Your search keyword '"RELA"' showing total 1,062 results

1. Co-imaging of RelA and c-Rel reveals features of NF-κB signaling for ligand discrimination.

Author

Rahman, Shah, Singh, Apeksha, Lowe, Sarina, Aqdas, Mohammad, Jiang, Kevin, Vaidehi Narayanan, Haripriya, Hoffmann, Alexander, and Sung, Myong-Hee

Subjects

CP: Molecular biology, NF-κB, RelA, c-Rel, endogenous knockin, fluorescent fusion reporter mice, inflammatory signaling, live microscopy, macrophages, mathematical modeling, Mice, Animals, NF-kappa B, Ligands, Proto-Oncogene Proteins c-rel, Transcription Factor RelA, Signal Transduction, Macrophages

Abstract

Individual cell sensing of external cues has evolved through the temporal patterns in signaling. Since nuclear factor κB (NF-κB) signaling dynamics have been examined using a single subunit, RelA, it remains unclear whether more information might be transmitted via other subunits. Using NF-κB double-knockin reporter mice, we monitored both canonical NF-κB subunits, RelA and c-Rel, simultaneously in single macrophages by quantitative live-cell imaging. We show that signaling features of RelA and c-Rel convey more information about the stimuli than those of either subunit alone. Machine learning is used to predict the ligand identity accurately based on RelA and c-Rel signaling features without considering the co-activated factors. Ligand discrimination is achieved through selective non-redundancy of RelA and c-Rel signaling dynamics, as well as their temporal coordination. These results suggest a potential role of c-Rel in fine-tuning immune responses and highlight the need for approaches that will elucidate the mechanisms regulating NF-κB subunit specificity.

Published

2024

2. Biophysical characterization of RelA–p52 NF‐κB dimer—A link between the canonical and the non‐canonical NF‐κB pathway.

Author

Dhaka, Nitin, Misra, Subhranil, Sahoo, Sunirmala, and Mukherjee, Sulakshana P.

Abstract

The NF‐κB family consists of the key transcription factors of the NF‐κB signaling pathway, well known for its role in innate immune response, organogenesis, and a variety of cellular processes. The five NF‐κB subunits—RelA, RelB, c‐Rel, p50, and p52—are functional dimers, each of which share a conserved DNA binding domain which contains the dimerization domain (DD) as well. The NF‐κB subunits can form 15 potential dimers among themselves of which, RelA‐p50 is extensively studied and has largely become synonymous with NF‐κB for transcription activation. While various reports have highlighted the importance of NF‐κB subunit specificity in the transcription regulation of certain target genes, the dynamic nature of the NF‐κB dimer composition is not well understood. In this study, we biophysically characterized six combinatorial dimers from three NF‐κB subunits: RelA, p50, and p52, using NMR spectroscopy and differential scanning calorimetry. We show that the dimer composition is dynamic and can readily undergo exchange although at varied rates. Among the six dimers formed, RelA–p52 is found to be the most stable dimer with RelA–RelA being the least. Our results provide a plausible explanation as to why the RelA–p52 heterodimer is active during the later stages of the NF‐κB activation and serve as a link between the canonical and non‐canonical NF‐κB pathway. [ABSTRACT FROM AUTHOR]

Published

2024

3. Novel case of ependymoma-like tumor with mesenchymal differentiation harboring ZFTA::RELA fusion in an adult.

Author

Yajima, Hirohisa, Takayanagi, Shunsaku, Takami, Hirokazu, Tanaka, Shota, Nomura, Masashi, Satomi, Kaishi, Ikemura, Masako, Nobusawa, Sumihito, Saito, Ryuta, Kondo, Akihide, and Saito, Nobuhito

Abstract

High-grade supratentorial tumors harboring ZFTA::NCOA1/2 fusion in infants presenting with mixed histology of embryonal-appearing components resembling ependymoma and mesenchymal sarcomatous components have recently been reported as ependymoma-like tumors with mesenchymal differentiation (ELTMDs). In contrast, we describe herein a pathologically similar case with a novel ZFTA::RELA fusion in an adult. A frontal lobe lesion was resected from a 30-year-old woman and displayed mixed components on pathological examination, showing ependymoma-like and sarcomatous parts. The absence of perivascular pseudorosettes was inconsistent with a diagnosis of ependymoma. Fluorescence in situ hybridization analysis confirmed ZFTA::RELA fusion. The DKFZ methylation classifier (v12.8) did not categorize this case among established methylation classes. In addition, t-distributed stochastic neighbor embedding analysis using DNA methylation data revealed that the present case was distant from ependymomas but close to two previously reported cases of ELTMD involving ZFTA::NCOA1/2 fusion. Taken together, we concluded that this tumor should be considered under the entity of ELTMD. This represents the first description of an adult patient with ELTMD harboring ZFTA::RELA fusion analyzed by DNA methylation profiling, supporting the establishment of ELTMD as a possible new tumor type. [ABSTRACT FROM AUTHOR]

Published

2024

4. Histone variant H2AZ1 drives lung cancer progression through the RELA-HIF1A-EGFR signaling pathway.

Author

Zhao, Huijie, Wu, Xing, Wang, Yinghan, Li, Xiuling, Du, Yuhui, Zhou, Zhiqing, Li, Yu, Liu, Yue, Zeng, Xiaofei, and Chen, Guoan

