAL stem cells, *PATHOLOGICAL physiology, *ENDOMETRIUM, *PROTEIN expression, *LABORATORY mice

Abstract

Objective Methods Results Conclusion Thin endometrium caused by various factors affects the conception rate of females worldwide; however, current medications are still insufficient. Therefore, a novel approach is needed. We previously reported the effect of menstrual blood‐derived mesenchymal stem cells (MenSCs) in ameliorating ethanol‐induced endometrial injuries. In the present study, we aimed to investigate whether the effect of MenSCs is enhanced by a combination of platelet‐rich plasma (PRP) infusion.An endometrial injury mouse model was established by infiltrating 95% ethanol for 15 s into the uterus, followed by MenSCs, PRP, or MenSCs + PRP treatment. Pathological changes were observed by HE staining. The expression of CK18, vimentin, ItgαVβ3, and VEGF was determined using IHC staining and WB blotting.Compared with the model, MenSCs, PRP, and MenSCs + PRP treatments significantly improved endometrial damage and thickness, with the combined therapy displaying the most pronounced efficacy. The density of CK18‐, vimentin‐, and ItgαVβ3 positive cells increased most significantly in the MenSCs + PRP group of mice. In addition, the protein expression of CK18, vimentin, and VEGF was significantly upregulated after MenSCs + PRP, MenSCs, and PRP treatment, with MenSCs + PRP therapy showing the best efficacy.MenSCs + PRP therapy is more beneficial for ameliorating ethanol‐induced endometrial damage than MenSCs or PRP alone, providing a basis for the investigation of novel approaches for treating thin endometria. [ABSTRACT FROM AUTHOR]

Published

2024

19. Melatonin attenuates liver ischemia-reperfusion injury via inhibiting the PGAM5-mPTP pathway.

Author

Shi, Xiaoyi, Zhang, Jiakai, Gao, Jie, Guo, Danfeng, Zhang, Shuijun, Chen, Xu, and Tang, Hongwei

Subjects

*PHOSPHOPROTEIN phosphatases, *CELL death, *LIVER injuries, *REPERFUSION injury, *PROTEIN expression

Abstract

Phosphoglycerate mutase/protein phosphatase (PGAM5)-mediated cell death plays an important role in multiple liver diseases. However, few studies have confirmed the regulatory mechanism of melatonin acting on PGAM5-mediated cell death in the context of liver ischemia-reperfusion (I/R) injury. The liver I/R injury model and cell hypoxia-reoxygenation model were established after melatonin pretreatment. Liver injury, cell activity, cell apoptosis, oxidative stress index, and PGAM5 protein expression were detected. To investigate the role of PGAM5 in melatonin-mediated liver protection during I/R injury, PGAM5 silencing, and overexpression were performed before melatonin pretreatment. Our results indicated that PGAM5 was significantly elevated by I/R injury, and predominantly localized in the necrosis area. However, treatment with melatonin blocked PGAM5 activation and conferred a survival advantage of hepatocytes in liver I/R injury, similar to the results achieved by silencing PGAM5. In terms of mechanism, we illustrated that activated PGAM5 promoted mitochondrial permeability transition pore (mPTP) opening, and administration of melatonin inhibited mPTP opening and interrupted hepatocytes death via blocking PGAM5. Our data indicated that the PGAM5-mPTP axis is responsible for I/R-induced liver injury. In contrast, melatonin supplementation blocked the PGAM5-mPTP axis and thus decreased cell death, providing a protective advantage to hepatocytes in I/R. These results established a new paradigm in melatonin-mediated hepatocyte protection under the burden of I/R attack. [ABSTRACT FROM AUTHOR]

Published

2024

20. Impact of Agaricus blazei Murill Extract Combined With Imatinib Treatment on the Proliferation and Apoptosis of Multidrug‐Resistant Leukemia Cells.

Author

Wang, Dongping, Ge, Wanwen, Sun, Yanqing, and Santos, Mario Ferreira Conceição

Subjects

*CHRONIC myeloid leukemia, *MULTIDRUG resistance, *PROTEIN expression, *CELL proliferation, *WESTERN immunoblotting

Abstract

Multidrug resistance (MDR) is a major cause of chronic myeloid leukemia (CML) relapse, therapeutic failure, and a poor prognosis. However, Agaricus blazei Murill (AbM) is a mushroom that might have anticancer and other medicinal properties. Therefore, this study aimed to determine the effects of combining the acidic RNA protein complex FA‐2‐b‐β extracted from AbM with imatinib (IM) on MDR in the K562/ADR leukemia cell line in vitro and in xenograft mouse models. The combination of FA‐2‐b‐β and IM significantly inhibited cell proliferation and promoted apoptosis in K562/ADR cells compared with either alone. Western blotting (WB) revealed that the combination significantly reduced p‐PI3K, p‐AKT, and p‐mTOR protein expression. The combination also inhibited tumor growth in mice with K562/ADR xenografts. These findings suggested that FA‐2‐b‐β enhances the effects of IM on K562/ADR cell proliferation and apoptosis, potentially by inhibiting the PI3K/AKT/mTOR pathway and downregulating P‐glycoprotein (P‐gp) expression. [ABSTRACT FROM AUTHOR]

Published

2024

21. Cystic fibrosis-related diabetes is associated with reduced islet protein expression of GLP-1 receptor and perturbation of cell-specific transcriptional programs.

Author

Gharib, Sina A., Vemireddy, Rachna, Castillo, Joseph J., Fountaine, Brendy S., Bammler, Theo K., MacDonald, James W., Hull-Meichle, Rebecca L., and Zraika, Sakeneh

Subjects

*GLUCAGON-like peptide 1, *INSULIN receptors, *PEPTIDE receptors, *CYSTIC fibrosis, *PROTEIN expression

Abstract

Insulin secretion is impaired in individuals with cystic fibrosis (CF), contributing to high rates of CF-related diabetes (CFRD) and substantially increasing disease burden. To develop improved therapies for CFRD, better knowledge of pancreatic pathology in CF is needed. Glucagon like peptide-1 (GLP-1) from islet α cells potentiates insulin secretion by binding GLP-1 receptors (GLP-1Rs) on β cells. We determined whether expression of GLP-1 and/or its signaling components are reduced in CFRD, thereby contributing to impaired insulin secretion. Immunohistochemistry of pancreas from humans with CFRD versus no-CF/no-diabetes revealed no difference in GLP-1 immunoreactivity per islet area, whereas GLP-1R immunoreactivity per islet area or per insulin-positive islet area was reduced in CFRD. Using spatial transcriptomics, we observed several differentially expressed α- and/or β-cell genes between CFRD and control pancreas. In CFRD, we found upregulation of α-cell PCSK1 which encodes the enzyme (PC1/3) that generates GLP-1, and downregulation of α-cell PCSK1N which inhibits PC1/3. Gene set enrichment analysis also revealed α and β cell-specific pathway dysregulation in CFRD. Together, our data suggest intra-islet GLP-1 is not limiting in CFRD, but its action may be restricted due to reduced GLP-1R protein levels. Thus, restoring β-cell GLP-1R protein expression may improve β-cell function in CFRD. [ABSTRACT FROM AUTHOR]

Published

2024

22. CircSEC24A induces KLF8 expression to promote the malignant progression of non‐small cell lung cancer by regulating miR‐1253.

Author

Xiong, Wei and Yang, Jinhua

Subjects

*TRANSCRIPTION factors, *POLYMERASE chain reaction, *LUNG cancer, *PROTEIN expression, *BLOOD coagulation factor VIII

Abstract

Objectives Methods Results Conclusions This study aimed to analyze the role of circSEC24A in non‐small cell lung cancer (NSCLC) and its underlying mechanism.RNA levels of circSEC24A, microRNA‐1253 (miR‐1253), and KLF transcription factor 8 (KLF8) were detected by quantitative real‐time polymerase chain reaction. Protein expression was analyzed by western blot or immunohistochemistry assay. Cell proliferation and apoptosis were investigated by colony formation assay, 5‐ethynyl‐2′‐deoxyuridine assay, and flow cytometry analysis. Glycolysis was evaluated by commercial kits. Dual‐luciferase reporter assay and RNA immunoprecipitation assay were conducted to identify the associations among circSEC24A, miR‐1253, and KLF8. Xenograft mouse model assay was used to evaluate the effect of circSEC24A on tumor tumorigenesis.CircSEC24A and KLF8 were upregulated, while miR‐1253 was downregulated in NSCLC. CircSEC24A knockdown inhibited proliferation and glycolysis but induced the apoptosis of NSCLC cells. CircSEC24A acted as a miR‐1253 sponge and regulated NSCLC cell malignancy by targeting miR‐1253. KLF8 was identified as a target of miR‐1253, and its overexpression attenuated miR‐1253‐induced effects in NSCLC cells. Besides, circSEC24A upregulated KLF8 by sponging miR‐1253. Further, circSEC24A knockdown suppressed NSCLC cell tumorigenesis in vivo.CircSEC24A silencing inhibited NSCLC cell malignancy through the miR‐1253/KLF8 pathway, providing a potential therapeutic target for NSCLC. [ABSTRACT FROM AUTHOR]

Published

2024

23. Mandarin Fish Ranavirus (MRV) Infection Induced Inflammation and Histologic Lesions in the Gut of Mandarin Fish.

Author

Gao, Xinru, Zhang, Ziye, Ma, Yanping, Hao, Le, Huang, Wen, Liu, Zhenxing, and Li, Yugu

Subjects

*HEMATOXYLIN & eosin staining, *B cells, *PROTEIN expression, *FOREGUT, *VIRAL load

Abstract

ABSTRACT Mandarin fish ranavirus (MRV) is widely spread in China and causes huge economic losses to the mandarin fish (Siniperca chuatsi) aquaculture. However, the pathogenesis of MRV is still unclear. In the present study, mandarin fish were artificially infected with MRV, and then different gut compartments from diseased fish were subjected to histologic analysis by H&E staining, quantification of proinflammatory genes and MRV copies by qPCR. MRV‐MCP protein expression was assessed using indirect fluorescence assay (IFA) and immunohistochemistry. Proliferation of IgM+ B cells was evaluated by indirect fluorescence assay (IFA). Then, we found that MRV infection caused serious histologic lesions along with inflammatory cell infiltration, especially in the foregut. A significant accumulation of IgM+ B cells was detected in the foregut (~6.5‐fold) and hindgut (~3.3‐fold), respectively. The expression of inflammation‐related genes such as IL‐1β, IL‐6, IL‐8, TNF‐α, CSF1r and NCF1 was significantly upregulated in the foregut, varying from ~2.8‐fold to ~11.9‐fold. In addition, MRV exhibited foregut tropism, according to the investigation of viral loads and MCP protein expression. Overall, our findings indicated that MRV‐induced hyperinflammation in the gut eventually led to enteritis. This study provided new insights into uncovering the pathogenesis of MRV infection. [ABSTRACT FROM AUTHOR]

Published

2024

24. The effect of biocide chloromethylisothiazolinone/methylisothiazolinone (CMIT/MIT) mixture on C2C12 muscle cell damage attributed to mitochondrial reactive oxygen species overproduction and autophagy activation.

Author

Kim, Donghyun, Shin, Yusun, Baek, Yong-Wook, Kang, HanGoo, Lim, Jungyun, and Bae, Ok-Nam

Subjects

*REACTIVE oxygen species, *SKELETAL muscle, *OXIDATIVE phosphorylation, *BIOENERGETICS, *PROTEIN expression

Abstract

The mixture of 5-chloro-2-methyl-4-isothiazolin-3-one and 2-methyl-4-isothiazolin-3-one (CMIT/MIT) is a biocide widely used as a preservative in various commercial products. This biocide has also been used as an active ingredient in humidifier disinfectants in South Korea, resulting in serious health effects among users. Recent evidence suggests that the underlying mechanism of CMIT/MIT-initiated toxicity might be associated with defects in mitochondrial functions. The aim of this study was to utilize the C2C12 skeletal muscle model to investigate the effects of CMIT/MIT on mitochondrial function and relevant molecular pathways associated with skeletal muscle dysfunction. Data demonstrated that exposure to CMIT/MIT during myogenic differentiation induced significant mitochondrial excess production of reactive oxygen species (ROS) and a decrease in intracellular ATP levels. Notably, CMIT/MIT significantly inhibited mitochondrial oxidative phosphorylation (Oxphos) and reduced mitochondrial mass at a lower concentration than the biocide amount, which diminished the viability of myotubes. CMIT/MIT induced activation of autophagy flux and decreased protein expression levels of myosin heavy chain (MHC). Taken together, CMIT/MIT exposure produced damage in C2C12 myotubes by impairing mitochondrial bioenergetics and activating autophagy. Our findings contribute to an increased understanding of the underlying mechanisms associated with CMIT/MIT-induced adverse skeletal muscle health effects. [ABSTRACT FROM AUTHOR]

Published

2024

25. TRIM11 Prevents Ferroptosis in model of asthma by UBE2N-TAX1BP1 signaling.

Author

Li, Na, Qiu, Guoqing, Xu, Xiangqin, Shen, Yan, and Chen, Yuming

Subjects

ASTHMATICS, VOLUNTEER recruitment, GENE expression, PROTEIN expression, ASTHMA

Abstract

Asthma is a complex chronic respiratory inflammatory disease affected by both genetic and environmental factors. Therefore, our study explored the influence of TRIM11 on asthma and its underlying mechanisms. Our research involved patients diagnosed with asthma and healthy volunteers recruited from our hospital. We observed a reduction in serum TRIM11 expression in asthma patients, which positively correlated with the levels of anti-IgE or IgE. Additionally, both TRIM11 mRNA and protein expression in lung tissue were diminished. The introduction of the TRIM11 gene resulted in a reduction in inflammation in an in vitro asthma model and prevented the development of asthma in a mouse model. Moreover, the TRIM11 gene exhibited a suppressive effect on Ferroptosis and mitigated ROS-induced mitochondrial damage in the asthma model. TRIM11 was found to stimulate UBE2N-TAX1BP1 signaling in the asthma model, with UBE2N being identified as the specific target for TRIM11's effects on Ferroptosis. Furthermore, TRIM11 protein interacted with UBE2N protein and facilitated the dissociation of UBE2N-UBE2N in the asthma model. In conclusion, TRIM11 plays a vital role in preventing Ferroptosis in the asthma model through UBE2N-TAX1BP1 signaling. This indicates that targeting the TRIM11 mechanism could serve as a promising strategy for anti-Ferroptosis immunotherapy in asthma treatment. [ABSTRACT FROM AUTHOR]

Published

2024

26. Screening and expression validation of key proteins for secondary hair follicle growth in cashmere goats based on iTRAQ quantitative proteomics technology.

Author

Jiale Chang, Fanhua Meng, Ru Zhang, Juan Feng, Yujing Liu, Junjie Zhang, Zhaomin Liu, Jiayue Liang, and Hongmei Xiao

Subjects

TIME series analysis, PEPTIDYLPROLYL isomerase, HAIR follicles, HAIR growth, PROTEIN expression

Abstract

Background: The growth of secondary hair follicles (SHFs) in cashmere goats has periodic changes, including telogen, anagen, and catagen, during which proteins play important roles as the executor of life activities. Results: In this study, the skin tissues of cashmere goats at three different growth stages of SHFs were collected for proteome sequencing and validation experiments. Through protein differential expression analysis and time series analysis, FKBP prolyl isomerase 10 (FKBP10) and fibrillin 2 (FBN2) were screened as the key proteins for SHF cycle growth of cashmere goats, and albumin (ALB), collagen type I alpha 1 chain (COL1A1) and elastin (ELN) were predicted to be their interacting proteins. The results of quantitative real-time PCR (qRT- PCR), western blot, and immunohistochemistry experiments showed that the mRNA and protein expression levels of FKBP10, FBN2, COL1A1, ELN and ALB were higher in anagen and lower in telogen. They were all highly expressed in the outer root sheath of SHFs in anagen. Conclusion: FKBP10, FBN2, COL1A1, ELN, and ALB can promote the growth of SHFs in cashmere goats. This study lays the foundation for analyzing the growth cycle regulatory mechanism of SHFs in cashmere goats, and provides new ideas for further improving cashmere yield and quality. [ABSTRACT FROM AUTHOR]

Published

2024

27. Comprehensive analysis of Hibisci mutabilis Folium extract's mechanisms in alleviating UV-induced skin photoaging through enhanced network pharmacology and experimental validation.