Subjects

*LUNG cancer, *CANCER invasiveness, *OVERALL survival, *CELLULAR signal transduction, *WESTERN immunoblotting

Abstract

Background: A growing body of evidence indicates that histone variants play an oncogenic role in cancer progression. However, the role and mechanism of histone variant H2AZ1 in lung cancer remain poorly understood. In this study, we aim to identify novel functions and molecular mechanisms of H2AZ1 in lung cancer. Methods: We analyzed H2AZ1 expression in lung adenocarcinoma using several RNA-seq and microarray datasets. Immunohistochemistry staining for H2AZ1 was performed on two sets of lung cancer tissue microarrays. To study the function of H2AZ1, we conducted assays for cell proliferation, colony formation, invasion, and migration. We employed CUT&Tag-seq, ATAC-seq, RNA-seq, and Western blotting to explore the regulatory patterns and potential mechanisms of H2AZ1 in lung adenocarcinoma. Results: Our findings reveal that H2AZ1 is highly expressed in lung cancer and high levels of H2AZ1 mRNA are associated with poor patient survival. Silencing H2AZ1 impaired cell proliferation, colony formation, migration, and invasion. Mechanistically, our CUT&Tag-seq, ATAC-seq, and RNA-seq results showed that H2AZ1 is primarily deposited around TSS and affects multiple oncogenic signaling pathways. Importantly, we uncovered that H2AZ1 may drive lung cancer progression through the RELA-HIF1A-EGFR signaling pathway. Conclusion: H2AZ1 plays an oncogenic role via several cancer-related pathways, including the RELA-HIF1A-EGFR axis in lung cancer. Intervention targeting H2AZ1 and its related signaling genes may have translational potential for precision therapy. [ABSTRACT FROM AUTHOR]

Published

2024

5. Histone variant H2AZ1 drives lung cancer progression through the RELA-HIF1A-EGFR signaling pathway

Author

Huijie Zhao, Xing Wu, Yinghan Wang, Xiuling Li, Yuhui Du, Zhiqing Zhou, Yu Li, Yue Liu, Xiaofei Zeng, and Guoan Chen

Subjects

Lung cancer, H2AZ1, RELA, HIF1A, EGFR, Medicine, Cytology, QH573-671

Abstract

Abstract Background A growing body of evidence indicates that histone variants play an oncogenic role in cancer progression. However, the role and mechanism of histone variant H2AZ1 in lung cancer remain poorly understood. In this study, we aim to identify novel functions and molecular mechanisms of H2AZ1 in lung cancer. Methods We analyzed H2AZ1 expression in lung adenocarcinoma using several RNA-seq and microarray datasets. Immunohistochemistry staining for H2AZ1 was performed on two sets of lung cancer tissue microarrays. To study the function of H2AZ1, we conducted assays for cell proliferation, colony formation, invasion, and migration. We employed CUT&Tag-seq, ATAC-seq, RNA-seq, and Western blotting to explore the regulatory patterns and potential mechanisms of H2AZ1 in lung adenocarcinoma. Results Our findings reveal that H2AZ1 is highly expressed in lung cancer and high levels of H2AZ1 mRNA are associated with poor patient survival. Silencing H2AZ1 impaired cell proliferation, colony formation, migration, and invasion. Mechanistically, our CUT&Tag-seq, ATAC-seq, and RNA-seq results showed that H2AZ1 is primarily deposited around TSS and affects multiple oncogenic signaling pathways. Importantly, we uncovered that H2AZ1 may drive lung cancer progression through the RELA-HIF1A-EGFR signaling pathway. Conclusion H2AZ1 plays an oncogenic role via several cancer-related pathways, including the RELA-HIF1A-EGFR axis in lung cancer. Intervention targeting H2AZ1 and its related signaling genes may have translational potential for precision therapy.

Published

2024

6. Ziwan-Taoren herb pair can exert an therapeutical effect in primary Sjogren's syndrome through inhibiting the TLR/NF-κB pathway.

Author

Kuok-Tong Lei, Yun-Xia Wu, Yun Lu, Zi-Shan Wang, Thi-Huong Nguyen, Qiu-Ying Cai, Wen Zhu, and Yue Wang

Subjects

*SJOGREN'S syndrome, *TUMOR necrosis factors, *PATHOLOGICAL physiology, *SUBMANDIBULAR gland, *VASOACTIVE intestinal peptide, *FLAVONOLS