Author

Wenyuan Chen, Qin Deng, Bili Deng, Yueping Li, Gengqi Fan, Fangfang Yang, Wei Han, Jian Xu, and Xiaolan Chen

Subjects

CHINESE medicine, WRINKLES (Skin), CLINICAL medicine, STAINS & staining (Microscopy), FLUORESCENCE microscopy, PROTEIN expression

Abstract

Background: Skin photoaging induced by ultraviolet A (UVA) and ultraviolet B (UVB) radiation manifests as skin roughness, desquamation, pigmentation, and wrinkle formation. Current treatments, such as sunscreen, hormones, and antioxidants, have limitations and side effects. Traditional Chinese Medicine Hibisci Mutabilis Folium (HMF), or Mu-Fu-Rong-Ye in Chinese name, refers to the dried leaves of the plant Hibiscus mutabilis L., which belongs to the Malvaceae family. It has been used traditionally to treat acute mastitis, parotitis, neurodermatitis, burns. The reported activities of HMF include antiinflammatory and anti-oxidant effects. However, the therapeutic potential of HMF in preventing and treating UV-induced skin photoaging remains unexplored. Objective: This study aimed to investigate the protective effects of HMF extract (EHMF) against UV-induced skin photoaging and the underlying mechanisms of action, by using network pharmacology and experimental verification. Methods: Network pharmacology was employed to identify the effective chemical components of EHMF. Potential targets were identified via PPI network analysis. Representative compounds were characterized using UPLCMS/MS. In vitro validation involved assessing HaCaT cell viability, observing live/dead cell staining through fluorescence microscopy, and measuring inflammatory factors using ELISA. For in vivo validation, a UV-induced skin photoaging mice model was treated transdermally with EHMF or Methotrexate daily for 7 days. Dermatitis severity, skin morphology, and collagen fiber pathology were evaluated. Inflammatory cytokine and protein expression in dorsal skin lesions was confirmed using Elisa Kits, Western blot and immunohistochemistry. Results: A total of 22 active ingredients of EHMF were identified. GO enrichment and KEGG pathway analyses revealed a focus on inflammatory signaling pathways. In vitro experiments showed that EHMF significantly reduced UV-induced inflammatory factors in HaCaT cells and improved cell survival rates. In vivo, EHMF alleviated back skin lesions in UV-exposed mice, reducing epidermal and dermal thickening and pathological inflammatory cell infiltration. It also decreased abnormal MMP-9 expression and collagen fiber proliferation, along with levels of inflammatory factors like TNF-α, IL-6, IL-17, and EGFR. Western blot and immunohistochemistry results indicated that the over-activation of the AKTSTAT3 signaling pathway was inhibited. Conclusion: EHMF effectively reduced UV-induced skin damage, inflammation, and wrinkles, providing strong support for its clinical application as a dermatological agent. [ABSTRACT FROM AUTHOR]

Published

2024

28. Manipulation of DHPS activity affects dendritic morphology and expression of synaptic proteins in primary rat cortical neurons.

Author

Cavalli, Paola, Raffauf, Anna, Passarella, Sergio, Helmuth, Martin, Dieterich, Daniela C., and Landgraf, Peter

Subjects

INITIATION factors (Biochemistry), GENETIC translation, COGNITIVE ability, PROTEIN expression, MORPHOLOGY

Abstract

Deoxyhypusine synthase (DHPS) catalyzes the initial step of hypusine incorporation into the eukaryotic initiation factor 5A (eIF5A), leading to its activation. The activated eIF5A, in turn, plays a key role in regulating the protein translation of selected mRNAs and therefore appears to be a suitable target for therapeutic intervention strategies. In the present study, we analyzed the role of DHPS-mediated hypusination in regulating neuronal homeostasis using lentivirus-based gain and loss of function experiments in primary cortical cultures from rats. This model allows us to examine the impact of DHPS function on the composition of the dendritic and synaptic compartments, which may contribute to a better understanding of cognitive function and neurodevelopment in vivo. Our findings revealed that shRNA-mediated DHPS knockdown diminishes the amount of hypusinated eIF5A (eIF5AHyp), resulting in notable alterations in neuronal dendritic architecture. Furthermore, in neurons, the synaptic composition was also affected, showing both pre- and post-synaptic changes, while the overexpression of DHPS had only a minor impact. Therefore, we hypothesize that interfering with the eIF5A hypusination caused by reduced DHPS activity impairs neuronal and synaptic homeostasis. [ABSTRACT FROM AUTHOR]

Published

2024

29. PTPN11 is a potential biomarker for type 2 diabetes mellitus complicated with colorectal cancer.

Author

Sun, Meiling, Han, Zhe, Luo, Zhimin, Ge, Lijuan, Zhang, Xiaolin, Feng, Keshu, Zhang, Guoshan, Xu, Fuyi, Zhou, Hongpan, Han, Hailin, and Jiang, Wenguo

Subjects

*TYPE 2 diabetes, *PHOSPHOPROTEIN phosphatases, *COLORECTAL cancer, *OXIDATIVE phosphorylation, *PROTEIN expression, *PROTEIN-tyrosine phosphatase

Abstract

Epidemiological surveys have shown that the incidence of type 2 diabetes mellitus (T2DM) and malignancies is rapidly increasing worldwide and has become a major disease that threatens human life. In this study, we quantitatively analyzed the proteome of tumor tissues and adjacent normal tissues from six patients withT2DM combined with colorectal cancer (CRC) and eight non-diabetic CRC, focusing on the effect of T2DM on tumor tissues. We analyzed the functional enrichment of differentially expressed proteins (DEPs) using clusterProfiler in R and the expression level of protein tyrosine phosphatase non-receptor type 11 (PTPN11) and other key proteins in the TIMER and GEPIA2 databases. The HPA database was used to validate PTPN11 protein expression. The correlation between PTPN11 expression and clinicopathological features was analyzed by UALCAN database. The impact of PTPN11 on clinical prognosis was evaluated utilizing Kaplan-Meier Plotter. The correlation between PTPN11 expression and tumor-infiltrated immune cells was investigated via TIMER and TISIDB databases. Gene set enrichment analysis (GSEA) was performed to examined the pathway of PTPN11 enrichment in CRC using data from The Cancer Genome Atlas (TCGA) database. Furthermore, small interfering (si) RNA was used to knock down PTPN11 in CRC cell line SW480. Western blot analysis was used to detect PTPN11 expression in tissue samples or cells and the effect of PTPN11 knockdown on key proteins related to PI3K/AKT and cell cycle pathway in SW480 cells. Cell proliferation and wound healing assays were used to detect the effects of cell proliferation and migration after knockdown of PTPN11 or treatment with high glucose. We found that metabolic pathways such as oxidative phosphorylation, glycolysis/gluconeogenesis, and insulin secretion were significantly enriched in tumor tissues from diabetic patients compared to non-diabetic patients. In addition, PTPN11, a marker gene associated with T2DM and CRC, were mined in diabetic tumor tissues. PTPN11 showed high expression in diabetic tumor tissues compared to normal tissues. High PTPN11 expression predicted poor prognosis in CRC. PTPN11 expression was strongly associated with immune infiltrating cells in CRC. GSEA analysis revealed that PTPN11 was enriched in cancer-related pathways. Western blotting analysis indicated that PTPN11 knockdown reduced the protein levels of p-PI3K, p-AKT, CDK1 and CYCLIN D, without altering PI3K and AKT protein levels. Cell proliferation and wound healing data showed that PTPN11 and high glucose could increase the proliferation and migration ability. These findings showed that PTPN11 may be a potential key biomarker for CRC in patients with diabetes, which will provide new potential targets for future intervention of T2DM complicated with CRC. [ABSTRACT FROM AUTHOR]

Published

2024

30. Chronic hypoxia for the adaptation of extracellular vesicle phenotype.

Author

Pridgeon, Chris S., Airavaara, Kerttu, Monola, Julia, Jokela, Alisa, Palmer, Daniel, Yliperttula, Marjo, and Harjumäki, Riina

Subjects

*EXTRACELLULAR vesicles, *ELECTRIC vehicle industry, *PHENOTYPIC plasticity, *PROTEIN expression, *PHENOTYPES, *CELL culture

Abstract

Variations in oxygen level affect the phenotype of cells and extracellular vesicles (EVs). Depending on the metabolic oxygen demand of cells, hypoxic cell culture can produce conditions more like those found in vivo, and with appropriate oxygen levels, mimic hypoxic tumours. However, most previous experiments studying both EVs and the effects of hypoxia on cells use periods of 72 h or less of hypoxia. We hypothesised that this was insufficient time for adaptation to hypoxic conditions both for EVs and cells which may skew the results of such studies. In this study, the effects of acute (72 h) and chronic hypoxia (> 2 weeks) on the phenotype of HepG2 and PC3 cells and their EVs were examined. Cells could be cultured normally under chronic hypoxic conditions and cryopreserved and recovered. The effects of hypoxia on EV phenotype are slow to establish and dependent on cell line. In PC3 cells, the greatest change in phenotype and increase in EV production occurred only with chronic hypoxic culture. In HepG2 cells, the number of EVs produced was insensitive to hypoxic culture and the greatest changes in protein expression were observed after acute hypoxic culture. Nonetheless, biphasic changes in EV phenotype were detected in both cell types in response to either acute or chronic hypoxia. These results indicate that for cells which do not induce consumptive oxygen depletion, prolonged hypoxic culture is required for complete adaptation. [ABSTRACT FROM AUTHOR]

Published

2024

31. Construction of a tumor mutational burden-derived LncRNA prognostic computational framework associated with therapy sensitivity in skin cutaneous melanoma.

Author

Li, Gaohua, Wu, Tingting, Li, Heping, Wei, Chuzhong, Sun, Yuanbo, Gao, Pengcheng, Huang, Xinlin, Liu, Zining, Li, Jianwei, Wang, Yanan, Li, Guoxin, and Fan, Lei

Subjects

*GENE expression, *TUMOR growth, *PROTEIN expression, *SOX transcription factors, *CELL proliferation

Abstract

Background: Skin cutaneous melanoma (SKCM) poses a significant public health challenge due to its aggressive nature and limited treatment options. To address this, the study introduces the Tumor Mutational Burden-Derived Immune lncRNA Prognostic Index (TILPI) as a potential prognostic tool for SKCM. Methods: TILPI was developed using a combination of gene set variation analysis, differential expression analysis, and COX regression analysis. Additionally, functional experiments were conducted to validate the findings, focusing on the effects of STARD4-AS1 knockdown on SKCM tumor cell behavior. These experiments encompassed assessments of tumor cell proliferation, gene and protein expression, migration, invasion, and in vivo tumor growth. Results: The results demonstrated that knockdown of STARD4-AS1 led to a significant reduction in tumor cell proliferation and impaired migration and invasion abilities. Moreover, it resulted in the downregulation of ADCY4, PRKACA, and SOX10 gene expression, as well as decreased protein expression of ADCY4, PRKACA, and SOX10. In vivo experiments further confirmed the efficacy of STARD4-AS1 knockdown in reducing tumor growth. Conclusions: This study elucidates the mechanistic role of STARD4-AS1 and its downstream targets in SKCM progression, highlighting the importance of the ADCY4/PRKACA/SOX10 pathway. The integration of computational analysis with experimental validation enhances the understanding of TILPI and its clinical implications. Overall, the findings underscore the potential of novel computational frameworks like TILPI in predicting and managing SKCM, particularly through targeting the ADCY4/PRKACA/SOX10 pathway. [ABSTRACT FROM AUTHOR]

Published

2024

32. Dietary marine hydrolysate alleviates D-galactose-induced brain aging by attenuating cognitive alterations, oxidative stress and inflammation through the AGE-RAGE axis.

Author

Mougin, Camille, Chataigner, Mathilde, Lucas, Céline, Pallet, Véronique, Bouvret, Elodie, Joffre, Corinne, and Dinel, Anne-Laure

Subjects

*ADVANCED glycation end-products, *ANIMAL models for aging, *GENE expression, *COGNITIVE aging, *PROTEIN expression

Abstract

Aging represents a natural and unavoidable phenomenon in organisms. With the acceleration of population aging, investigations into aging have garnered widespread global interest. One of the most striking aspects of human aging is the decline in brain function, a phenomenon intricately tied to the onset of neurodegenerative conditions. This study aimed to assess the impact of a fish hydrolysate, rich in low-molecular-weight peptides and n-3 LC-PUFAs, on cognitive function, inflammatory response, and oxidative stress via the AGE-RAGE axis in a mouse model of accelerated aging. This model induces cognitive decline and biochemical alterations akin to those observed during natural aging. The findings revealed that fish hydrolysate exhibited a protective effect against cognitive impairment induced by D-galactose. This effect was associated with increased protein expression of SOD1 and decreased genetic expression of IL-6 and advanced glycation end products (AGE). Consequently, within the realm of preventive and personalized nutrition, fish hydrolysate emerges as a promising avenue for mitigating age-related declines in memory function. [ABSTRACT FROM AUTHOR]

Published

2024

33. Beyond Barrels: Diverse Thalamocortical Projection Motifs in the Mouse Ventral Posterior Complex.

Author

Rubio-Teves, Mario, Martín-Correa, Pablo, Alonso-Martínez, Carmen, Casas-Torremocha, Diana, García-Amado, María, Timonidis, Nestor, Sheiban, Francesco J., Bakker, Rembrandt, Tiesinga, Paul, Porrero, César, and Clascá, Francisco

Subjects

*INSULAR cortex, *CALCIUM-binding proteins, *CEREBRAL cortex, *PROTEIN expression, *CALBINDIN

Abstract

Thalamocortical pathways fromthe rodent ventral posterior (VP) thalamic complex to the somatosensory cerebral cortex areas are a key model in modern neuroscience. However, beyond the intensively studied projection from medial VP (VPM) to the primary somatosensory area (S1), the wiring of these pathways remains poorly characterized. We combined micropopulation tract-tracing and single-cell transfection experiments to map the pathways arising from different portions of the VP complex inmalemice. We found that pathways originating fromdifferent VP regions show differences in area/lamina arborization pattern and axonal varicosity size. Neurons fromthe rostral VPM subnucleus innervate trigeminal S1 in point-to-point fashion. In contrast, a caudal VPMsubnucleus innervates heavily and topographically second somatosensory area (S2), but not S1. Neurons in a third, intermediate VPM subnucleus innervate through branched axons both S1 and S2, with markedly different laminar patterns in each area. A small anterodorsal subnucleus selectively innervates dysgranular S1. The parvicellularVPMsubnucleus selectively targets the insular cortex and adjacent portions of S1 and S2. Neurons in the rostral part of the lateral VP nucleus (VPL) innervate spinal S1, while caudal VPL neurons simultaneously target S1 and S2. Rostral and caudal VP nuclei show complementary patterns of calcium-binding protein expression. In addition to the cortex, neurons in caudal VP subnuclei target the sensorimotor striatum. Our finding of a massive projection fromVP to S2 separate fromthe VP projections to S1 adds critical anatomical evidence to the notion that different somatosensory submodalities are processed in parallel in S1 and S2. [ABSTRACT FROM AUTHOR]

Published

2024

34. Expression and function of interferon lambda receptor 1 variants.

Author

Novotny, Laura A. and Meissner, Eric G.

Subjects

*PROTEIN receptors, *PROTEIN expression, *EPITHELIAL cells, *NATURAL immunity, *INTERFERONS, *INTERFERON receptors

Abstract

Lambda interferons (IFNLs) provide critical host defense against pathogens encountered at mucosal surfaces. In humans, IFNL signaling is regulated in part by low and cell‐type restricted expression of the lambda interferon receptor 1 protein with expression restricted primarily to epithelial cells located at mucosal surfaces. This review will examine the evidence suggesting a role for IFNLR1 transcriptional variants in mediating cell responsiveness to IFNL ligand exposure and regulation of pathway activity. [ABSTRACT FROM AUTHOR]

Published

2024

35. Fecal microbiota transplantation alters the proteomic landscape of inflammation in HIV: identifying bacterial drivers.