Abstract

Background: Ziwan and Taoren (ZT) is a classic medicine pair in the formula of Mai Dong Di Shao Decoction, has been used to treat primary Sjogren's syndrome (pSS) for more than 20 years. But its action mechanism is still unknown. This study is aimed to reveal the potential mechanism of ZT treated pSS and discover its active compounds of ZT and therapeutic target for pSS. Methods: Firstly, the potential pathways of ZT for pSS treatment were predicted through network pharmacology and GO and KEGG enrichment analysis. Secondly, the inter-structural relationships between active compounds of ZT and target proteins were visualized using molecular docking techniques. Finally, efficacy and mechanism were conducted through in vivo experiments, such as water intake, spleen index, hematoxylin-eosin staining pathological changes, ELISA, Western Blot analysis, and immunofluorescence staining. Results: Nine active compounds were extracted from network pharmacology, including quercitrin, luteolin, kaempferol, β-sitosterol, isorhamnetin, galangin, hederagenin, diosmetin and gibberellin 7. Seven disease targets were identified: RELA, TP53, AKT1, interleukin (IL) 6, MAPK1, ESR1, IL10; with RELA being the most core target. KEGG and GO enrichment analysis indicated that ZT may act through the TLR/NF-κB/RELA inflammatory mechanism process. preliminary results of molecular docking showed that ZT's active compounds bind well to the RELA (p65) receptor. In vivo results demonstrated that a high dose of ZT significantly improved water intake and reduced lymphocytes infiltration in submandibular gland pathology in NOD mice. The expression content of AQP5 and vasoactive intestinal peptide in the submaxillary gland was significantly increased, while levels of inflammatory factors such as tumor necrosis factor-α, IL-6, and IL-1β along with protein expressions including toll-like receptor4, p-p65 and p-IKKα/β in NF-κB pathway were reduced. Conclusions: The ZT treatment exhibits a promising efficacy in mitigating dryness symptoms of pSS, potentially attributed to its capacity for suppressing the TLR/NF-κB inflammatory signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

7. HYPOXIA induces lncRNA HOTAIR for recruiting RELA in papillary thyroid cancer cells to upregulate miR-181a and promote angiogenesis

Author

Lu, J., Liu, X., Cen, A., Hong, Y., and Wang, Y.

Published

2024

8. Resistance to African swine fever virus among African domestic pigs appears to be associated with a distinct polymorphic signature in the RelA gene and upregulation of RelA transcription

Author

Patrick N. Bisimwa, Juliette R. Ongus, Ronald Tonui, Espoir B. Bisimwa, and Lucilla Steinaa

Subjects

African swine fever virus, Infection, Pigs, Polymorphisms, RelA, Disease resistance, Infectious and parasitic diseases, RC109-216

Abstract

Abstract African swine fever virus (ASFV) is a highly contagious and fatal hemorrhagic disease of domestic pigs, which poses a major threat to the swine industry worldwide. Studies have shown that indigenous African pigs tolerate ASFV infection better than European pigs. The porcine v-rel avian reticuloendotheliosis viral oncogene homolog A (RelA) encoding a p65 kD protein, a major subunit of the NF-kB transcription factor, plays important roles in controlling both innate and adaptive immunity during infection with ASFV. In the present study, RelA genes from ASFV-surviving and symptomatic pigs were sequenced and found to contain polymorphisms revealing two discrete RelA amino acid sequences. One was found in the surviving pigs, and the other in symptomatic pigs. In total, 16 nonsynonymous SNPs (nsSNPs) resulting in codon changes were identified using bioinformatics software (SIFT and Polyphen v2) and web-based tools (MutPre and PredictSNP). Seven nsSNPs (P374-S, T448-S, P462-R, V464-P, Q478-H, L495-E, and P499-Q) were predicted to alter RelA protein function and stability, while 5 of these (P374-S, T448-S, P462-R, L495-E, and Q499-P) were predicted as disease-related SNPs. Additionally, the inflammatory cytokine levels of IFN-α, IL-10, and TNF-α at both the protein and the mRNA transcript levels were measured using ELISA and Real-Time PCR, respectively. The resulting data was used in correlation analysis to assess the association between cytokine levels and the RelA gene expression. Higher levels of IFN-α and detectable levels of IL-10 protein and RelA mRNA were observed in surviving pigs compared to healthy (non-infected). A positive correlation of IFN-α cytokine levels with RelA mRNA expression was also obtained. In conclusion, 7 polymorphic events in the coding region of the RelA gene may contribute to the tolerance of ASFV in pigs.

Published

2024

9. Streamlined, single-step non-viral CRISPR-Cas9 knockout strategy enhances gene editing efficiency in primary human chondrocyte populations

Author

Simone Ponta, Angela Bonato, Philipp Neidenbach, Valentino F. Bruhin, Alexis Laurent, Lee Ann Applegate, Marcy Zenobi-Wong, and Goncalo Barreto

Subjects

Gene editing, CRISPR-Cas9, Primary chondrocytes, NF-κB, RELA, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background CRISPR-Cas9-based genome engineering represents a powerful therapeutic tool for cartilage tissue engineering and for understanding molecular pathways driving cartilage diseases. However, primary chondrocytes are difficult to transfect and rapidly dedifferentiate during monolayer (2D) cell culture, making the lengthy expansion of a single-cell-derived edited clonal population not feasible. For this reason, functional genetics studies focused on cartilage and rheumatic diseases have long been carried out in cellular models that poorly recapitulate the native molecular properties of human cartilaginous tissue (e.g., cell lines, induced pluripotent stem cells). Here, we set out to develop a non-viral CRISPR-Cas9, bulk-gene editing method suitable for chondrocyte populations from different cartilaginous sources. Methods We screened electroporation and lipid nanoparticles for ribonucleoprotein (RNP) delivery in primary polydactyly chondrocytes, and optimized RNP reagents assembly. We knocked out RELA (also known as p65), a subunit of the nuclear factor kappa B (NF-κB), in polydactyly chondrocytes and further characterized knockout (KO) cells with RT-qPCR and Western Blot. We tested RELA KO in chondrocytes from diverse cartilaginous sources and characterized their phenotype with RT-qPCR. We examined the chondrogenic potential of wild-type (WT) and KO cell pellets in presence and absence of interleukin-1β (IL-1β). Results We established electroporation as the optimal transfection technique for chondrocytes enhancing transfection and editing efficiency, while preserving high cell viability. We knocked out RELA with an unprecedented efficiency of ~90%, confirming lower inflammatory pathways activation upon IL-1β stimulation compared to unedited cells. Our protocol could be easily transferred to primary human chondrocytes harvested from osteoarthritis (OA) patients, human FE002 chondroprogenitor cells, bovine chondrocytes, and a human chondrocyte cell line, achieving comparable mean RELA KO editing levels using the same protocol. All KO pellets from primary human chondrocytes retained chondrogenic ability equivalent to WT cells, and additionally displayed enhanced matrix retention under inflamed conditions. Conclusions We showcased the applicability of our bulk gene editing method to develop effective autologous and allogeneic off-the-shelf gene therapies strategies and to enable functional genetics studies in human chondrocytes to unravel molecular mechanisms of cartilage diseases.