Author

Díaz-García, Claudio, Moreno, Elena, Talavera-Rodríguez, Alba, Martín-Fernández, Lucía, González-Bodí, Sara, Martín-Pedraza, Laura, Pérez-Molina, José A., Dronda, Fernando, Gosalbes, María José, Luna, Laura, Vivancos, María Jesús, Huerta-Cepas, Jaime, Moreno, Santiago, and Serrano-Villar, Sergio

Subjects

FECAL microbiota transplantation, BLOOD proteins, PROTEIN expression, PROTEOMICS, GUT microbiome

Abstract

Background: Despite effective antiretroviral therapy, people with HIV (PWH) experience persistent systemic inflammation and increased morbidity and mortality. Modulating the gut microbiome through fecal microbiota transplantation (FMT) represents a novel therapeutic strategy. We aimed to evaluate proteomic changes in inflammatory pathways following repeated, low-dose FMT versus placebo. Methods: This double-masked, placebo-controlled pilot study assessed the proteomic impacts of weekly FMT versus placebo treatment over 8 weeks on systemic inflammation in 29 PWH receiving stable antiretroviral therapy (ART). Three stool donors with high Faecalibacterium and butyrate profiles were selected, and their individual stools were used for FMT capsule preparation. Proteomic changes in 345 inflammatory proteins in plasma were quantified using the proximity extension assay, with samples collected at baseline and at weeks 1, 8, and 24. Concurrently, we characterized shifts in the gut microbiota composition and annotated functions through shotgun metagenomics. We fitted generalized additive models to evaluate the dynamics of protein expression. We selected the most relevant proteins to explore their correlations with microbiome composition and functionality over time using linear mixed models. Results: FMT significantly reduced the plasma levels of 45 inflammatory proteins, including established mortality predictors such as IL6 and TNF-α. We found notable reductions persisting up to 16 weeks after the final FMT procedure, including in the expression of proteins such as CCL20 and CD22. We identified changes in 46 proteins, including decreases in FT3LG, IL6, IL10RB, IL12B, and IL17A, which correlated with multiple bacterial species. We found that specific bacterial species within the Ruminococcaceae, Succinivibrionaceae, Prevotellaceae families, and the Clostridium genus, in addition to their associated genes and functions, were significantly correlated with changes in inflammatory markers. Conclusions: Targeting the gut microbiome through FMT effectively decreased inflammatory proteins in PWH, with sustained effects. These findings suggest the potential of the microbiome as a therapeutic target to mitigate inflammation-related complications in this population, encouraging further research and development of microbiome-based interventions. 3bGeWVUV_8zBqrmtjgQWmW Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

36. Biomarkers in head and neck squamous cell carcinoma: unraveling the path to precision immunotherapy.

Author

Saini, Kamal S., Somara, Sasikala, Ko, Heidi C., Thatai, Purva, Quintana, Angela, Wallen, Zachary D., Green, Michelle F., Mehrotra, Ravi, McGuigan, Sandra, Lingjuan Pang, Das, Soma, Yadav, Kavita, Neric, Dobrica, Cantini, Luca, Joshi, Chinmayee, Kazuya Iwamoto, Dubbewar, Sudha, Vidal, Laura, Chico, Isagani, and Severson, Eric

Subjects

SQUAMOUS cell carcinoma, CYTOLOGY, GENETIC mutation, PROTEIN expression, BIOMARKERS, HEAD & neck cancer

Abstract

Recent strides in understanding the molecular underpinnings of head and neck cancers have sparked considerable interest in identifying precise biomarkers that can enhance prognostication and enable personalized treatment strategies. Immunotherapy has particularly revolutionized the therapeutic landscape for head and neck squamous cell carcinoma, offering new avenues for treatment. This review comprehensively examines the application and limitations of the established and emerging/novel biomarkers for head and neck squamous cell carcinoma. Established biomarkers, including well-characterized genetic mutations, protein expressions, and clinical factors, have been extensively studied and validated in clinical practice. Novel biomarkers identified through molecular analyses, including novel genetic alterations, immune-related markers, and molecular signatures, are currently being investigated and validated in preclinical and clinical settings. Biomarkers hold the potential to deepen our understanding of head and neck squamous cell carcinoma biology and guide therapeutic strategies. The evolving paradigm of predictive biomarkers facilitates the study of individual responses to specific treatments, including targeted therapy and immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

37. Morphological, electrophysiological, and molecular alterations in foetal noncompacted cardiomyopathy induced by disruption of ROCK signalling.

Author

Sedmera, David, Olejnickova, Veronika, Sankova, Barbora, Kolesova, Hana, Bartos, Martin, Kvasilova, Alena, Phillips, Lauren C., Bamforth, Simon D., and Phillips, Helen M.

Subjects

CARDIAC arrest, CARDIAC hypertrophy, GTPASE-activating protein, HEART failure, PROTEIN expression

Abstract

Left ventricular noncompaction cardiomyopathy is associated with heart failure, arrhythmia, and sudden cardiac death. The developmental mechanism underpinning noncompaction in the adult heart is still not fully understood, with lack of trabeculae compaction, hypertrabeculation, and loss of proliferation cited as possible causes. To study this, we utilised a mouse model of aberrant Rho kinase (ROCK) signalling in cardiomyocytes, which led to a noncompaction phenotype during embryogenesis, and monitored how this progressed after birth and into adulthood. The cause of the early noncompaction at E15.5 was attributed to a decrease in proliferation in the developing ventricular wall. By E18.5, the phenotype became patchy, with regions of noncompaction interspersed with thick compacted areas of ventricular wall. To study how this altered myoarchitecture of the heart influenced impulse propagation in the developing and adult heart, we used histology with immunohistochemistry for gap junction protein expression, optical mapping, and electrocardiography. At the prenatal stages, a clear reduction in left ventricular wall thickness, accompanied by abnormal conduction of the ectopically paced beat in that area, was observed in mutant hearts. This correlated with increased expression of connexin-40 and connexin-43 in noncompacted trabeculae. In postnatal stages, left ventricular noncompaction was resolved, but the right ventricular wall remained structurally abnormal through to adulthood with cardiomyocyte hypertrophy and retention of myocardial crypts. Thus, this is a novel model of self-correcting embryonic hypertrabeculation cardiomyopathy, but it highlights that remodelling potential differs between the left and right ventricles. We conclude that disruption of ROCK signalling induces both morphological and electrophysiological changes that evolve over time, highlighting the link between myocyte proliferation and noncompaction phenotypes and electrophysiological differentiation. [ABSTRACT FROM AUTHOR]

Published

2024

38. Toxicological screening of zinc oxide nanoparticles in mongrel dogs after seven days of repeated subcutaneous injections.

Author

Hassan, Marwa H., Emam, Ibrahim A., Farghali, Haitham, Ibrahim, Marwa A, Hassan, Neven H., Farroh, Khaled Y., and Hassanen, Eman I.

Subjects

*SUBCUTANEOUS injections, *ZINC oxide, *PROTEIN expression, *OXIDATIVE stress, *GENE expression, *LUNGS

Abstract

Zinc oxide nanoparticles (ZnO NPs) have recently been applied in various veterinary and medical fields, however, the toxicological evaluations of these NPs in dogs are lacking. Therefore, the current study is designed to assess the impact of exposure to daily subcutaneous (SC) injections of ZnO NPs at different concentrations on various organs of mongrel dogs. Nine dogs were randomly divided into three groups (n = 3 for each) as follows: group (1) served as the control group, whereas groups (2&3) received SC injections of 50 and 100 ppm ZnO NPs (8 and 16 μg/kg bwt), respectively, once/day for 7 days. Our results revealed that ZnO NPs disrupted the oxidant/antioxidant balance in the lungs, liver, and kidneys of dogs in a dose-dependent manner. ZnO NPs induced dose-dependent radiological, ultrasonographical, and histopathological alterations in various organs especially lungs, spleen, liver, and kidneys along with disturbance in both liver and kidney biomarkers levels. Most organs of both ZnO NPs receiving groups displayed strong caspase-3 protein expression. Additionally, it upregulates the transcriptase levels of TNF-α and VEGF, as well as downregulates the antiapoptotic gene IL-10 in lung, kidney, and liver tissue homogenates. It was concluded that the daily SC injections of dogs with ZnO NPs at concentrations of 50 and 100 ppm caused extensive oxidative stress damage in various organs which provoked serious pathological processes such as apoptosis and inflammation. [ABSTRACT FROM AUTHOR]

Published

2024

39. Mechanism of the cardioprotective effect of empagliflozin on diabetic nephropathy mice based on the basis of proteomics.

Author

Yu, Zongchao, Lu, Yongping, Zhang, Mengxian, Lin, Yanshan, Wong, Tak-sui, Guan, Baozhang, Meng, Yu, Hu, Bo, Liu, Fan-na, Yin, Lianghong, Li, Yankun, Zhang, Han, Tang, Donge, and Dai, Yong

Subjects

*PROTEOMICS, *DIABETIC nephropathies, *RENAL replacement therapy, *PROTEIN expression, *CELLULAR signal transduction

Abstract

Diabetic nephropathy affects a significant proportion of individuals with diabetes, and its progression often leads to cardiovascular disease and infections before the need for renal replacement therapy arises. Empagliflozin has been shown to have various protective effects in cardiovascular disease studies, such as improving diabetic myocardial structure and function, and reducing myocardial oxidative stress. However, the impact of empagliflozin on cardiac protein expression and signaling pathways has not been comprehensively analyzed. To address this gap, we conducted proteome analysis to identify specific protein markers in cardiac tissue from the diabetes model group, including Myh7, Wdr37, Eif3k, Acot1, Acot2, Cat, and Scp2, in cardiac tissue from the diabetes model group. In our drug model, empagliflozin primarily modulates the fat-related metabolic signaling pathway within the heart. Empagliflozin downregulated the protein expression levels of ACOX1, ACADVL and CPT1A in the model group. Overall, our findings demonstrate that empagliflozin provides cardiac protection by targeting metabolic signaling pathways, particularly those related to fat metabolism. Moreover, the identification of cardiac biomarkers in a mouse model of diabetic nephropathy lays the foundation for further exploration of disease biomarkers in cardiac tissue. [ABSTRACT FROM AUTHOR]

Published

2024

40. miR-326 overexpression inhibits colorectal cancer cell growth and proteasome activity by targeting PNO1: unveiling a novel therapeutic intervention strategy.

Author

Fang, Yi, Wu, Yulun, Zhang, Xinran, Wei, Lihui, Liu, Liya, Chen, Youqin, Chen, Daxin, Xu, Nanhui, Cao, Liujin, Zhu, Jie, Chen, Mian, Cheng, Ying, Sferra, Thomas J., Yao, Mengying, Shen, Aling, and Peng, Jun

Subjects

*CANCER cell growth, *CELL growth, *COLORECTAL cancer, *PROTEASOME inhibitors, *PROTEIN expression

Abstract

Proteasome inhibition emerges as a promising strategy for cancer prevention. PNO1, pivotal for colorectal cancer (CRC) progression, is involved in proteasome assembly in Saccharomyces cerevisiae. Hence, we aimed to explore the role of PNO1 in proteasome assembly and its up- and down-streams in CRC. Here, we demonstrated that PNO1 knockdown suppressed CRC cells growth, proteasome activities and assembly, as well as CDKN1B/p27Kip1 (p27) degradation. Moreover, p27 knockdown partially attenuated the inhibition of HCT116 cells growth by PNO1 knockdown. The up-stream studies of PNO1 identified miR-326 as a candidate miRNA directly targeting to CDS-region of PNO1 and its overexpression significantly down-regulated PNO1 protein expression, resulting in suppression of cell growth, decrease of proteasome activities and assembly, as well as increasing the stability of p27 in CRC cells. These findings indicated that miR-326 overexpression can suppress CRC cell growth, acting as an endogenous proteasome inhibitor by targeting PNO1. [ABSTRACT FROM AUTHOR]

Published

2024

41. Mass Spectrometry‐Based Proteomics for Assessing Epitranscriptomic Regulations.

Author

Yang, Yen‐Yu, Cao, Zhongwen, and Wang, Yinsheng

Subjects

*GENETIC regulation, *RNA modification & restriction, *PROTEOMICS, *POST-translational modification, *PROTEIN expression, *MASS spectrometry

Abstract

ABSTRACT Epitranscriptomics is a rapidly evolving field that explores chemical modifications in RNA and how they contribute to dynamic and reversible regulations of gene expression. These modifications, for example, N6‐methyladenosine (m6A), are crucial in various RNA metabolic processes, including splicing, stability, subcellular localization, and translation efficiency of mRNAs. Mass spectrometry‐based proteomics has become an indispensable tool in unraveling the complexities of epitranscriptomics, offering high‐throughput, precise protein identification, and accurate quantification of differential protein expression. Over the past two decades, advances in mass spectrometry, including the improvement of high‐resolution mass spectrometers and innovative sample preparation methods, have allowed researchers to perform in‐depth analyses of epitranscriptomic regulations. This review focuses on the applications of bottom‐up proteomics in the field of epitranscriptomics, particularly in identifying and quantifying epitranscriptomic reader, writer, and eraser (RWE) proteins and in characterizing their functions, posttranslational modifications, and interactions with other proteins. Together, by leveraging modern proteomics, researchers can gain deep insights into the intricate regulatory networks of RNA modifications, advancing fundamental biology, and fostering potential therapeutic applications. [ABSTRACT FROM AUTHOR]

Published

2024

42. Identification and analysis of the key genes for Escherichia coli heterologous protein expression by transcriptomic profiling.

Author

Chen, Anxiang, Dong, Yuguo, Jiang, Huaigu, Yang, Shengli, Zhang, Jian, and Wei, Dongzhi

Abstract

Background: Escherichia coli is a frequently used host for heterologous protein expression, but its expression efficiency is hindered by several limitations, such as formation of inclusion bodies and proteolytic degradation. Methods and results: In this study, we employed high-density fermentation of heterologous protein production in a 5-L bioreactor, resulting in a yield 2.25 times higher than that of the control group. Transcriptional analysis was conducted at three time points after induction for 0 h, 4 h, and 12 h, revealing 420, 301, and 570 upregulated differentially expressed genes, as well as 424, 202, and 525 downregulated genes, respectively. By conducting enrichment analysis, we constructed strains that relieved without iron limitation, exhibiting a 36% increase in biomass and a 32% increase in protein expression. Furthermore, no overflow metabolism of acetic acid was detected during the protein expression process when utilizing chemostat culture, which indicated that the utilization efficiency of glucose was significantly enhanced without iron limitation. Conclusions: This study presents a novel approach to better comprehend the mechanism of high-yield production of heterologous proteins in Escherichia coli. [ABSTRACT FROM AUTHOR]

Published

2024

43. 铁死亡在微塑料和猛联合暴露致小鼠 纹状体损伤的实验研究.

Author

吴桐, 倪凯月, 何新蕾, 焦柯影, 王玉君, 王伟轩, 赵良君, 郝瀚, and 张艳淑

Subjects

*PROTEIN expression, *MICROPLASTICS, *MULTIPLE comparisons (Statistics), *FACTOR analysis, *GLUTAMATE transporters

Abstract

Objective To investigate the role of ferroptosis in striatum damage induced by combined exposure of microplastics and manganese by establishing a mouse model following microplastics and manganese alone or combined exposure. Methods Forty SPF male C57 mice were randomly divided into control group, manganese exposure group, microplastics exposure group and combined exposure group. Neurobehavioral tests including rotarod test, open field test and sucrose preference test were performed. The contents of divalent iron, malondialdehyde and glutathione in striatum of mice were detected by using the kit. Western blotting was used to detect the protein expressions of SLC7A11, GPX4 and FPN1 in striatum of mice. Real-time PCR was performed to detect the expression of miR-124. Single factor analysis of variance was used for comparison of multiple groups of data, and LSD test was used for further pairwise comparison. Results Behavioral tests showed that the residence time of the rotating rod (all P<0.001), the residence time in the central zone of open field test (all P<0.001), total distance of open field test (all P<0.001) and the sucrose preference rate (Pmanganese=0.010; Pmicroplastics<0.001) in manganese exposure group and microplastics exposure group decreased significantly compared with that of the control group. Compared with the manganese exposure group and microplastics exposure group, the residence time of the rotating rod, the residence time in the central zone of the open field test and the total distance of the open field test of combined exposure group decreased significantly (all P<0.001). In addition, the sucrose preference rate of the combined exposure group was lower than that of the manganese exposure group (P=0.001). At the same time, compared with the control group, the contents of Fe2+ in striatum of mice in manganese exposure group and microplastics exposure group increased (Pmanganese=0.002; Pmicroplastics=0.001), the contents of GSH decreased (Pmanganese=0.015; Pmicroplastics<0.001). The content of MDA in the striatum of mice in microplastics exposure group increased (P<0.001). Furthermore, the contents of Fe2+ and MDA in striatum of mice in combined exposure group were higher than those in manganese exposure group (PFe2+=0.004; PMDA<0.001) and microplastics exposure group (PFe2+=0.008; PMDA=0.007), while the content of GSH was lower than that in the manganese exposure group (P<0.001). The protein expressions of SLC7A11 in manganese exposure group (P=0.010) and microplastics exposure group (P=0.001) were lower than that in the control group. The protein expression of GPX4 in microplastics exposure group was lower than that in the control group (P=0.007), and the protein expression of GPX4 in the combined exposure group was lower than that in the manganese exposure group (P=0.006). The protein expressions of FPN1 in the manganese exposure group (P=0.005) and microplastics exposure group (P=0.002) were lower than that in the control group and the protein expression of FPN1 in the combined exposure group was significantly lower than those in the manganese exposure group (P=0.008) and microplastics exposure group (P=0.005). Compared with the control group, the expressions of miR-124 in striatum of mice in manganese exposure group (P=0.002) and microplastics exposure group (P<0.001) increased. At the same time, the expression of miR-124 in the striatum of mice in the combined exposure group was higher than those in the manganese exposure group and microplastics exposure group (all P<0.001). Conclusion Combined exposure of microplastics and manganese might lead to striatum damage in mice through the regulation of ferroptosis, and then cause motor dysfunction and anxiety-depression-like behavior. [ABSTRACT FROM AUTHOR]

Published

2024

44. Enhanced Anti-Melanoma Activity of Nutlin-3a Delivered via Ethosomes: Targeting p53-Mediated Apoptosis in HT144 Cells.