Published

2024

10. Resistance to African swine fever virus among African domestic pigs appears to be associated with a distinct polymorphic signature in the RelA gene and upregulation of RelA transcription.

Author

Bisimwa, Patrick N., Ongus, Juliette R., Tonui, Ronald, Bisimwa, Espoir B., and Steinaa, Lucilla

Subjects

*AFRICAN swine fever, *AFRICAN swine fever virus, *SWINE, *NF-kappa B, *AMINO acid sequence, *GENE expression

Abstract

African swine fever virus (ASFV) is a highly contagious and fatal hemorrhagic disease of domestic pigs, which poses a major threat to the swine industry worldwide. Studies have shown that indigenous African pigs tolerate ASFV infection better than European pigs. The porcine v-rel avian reticuloendotheliosis viral oncogene homolog A (RelA) encoding a p65 kD protein, a major subunit of the NF-kB transcription factor, plays important roles in controlling both innate and adaptive immunity during infection with ASFV. In the present study, RelA genes from ASFV-surviving and symptomatic pigs were sequenced and found to contain polymorphisms revealing two discrete RelA amino acid sequences. One was found in the surviving pigs, and the other in symptomatic pigs. In total, 16 nonsynonymous SNPs (nsSNPs) resulting in codon changes were identified using bioinformatics software (SIFT and Polyphen v2) and web-based tools (MutPre and PredictSNP). Seven nsSNPs (P374-S, T448-S, P462-R, V464-P, Q478-H, L495-E, and P499-Q) were predicted to alter RelA protein function and stability, while 5 of these (P374-S, T448-S, P462-R, L495-E, and Q499-P) were predicted as disease-related SNPs. Additionally, the inflammatory cytokine levels of IFN-α, IL-10, and TNF-α at both the protein and the mRNA transcript levels were measured using ELISA and Real-Time PCR, respectively. The resulting data was used in correlation analysis to assess the association between cytokine levels and the RelA gene expression. Higher levels of IFN-α and detectable levels of IL-10 protein and RelA mRNA were observed in surviving pigs compared to healthy (non-infected). A positive correlation of IFN-α cytokine levels with RelA mRNA expression was also obtained. In conclusion, 7 polymorphic events in the coding region of the RelA gene may contribute to the tolerance of ASFV in pigs. [ABSTRACT FROM AUTHOR]

Published

2024

11. Citric acid promotes SPARC release in pancreatic cancer cells and inhibits the progression of pancreatic tumors in mice on a high‐fat diet.

Author

Xiao, Guohui, Wei, Yan, Xie, Rongli, Tsang, Yiusing, Gu, Jianhua, Shen, Dongjie, Ding, Min, Yuan, Jianming, Xu, Dan, and Fei, Jian

Subjects

*PANCREATIC tumors, *PANCREATIC cancer, *CITRIC acid, *HIGH-fat diet, *CANCER cells, *POLYPHENOL oxidase, *PANCREATIC enzymes

Abstract

Over the years, pancreatic cancer has experienced a global surge in incidence and mortality rates, largely attributed to the influence of obesity and diabetes mellitus on disease initiation and progression. In this study, we investigated the pathogenesis of pancreatic cancer in mice subjected to a high‐fat diet (HFD) and observed an increase in citric acid expenditure. Notably, citrate treatment demonstrates significant efficacy in promoting tumor cell apoptosis, suppressing cell proliferation, and inhibiting tumor growth in vivo. Our investigations revealed that citrate achieved these effects by releasing secreted protein acidic and rich in cysteine (SPARC) proteins, repolarizing M2 macrophages into M1 macrophages, and facilitating tumor cell apoptosis. Overall, our research highlights the critical role of citric acid as a pivotal metabolite in the intricate relationship between obesity and pancreatic cancer. Furthermore, we uncovered the significant metabolic and immune checkpoint function of SPARC in pancreatic cancer, suggesting its potential as both a biomarker and therapeutic target in treating this patient population. [ABSTRACT FROM AUTHOR]

Published

2024

12. Actin networks modulate heterogeneous NF-κB dynamics in response to TNFα

Author

Francesca Butera, Julia E Sero, Lucas G Dent, and Chris Bakal

Subjects

actin, NF-κB, RELA, PDAC, single-cell dynamics, TNF, Medicine, Science, Biology (General), QH301-705.5