Author

Romani, Arianna, Lodi, Giada, Casciano, Fabio, Gonelli, Arianna, Secchiero, Paola, Zauli, Giorgio, Bortolini, Olga, Valacchi, Giuseppe, Ragno, Daniele, Bondi, Agnese, Benedusi, Mascia, Esposito, Elisabetta, and Voltan, Rebecca

Subjects

*CELL morphology, *CELL cycle, *LIPID rafts, *PROTEIN expression, *WESTERN immunoblotting, *NOTCH genes

Abstract

This study evaluated ethosomes as a novel nanodelivery system for nutlin-3a, a known MDM2 inhibitor and activator of the p53 pathway, to improve nutlin-3a's poor solubility, limiting its bio-distribution and therapeutic efficacy. The potential of nutlin-3a-loaded ethosomes was investigated on two in vitro models of melanoma: the HT144 cell line p53wild-type and the SK-MEL-28 cell line p53mutated. Nutlin-3a-loaded ethosomes were characterized for their physicochemical properties and used to treat melanoma cells at different concentrations, considering nutlin-3a solution and empty ethosomes as controls. The biological effects on cells were evaluated 24 and 48 h after treatment by analyzing the cell morphology and viability, cell cycle, and apoptosis rate using flow cytometry and the p53 pathway's activation via Western blotting. The results indicate that ethosomes are delivery systems able to maintain nutlin-3a's functionality and specific biological action, as evidenced by the molecular activation of the p53 pathway and the biological events leading to cell cycle block and apoptosis in p53wild-type cells. Nutlin-3a-loaded ethosomes induced morphological changes in the HT144 cell line, with evident apoptotic cells and a reduction in the number of viable cells of over 80%. Furthermore, nutlin-3a-loaded ethosomes successfully modulated two p53-regulated proteins involved in survival/apoptosis, with up to a 2.5-fold increase in membrane TRAIL-R2 and up to an 8.2-fold decrease in Notch-1 (Notch intracellular domain, NICD) protein expression. The expression of these molecules is known to be altered or dysfunctional in a large percentage of melanoma tumors. Notably, ethosomes, regardless of their nutlin-3a loading, exhibited the ability to reduce HT144 melanoma cellular migration, as assessed in real time using xCELLigence, likely due to the modification of lipid rafts, suggesting their potential antimetastatic properties. Overall, nutlin-3a delivery using ethosomes appears to be a significantly effective means for upregulating the p53 pathway and downregulating active Notch-1, while also taking advantage of their unexpected ability to reduce cellular migration. The findings of this study could pave the way for the development of specific nutlin-3a-loaded ethosome-based medicinal products for cutaneous use. [ABSTRACT FROM AUTHOR]

Published

2024

45. MUC16 Retention after Neoadjuvant Chemotherapy in Pancreatic Ductal Adenocarcinoma.

Author

Muilenburg, Kathryn M., Ehrhorn, Evie G., Olson, Madeline T., Isder, Carly C., Klute, Kelsey A., Talmon, Geoffrey A., Carlson, Mark A., Ly, Quan P., and Mohs, Aaron M.

Subjects

*ADENOCARCINOMA, *FLUORESCENT dyes, *RESEARCH funding, *TREATMENT effectiveness, *PANCREATIC tumors, *IMMUNOHISTOCHEMISTRY, *GENE expression, *COMBINED modality therapy, *DUCTAL carcinoma, *TUMOR antigens

Abstract

Simple Summary: Neoadjuvant chemotherapy has risen in clinical use for the treatment of pancreatic cancer over the past few decades. Many patients now undergo prior treatment before surgical resection to aid in downstaging the tumor for a potentially improved surgical outcome. Potential targeted therapies such as fluorescence-guided surgery often rely on the upregulated protein expression in the tumor. Therefore, it is important to understand the impact of neoadjuvant therapy on tumor protein expression, as protein expression may be altered by chemotherapy treatment. The aim of our study was to evaluate the expression of Mucin 16 (MUC16) after neoadjuvant chemotherapy in pancreatic ductal adenocarcinoma tissue. This study found that MUC16 expression was retained in the tumor following neoadjuvant chemotherapy treatment regimens. These findings may have a broad impact on the delivery of MUC16-targeted therapies before and after neoadjuvant chemotherapy treatment. Background/Objectives: Pancreatic ductal adenocarcinoma (PDAC) has a poor prognosis. Currently, surgical resection is the only potentially curative treatment. Unfortunately, less than 20% of PDAC patients are eligible for surgical resection at diagnosis. In the past few decades, neoadjuvant chemotherapy treatment (NCT) has been investigated as a way to downstage PDAC tumors for surgical resection. Fluorescence-guided surgery (FGS) is a technique that can aid in increasing complete resection rates by enhancing the tumor through passive or active targeting of a contrast agent. In active targeting, a probe (e.g., antibody) binds a protein differentially upregulated in the tumor compared to normal tissue. Mucin 16 (MUC16), a transmembrane glycoprotein, has recently been explored as an FGS target in preclinical tumor models. However, the impact of chemotherapy on MUC16 expression is unknown. Methods: To investigate this issue, immunohistochemistry was performed on PDAC patient samples. Results: We found that MUC16 expression was retained after NCT in patient samples (mean expression = 5.7) with minimal change in expression between the matched diagnostic (mean expression = 3.66) and PDAC NCT patient samples (mean expression = 4.5). Conclusions: This study suggests that MUC16 is a promising target for FGS and other targeted therapies in PDAC patients treated with NCT. [ABSTRACT FROM AUTHOR]

Published

2024

46. Specialized Pro-Resolving Lipid Mediators Distinctly Modulate Silver Nanoparticle-Induced Pulmonary Inflammation in Healthy and Metabolic Syndrome Mouse Models.

Author

Pitchai, Arjun, Shinde, Akshada, Swihart, Jenna N., Robison, Kiley, and Shannahan, Jonathan H.

Subjects

*LABORATORY mice, *METABOLIC syndrome, *ANIMAL disease models, *PROTEIN expression, *AIR pollution

Abstract

Individuals with chronic diseases are more vulnerable to environmental inhalation exposures. Although metabolic syndrome (MetS) is increasingly common and is associated with susceptibility to inhalation exposures such as particulate air pollution, the underlying mechanisms remain unclear. In previous studies, we determined that, compared to a healthy mouse model, a mouse model of MetS exhibited increased pulmonary inflammation 24 h after exposure to AgNPs. This exacerbated response was associated with decreases in pulmonary levels of specific specialized pro-resolving mediators (SPMs). Supplementation with specific SPMs that are known to be dysregulated in MetS may alter particulate-induced inflammatory responses and be useful in treatment strategies. Our current study hypothesized that administration of resolvin E1 (RvE1), protectin D1 (PD1), or maresin (MaR1) following AgNP exposure will differentially regulate inflammatory responses. To examine this hypothesis, healthy and MetS mouse models were exposed to either a vehicle (control) or 50 μg of 20 nm AgNPs via oropharyngeal aspiration. They were then treated 24 h post-exposure with either a vehicle (control) or 400 ng of RvE1, PD1, or MaR1 via oropharyngeal aspiration. Endpoints of pulmonary inflammation and toxicity were evaluated three days following AgNP exposure. MetS mice that were exposed to AgNPs and received PBS treatment exhibited significantly exacerbated pulmonary inflammatory responses compared to healthy mice. In mice exposed to AgNPs and treated with RvE1, neutrophil infiltration was reduced in healthy mice and the exacerbated neutrophil levels were decreased in the MetS model. This decreased neutrophilia was associated with decreases in proinflammatory cytokines' gene and protein expression. Healthy mice treated with PD1 did not demonstrate alterations in AgNP-induced neutrophil levels compared to mice not receiving treat; however, exacerbated neutrophilia was reduced in the MetS model. These PD1 alterations were associated with decreases in proinflammatory cytokines, as well as elevated interleukin-10 (IL-10). Both mouse models receiving MaR1 treatment demonstrated reductions in AgNP-induced neutrophil influx. MaR1 treatment was associated with decreases in proinflammatory cytokines in both models and increases in the resolution inflammatory cytokine IL-10 in both models, which were enhanced in MetS mice. Inflammatory responses to particulate exposure may be treated using specific SPMs, some of which may benefit susceptible subpopulations. [ABSTRACT FROM AUTHOR]