Abstract

The canonical NF-κB transcription factor RELA is a master regulator of immune and stress responses and is upregulated in pancreatic ductal adenocardinoma (PDAC) tumours. In this study, we characterised previously unexplored endogenous RELA-GFP dynamics in PDAC cell lines through live single-cell imaging. Our observations revealed that TNFα stimulation induces rapid, sustained, and non-oscillatory nuclear translocation of RELA. Through Bayesian analysis of single-cell datasets with variation in nuclear RELA, we predicted that RELA heterogeneity in PDAC cell lines is dependent on F-actin dynamics. RNA-seq analysis identified distinct clusters of RELA-regulated gene expression in PDAC cells, including TNFα-induced RELA upregulation of the actin regulators NUAK2 and ARHGAP31. Further, siRNA-mediated depletion of ARHGAP31 and NUAK2 altered TNFα-stimulated nuclear RELA dynamics in PDAC cells, establishing a novel negative feedback loop that regulates RELA activation by TNFα. Additionally, we characterised the NF-κB pathway in PDAC cells, identifying how NF-κB/IκB proteins genetically and physically interact with RELA in the absence or presence of TNFα. Taken together, we provide computational and experimental support for interdependence between the F-actin network and the NF-κB pathway with RELA translocation dynamics in PDAC.

Published

2024

13. A hepatocyte-specific transcriptional program driven by Rela and Stat3 exacerbates experimental colitis in mice by modulating bile synthesis

Author

Jyotsna, Binayak Sarkar, Mohit Yadav, Alvina Deka, Manasvini Markandey, Priyadarshini Sanyal, Perumal Nagarajan, Nilesh Gaikward, Vineet Ahuja, Debasisa Mohanty, Soumen Basak, and Rajesh S Gokhale

Subjects

IBD, Rela, Stat3, inflammation, Liver, Medicine, Science, Biology (General), QH301-705.5

Abstract

Hepatic factors secreted by the liver promote homeostasis and are pivotal for maintaining the liver-gut axis. Bile acid metabolism is one such example wherein, bile acid synthesis occurs in the liver and its biotransformation happens in the intestine. Dysfunctional interactions between the liver and the intestine stimulate varied pathological outcomes through its bidirectional portal communication. Indeed, aberrant bile acid metabolism has been reported in inflammatory bowel disease (IBD). However, the molecular mechanisms underlying these crosstalks that perpetuate intestinal permeability and inflammation remain obscure. Here, we identify a novel hepatic gene program regulated by Rela and Stat3 that accentuates the inflammation in an acute experimental colitis model. Hepatocyte-specific ablation of Rela and Stat3 reduces the levels of primary bile acids in both the liver and the gut and shows a restricted colitogenic phenotype. On supplementation of chenodeoxycholic acid (CDCA), knock-out mice exhibit enhanced colitis-induced alterations. This study provides persuasive evidence for the development of multi-organ strategies for treating IBD and identifies a hepatocyte-specific Rela-Stat3 network as a promising therapeutic target.

Published

2024

14. Gold Nanoparticles Downregulate IL-6 Expression/Production by Upregulating microRNA-26a-5p and Deactivating the RelA and NF-κBp50 Transcription Pathways in Activated Breast Cancer Cells.

Author

Farhana, Aisha, Alsrhani, Abdullah, Alghsham, Ruqaih S., Derafa, Wassila, Khan, Yusuf Saleem, and Rasheed, Zafar

Subjects

*GOLD nanoparticles, *CANCER cells, *INTERLEUKIN-6, *BREAST cancer, *TRANSMISSION electron microscopy, *BREAST

Abstract

MicroRNAs (miRNAs) are involved in the modulation of pathogenic genes by binding to their mRNA sequences' 3′ untranslated regions (3′UTR). Interleukin-6 (IL-6) is known to promote cancer progression and treatment resistance. In this study, we aimed to explore the therapeutic effects of gold nanoparticles (GNP) against IL-6 overexpression and the modulation of miRNA-26a-5p in breast cancer (BC) cells. GNP were synthesized using the trisodium citrate method and characterized through UV-Vis spectroscopy, dynamic light scattering (DLS), and transmission electron microscopy (TEM). To predict the binding of miR-26a-5p in the IL-6 mRNA's 3′UTR, we utilized bioinformatics algorithms. Luciferase reporter clone assays and anti-miRNA-26a-5p transfection were employed to validate the binding of miR26a-5p in the IL-6 mRNA's 3′UTR. The activity of RelA and NF-κBp50 was assessed and confirmed using Bay 11-7082. The synthesized GNP were spherical with a mean size of 28.3 nm, exhibiting high stability, and were suitable for BC cell treatment. We found that miR-26a-5p directly regulated IL-6 overexpression in MCF-7 cells activated with PMA. Treatment of MCF-7 cells with GNP resulted in the inhibition of IL-6 overexpression and secretion through the increase of miR26a-5p. Furthermore, GNP deactivated NF-κBp65/NF-κBp50 transcription activity. The newly engineered GNP demonstrated safety and showed promise as a therapeutic approach for reducing IL-6 overexpression. The GNP suppressed IL-6 overexpression and secretion by deactivating NF-κBp65/NF-κBp50 transcription activity and upregulating miR-26a-5p expression in activated BC cells. These findings suggest that GNP have potential as a therapeutic intervention for BC by targeting IL-6 expression and associated pathways. [ABSTRACT FROM AUTHOR]

Published

2024

15. Insulin‐like growth factor 2 mRNA‐binding protein 3 enhanced melanoma migration through regulation of AKT1 and RELA expression.

Author

Sheen, Yi‐Shuan, Syu, Yan‐Jie, Chang, Yu‐Chuan, Hsieh, Ping‐Han, Liao, Yi‐Hua, Lin, Ming‐Hsien, Chen, Chien‐Yu, Chu, Chia‐Yu, and Chu, Chia‐Ying

Subjects

*SOMATOMEDIN A, *MICROPHTHALMIA-associated transcription factor, *GENE expression, *MELANOMA

Abstract

IMP‐3 expression is a poor prognostic factor of melanomas and it promotes melanoma cell migration and invasion by a pathway modulating HMGA2 mRNA expression. We tried to identify other putative targets of IMP‐3. We identified putative IMP‐3‐binding RNAs, including AKT1, MAPK3, RB1 and RELA, by RNA immunoprecipitation coupled with next‐generation sequencing. IMP‐3 overexpression increased AKT and RELA levels in MeWo cells. siRNAs against AKT1 and RELA inhibited MeWo/Full‐length IMP‐3 cell migration. IMP‐3 knockdown of A2058 cells decreased AKT1 and RELA expression and lowered migration ability. Co‐transfection of A2058 cells with AKT1‐ or RELA‐expressing plasmids with IMP‐3 siRNA restored the inhibitory effects of IMP‐3 knockdown on migration. HMGA2 did not influence AKT1 and RELA expression in melanoma cells. Human melanoma samples with high IMP‐3 levels also showed high HMGA2, AKT1 and RELA expression. Our results show that IMP‐3 enhances melanoma cell migration through the regulation of the AKT1 and RELA axis. [ABSTRACT FROM AUTHOR]

Published

2024

16. Alleviating effect of Nexrutine on mucosal inflammation in mice with ulcerative colitis: Involvement of the RELA suppression.

Author

Xu, Hongyun, Wu, Chunyu, Wang, Danning, and Wang, Haiqiang

Subjects

*ULCERATIVE colitis, *HEMATOXYLIN & eosin staining, *PATHOLOGICAL physiology, *ADENOVIRUS diseases, *TIGHT junctions, *MICE

Abstract

Background: Nexrutine is an herbal extract derived from Phellodendron amurense, known for its anti‐inflammatory, antidiarrheal, and hemostatic properties. However, its effect on ulcerative colitis (UC) remains unclear. Methods: A mouse model of UC was induced by 3% dextran sulfate sodium, while human colonic epithelial cells NCM‐460 were exposed to lipopolysaccharide. Both models were treated with Nexrutine at 300 or 600 mg/kg, with Mesalazine applied as a positive control regimen. The disease activity index (DAI) of mice was calculated, and the pathological injury scores were assessed through hematoxylin and eosin staining. The viability of NCM‐460 cells was determined using the CCK‐8 method. Inflammatory cytokines were detected using ELISA kits. Expression of mucin 3 (MUC3), Claudin‐1, and tight junction protein (ZO‐1) was detected to analyze mucosal barrier integrity. Target genes of Nexrutine were predicted using bioinformatics tools. Expression of RELA proto‐oncogene (RELA) was analyzed using qPCR and western blot assays. Results: The Nexrutine treatments significantly alleviated DAI of mice, mitigated pathological changes in their colon tissues, decreased the production of pro‐inflammatory cytokines, enhanced the barrier integrity‐related proteins, and increased NCM‐460 cell viability in vitro. RELA, identified as a target gene of Nexrutine, showed elevated levels in UC models but was substantially suppressed by Nexrutine treatment. Adenovirus‐mediated RELA upregulation in mice or the overexpression plasmid of RELA in cells counteracted the effects of Nexrutine treatments, exacerbating UC‐related symptoms. Conclusion: This study demonstrates that Nexrutine alleviates inflammatory mucosal barrier damage in UC by suppressing RELA transcription. [ABSTRACT FROM AUTHOR]

Published

2024

17. Inflammation in Hypervolemic Hemodialysis Patients: The Roles of RelB and Caspase-4.

Author

Ulrich, Christof, Canim, Zeynep, Herberger, Eva, Girndt, Matthias, and Fiedler, Roman

Subjects

*ENDOTOXINS, *CASPASES, *HEMODIALYSIS patients, *MONONUCLEAR leukocytes, *HYPERVOLEMIA, *TRANSCRIPTION factors

Abstract

Hypervolemia is associated with inflammation in hemodialysis (HD) patients. How hypervolemia triggers inflammation is not entirely known. We initiated a cross-sectional study enrolling 40 hemodialysis patients who were categorized into normovolemic (N; 23) and hypervolemic (H; 17) groups by bioimpedance measurement. A caspase activity assay in combination with a specific caspase-4 inhibitor was used to detect caspase-4 activity in isolated peripheral blood mononuclear cells (PBMCs). Transcription factors RelA (pS529) and RelB (pS552) were analyzed by phospho-flow cytometry. Serum endotoxins were detected by an amebocyte lysate-based assay, and IL-6 (interleukin-6) and TNF-α (Tumor necrosis factor-α) gene expression were detected using the ELISA technique. Hypervolemic patients were older, more frequently had diabetes and showed increased CRP and IL-6 levels. Caspase-4 activity, which is linked to intracellular endotoxin detection, was significantly elevated in H patients. While the frequency of RelA-expressing immune cells and the expression density in these cells did not differ, the monocytic frequency of cells positively stained for RelB (pS552) was significantly decreased in H patients. Increased caspase-4 activity in H patients may indicate a cause of inflammation in H patients. The post-translational modification of RelB (pS552) is linked to downregulation of NF-kB activity and may indicate the resolution of inflammation, which is more distinct in N patients compared to H patients. Therefore, both higher inflammatory loads and lower inflammatory resolution capacities are characteristics of H patients. [ABSTRACT FROM AUTHOR]