Published

2024

47. Effect of spermidine intake on skeletal muscle regeneration after chemical injury in male mice.

Author

Iwata, Tomohiro, Shirai, Takanaga, Uemichi, Kazuki, Tanimura, Riku, and Takemasa, Tohru

Subjects

*MUSCLE regeneration, *SKELETAL muscle, *SPERMIDINE, *MUSCLE injuries, *PROTEIN expression

Abstract

Skeletal muscle has a high regenerative ability and maintains homeostasis by rapidly regenerating from frequent damage caused by intense exercise or trauma. In sports, skeletal muscle damage occurs frequently due to intense exercise, so practical methods to promote skeletal muscle regeneration are required. Recent studies have shown that it may be possible to promote skeletal muscle regeneration through new pathways, such as promoting autophagy and improving mitochondrial function. Spermidine is a type of polyamine, and oral intake of spermidine promotes autophagy and improves mitochondrial function without inhibiting mTOR. Therefore, we evaluate the effects of spermidine intake on skeletal muscle regeneration after injury using a mouse model of cardiotoxin‐induced muscle injury. Our results showed no significant change in skeletal muscle wet weight with spermidine intake at all time points. In addition, although spermidine intake significantly increased the mean fiber cross‐sectional area 14 days after injury, these effects were not observed at other time points. In addition, we analyzed stem cells, autophagy, mTOR signaling, inflammation, and mitochondria, but no significant effects of spermidine intake were observed at almost all time points and protein expression levels. Therefore, spermidine intake does not affect skeletal muscle regeneration after chemical injury, and if there is any, it is very limited. [ABSTRACT FROM AUTHOR]

Published

2024

48. Loureirin B Reduces Insulin Resistance and Chronic Inflammation in a Rat Model of Polycystic Ovary Syndrome by Upregulating GPR120 and Activating the LKB1/AMPK Signaling Pathway.

Author

Wang, Jing, Huang, Zheng, Cao, Zhiyong, Luo, Yehao, Liu, Yueting, Cao, Huilu, Tang, Xiusong, and Fang, Gang

Subjects

*LABORATORY rats, *NLRP3 protein, *POLYCYSTIC ovary syndrome, *INSULIN resistance, *PROTEIN expression

Abstract

Polycystic ovary yndrome (PCOS) is a common metabolic disorder in women, which is usually associated with insulin resistance (IR) and chronic inflammation. Loureirin B (LrB) can effectively improve insulin resistance and alleviate chronic inflammation, and in order to investigate the therapeutic effect of LrB on polycystic ovary syndrome with insulin resistance (PCOS-IR), we conducted animal experiments. A PCOS-IR rat model was established by feeding a high-fat diet combined with letrozole (1 mg/kg·d for 21 days). The rats were treated with the GPR120 agonists TUG-891 and LrB for 4 weeks. Biochemical parameters (fasting blood glucose, total cholesterol, triglycerides, high- and low-density lipoprotein), hormone levels (serum insulin, E2, T, LH, and FSH), and inflammatory cytokines (TNF-α, IL-1β, IL-6, and IL-18) were analyzed. Histopathological analyses of ovaries were performed using hematoxylin/eosin (H&E) staining. Real-time PCR and western blotting were used to assess GPR120, NLRP3, and caspase-1 expression in ovaries, and immunohistochemistry was used to evaluate LKB1 and AMPK protein expression. LrB reduced body weight, Lee's index, ovarian index, ovarian area, and volume in PCOS-IR rats. It lowered fasting blood glucose, serum insulin, and HOMA-IR. LrB decreased total serum cholesterol, triglyceride, and LDL levels and increased HDL levels. It reduced serum T, LH, and LH/FSH and raised serum E2 and FSH levels. LrB downregulated the mRNA and protein expression levels of NLRP3 and Caspase-1, increased the protein and mRNA expression levels of GPR120 in rat ovaries, and increased LKB1 and AMPK protein expression in ovaries, ameliorating ovarian histopathological changes in PCOS-IR rats. Taken together, LrB upregulated GPR120, LKB1, and AMPK protein expression, downregulated NLRP3 and Caspase-1 protein expression, reduced insulin resistance and chronic inflammation, and ameliorated histopathological changes in ovarian tissues in PCOS rats, suggesting its potential as a treatment for PCOS. [ABSTRACT FROM AUTHOR]

Published

2024

49. Glycine Transporter 1 Inhibitors Minimize the Analgesic Tolerance to Morphine.

Author

Galambos, Anna Rita, Essmat, Nariman, Lakatos, Péter P., Szücs, Edina, Boldizsár Jr., Imre, Abbood, Sarah Kadhim, Karádi, Dávid Á., Kirchlechner-Farkas, Judit Mária, Király, Kornél, Benyhe, Sándor, Riba, Pál, Tábi, Tamás, Harsing Jr., Laszlo G., Zádor, Ferenc, and Al-Khrasani, Mahmoud

Subjects

*GENE expression, *CEREBROSPINAL fluid, *GLYCINE, *PAIN management, *PROTEIN expression, *OPIOID receptors

Abstract

Opioid analgesic tolerance (OAT), among other central side effects, limits opioids' indispensable clinical use for managing chronic pain. Therefore, there is an existing unmet medical need to prevent OAT. Extrasynaptic N-methyl D-aspartate receptors (NMDARs) containing GluN2B subunit blockers delay OAT, indicating the involvement of glutamate in OAT. Glycine acts as a co-agonist on NMDARs, and glycine transporters (GlyTs), particularly GlyT-1 inhibitors, could affect the NMDAR pathways related to OAT. Chronic subcutaneous treatments with morphine and NFPS, a GlyT-1 inhibitor, reduced morphine antinociceptive tolerance (MAT) in the rat tail-flick assay, a thermal pain model. In spinal tissues of rats treated with a morphine–NFPS combination, NFPS alone, or vehicle-comparable changes in µ-opioid receptor activation, protein and mRNA expressions were seen. Yet, no changes were observed in GluN2B mRNA levels. An increase was observed in glycine and glutamate contents of cerebrospinal fluids from animals treated with a morphine–NFPS combination and morphine, respectively. Finally, GlyT-1 inhibitors are likely to delay MAT by mechanisms relying on NMDARs functioning rather than an increase in opioid efficacy. This study, to the best of our knowledge, shows for the first time the impact of GlyT-1 inhibitors on MAT. Nevertheless, future studies are required to decipher the exact mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

50. Effects of Environmental Noise Stress on Mouse Metabolism.

Author

Lee, Jungmin, Yang, Jehoon, Kim, Jeyun, Jang, Yoonjung, Lee, Jisun, Han, Daehyun, Kim, Hunnyun, Jeong, Byong Chang, and Seong, Je Kyung

Subjects

*GLIAL fibrillary acidic protein, *HDL cholesterol, *BODY weight, *PROTEIN expression, *NOISE

Abstract

Environmental noise is associated with various health outcomes. However, the mechanisms through which these outcomes influence behavior and metabolism remain unclear. This study investigated how environmental noise affects the liver, adipose tissue, and brain metabolic functions, leading to behavioral and body weight changes. Mice were divided into a noise group exposed to construction noise and an unexposed (control) group. Behavior and body weight changes were monitored over 50 days. Early changes in response to noise exposure were assessed by measuring plasma cortisol and glial fibrillary acidic protein expression in brain tissues on days 1, 15, and 30. Chronic responses, including changes in lipoprotein and fat metabolism and neurotransmitters, were investigated by analyzing serum lipoprotein levels and body fat mass and evaluating liver, fat, and brain tissue after 50 days. The noise group showed higher locomotor activity and reduced anxiety in the open-field and Y-maze tests. Noise exposure caused an initial weight loss; however, chronic noise increased fat mass and induced adipocyte hypertrophy. Our findings underscore the role of environmental noise-induced stress in augmenting locomotor activity and reducing anxiety in mice through neurotransmitter modulation while increasing the risk of obesity by decreasing HDL cholesterol levels and promoting adipocyte hypertrophy. [ABSTRACT FROM AUTHOR]

Published

2024