Published

2023

18. HOXA1 participates in VSMC-to-macrophage-like cell transformation via regulation of NF-κB p65 and KLF4: a potential mechanism of atherosclerosis pathogenesis

Author

Zhiyang Han, Haidi Hu, MingZhu Yin, Yu Lin, Yan Yan, Peng Han, Bing Liu, and Bao Jing

Subjects

HOXA1, Atherosclerosis, VSMC, RelA, KLF4, Therapeutics. Pharmacology, RM1-950, Biochemistry, QD415-436

Abstract

Abstract Background Macrophage-like transformation of vascular smooth muscle cells (VSMCs) is a risk factor of atherosclerosis (AS) progression. Transcription factor homeobox A1 (HOXA1) plays functional roles in differentiation and development. This study aims to explore the role of HOXA1 in VSMC transformation, thereby providing evidence for the potential mechanism of AS pathogenesis. Methods High fat diet (HFD)-fed apolipoprotein E knockout (ApoE−/−) mice were applied as an in vivo model to imitate AS, while 1-palmitoyl-2-(5-oxovaleroyl)-sn-glycero-3-phosphocholine (POV-PC)-treated VSMCs were applied as an in vitro model. Recombinant adeno-associated-virus-1 (AAV-1) vectors that express short-hairpin RNAs targeting HOXA1, herein referred as AAV1-shHOXA1, were generated for the loss-of-function experiments throughout the study. Results In the aortic root of AS mice, lipid deposition was severer and HOXA1 expression was higher than the wide-type mice fed with normal diet or HFD. Silencing of HOXA1 inhibited the AS-induced weight gain, inflammatory response, serum and liver lipid metabolism disorder and atherosclerotic plaque formation. Besides, lesions from AS mice with HOXA1 knockdown showed less trans-differentiation of VSMCs to macrophage-like cells, along with a suppression of krüppel-like factor 4 (KLF4) and nuclear factor (NF)-κB RelA (p65) expression. In vitro experiments consistently confirmed that HOXA1 knockdown suppressed lipid accumulation, VSMC-to-macrophage phenotypic switch and inflammation in POV-PC-treated VSMCs. Mechanism investigations further illustrated that HOXA1 transcriptionally activated RelA and KLF4 to participate in the pathological manifestations of VSMCs. Conclusions HOXA1 participates in AS progression by regulating VSMCs plasticity via regulation of NF-κB p65 and KLF4. HOXA1 has the potential to be a biomarker or therapeutic target for AS.

Published

2023

19. Induction of filopodia formation by α-Actinin-2 via RelA with a feedforward activation loop promoting overt bone marrow metastasis of gastric cancer

Author

Caiqin Wang, Bo Xie, Shi Yin, Jianghua Cao, Junhao Huang, Longyang Jin, Ge Du, Xiaohui Zhai, Rongqin Zhang, Shanshan Li, Taiyuan Cao, Hongen Yu, Xinjuan Fan, Zuli Yang, Junsheng Peng, Jian Xiao, and Lei Lian

Subjects

Gastric cancer, Bone marrow metastasis, α-Actinin-2, Filopodia formation, RelA, Medicine

Abstract

Abstract Background Bone marrow metastasis (BMM) is underestimated in gastric cancer (GC). GC with BMM frequently complicate critical hematological abnormalities like diffused intravascular coagulation and microangiopathic hemolytic anemia, which constitute a highly aggressive GC (HAGC) subtype. HAGC present a very poor prognosis with peculiar clinical and pathological features when compared with not otherwise specified advanced GC (NAGC). But the molecular mechanisms underlying BMM from GC remain rudimentary. Methods The transcriptomic difference between HAGC and NAGC were analyzed. Genes that were specifically upregulated in HAGC were identified, and their effect on cell migration and invasion was studied. The function of ACTN2 gene were confirmed by GC cell lines, bone-metastatic animal model and patients’ tissues. Furthermore, the molecular mechanism of ACTN2 derived-BMM was explored by multiple immunofluorescence staining, western blot, chromatin immunoprecipitation, and luciferase reporter assays. Results We elucidated the key mechanisms of BMM depending on the transcriptomic difference between HAGC and NAGC. Five genes specifically upregulated in HAGC were assessed their effect on cell migration and invasion. The ACTN2 gene encoding protein α-Actinin-2 was detected enhanced the metastatic capability and induced BMM of GC cells in mouse models. Mechanically, α-Actinin-2 was involved in filopodia formation where it promoted the Actin filament cross-linking by replacing α-Actinin-1 to form α-Actinin-2:α-Actinin-4 complexes in GC cells. Moreover, NF-κB subunit RelA and α-Actinin-2 formed heterotrimers in the nuclei of GC cells. As a direct target of RelA:α-Actinin-2 heterotrimers, the ACTN2 gene was a positive auto-regulatory loop for α-Actinin-2 expression. Conclusions We demonstrated a link between filopodia, BMM and ACTN2 activation, where a feedforward activation loop between ACTN2 and RelA is established via actin in response to distant metastasis. Given the novel filopodia formation function and the new mechanism of BMM in GC, we propose ACTN2 as a druggable molecular vulnerability that may provide potential therapeutic benefit against BMM of GC.

Published

2023

20. TNF-α activates RELA expression via TNFRSF1B to upregulate OPA1 expression and inhibit chondrogenic differentiation of human adipose stem cells

Author

Jiajia Guo, Wang Ye, Xinglin Wu, Haifeng Huang, Bo Li, Zeyu Sun, Zhijing Ren, and Zhen Yang

Subjects

OPA1, Mitochondrial fusion, TNFRSF1B, RELA, Chondrogenic differentiation, Human adipose-derived stem cells, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Tumor necrosis factor-alpha (TNF-α), one of the pro-inflammatory cytokines mediating the local inflammatory process in joints, inhibits cartilage formation and has a detrimental effect on stem cell-based cartilage regeneration for the treatment of osteoarthritis (OA). However, the mechanisms behind this inhibitory effect are still poorly understood. Mitochondrial morphological changes mediated by mitochondrial fusion and fission are highly plastic, are quite sensitive to environmental stimuli and play a crucial role in maintaining cell structure and function. In our study, chondrogenic differentiated human adipose stem cells (hADSCs) were exposed to TNF-α and the effect of TNF-α on the ability of hADSCs to chondrogenic differentiate and on mitochondrial fusion and fission was observed and analyzed. The aim was to investigate the role and mechanisms of mitochondrial fusion and fission regulation in the chondrogenic differentiation of hADSCs under normal conditions and under exposure to TNF-α. Methods We used flow cytometry to identify hADSCs immunophenotypes CD29, CD44, CD34, CD45, and HLA-DR. Alcian blue staining and Sirius red staining were used to observe the formation of proteoglycans and collagen during the chondrogenic differentiation of hADSCs, respectively. The mRNA and protein expression levels of the cartilage formation marker SOX9, type II collagen (COL2A1), and Aggrecan were measured by real-time fluorescent quantitative PCR (RT-qPCR) and western blot, respectively. The fluorescent probes MitoTracker® Red CMXRos and JC-1 were used to visualize mitochondria morphology and detect mitochondrial membrane electricity (MMP). Affymetrix PrimeView™ chips were used for gene expression profiling. Results The results showed that the chondrogenic differentiation of hADSCs was inhibited in the presence of TNF-α that optic atrophy 1 (OPA1) expression was significantly upregulated and mitochondria were prolonged and interconnected during this process. Gene microarray and RT-qPCR data showed that the presence of TNF-α led to increased expression of TNFα receptor 2 (TNFRSF1B) and RELA during chondrogenic differentiation of hADSCs. Conclusions TNF-α inhibits chondrogenic differentiation of human adipose stem cells by activating RELA expression through TNFRSF1B upregulating OPA1 expression thereby increasing mitochondrial fusion.

Published

2023

21. Interaction with a phage gene underlie costs of a β-lactamase

Author

Huei-Yi Lai and Tim F. Cooper

Subjects

antibiotics, antibiotic resistance genes, relA, bacteriophage, gene interactions, Microbiology, QR1-502

Abstract

ABSTRACT The fitness cost of an antibiotic resistance gene (ARG) can differ across host strains, creating refuges that allow the maintenance of an ARG in the absence of direct selection for its resistance phenotype. Despite the importance of such ARG-host interactions for predicting ARG dynamics, the basis of ARG fitness costs and their variability between hosts are not well understood. We determined the genetic basis of a host-dependent cost of a β-lactamase, blaTEM-116*, that conferred a significant cost in one Escherichia coli strain but was close to neutral in 11 other Escherichia spp. strains. Selection of a blaTEM-116*-encoding plasmid in the strain in which it initially had a high cost resulted in rapid and parallel compensation for that cost through mutations in a P1-like phage gene, relAP1. When the wild-type relAP1 gene was added to a strain in which it was not present and in which blaTEM-116* was neutral, it caused the ARG to become costly. Thus, relAP1 is both necessary and sufficient to explain blaTEM-116* costs in at least some host backgrounds. To our knowledge, these findings represent the first demonstrated case of the cost of an ARG being influenced by a genetic interaction with a phage gene. The interaction between a phage gene and a plasmid-borne ARG highlights the complexity of selective forces determining the maintenance and spread of ARGs and, by extension, encoding phage and plasmids in natural bacterial communities.IMPORTANCEAntibiotic resistance genes (ARGs) play a major role in the increasing problem of antibiotic resistance in clinically relevant bacteria. Selection of these genes occurs in the presence of antibiotics, but their eventual success also depends on the sometimes substantial costs they impose on host bacteria in antibiotic-free environments. We evolved an ARG that confers resistance to penicillin-type antibiotics in one host in which it did confer a cost and in one host in which it did not. We found that costs were rapidly and consistently reduced through parallel genetic changes in a gene encoded by a phage that was infecting the costly host. The unmutated version of this gene was sufficient to cause the ARG to confer a cost in a host in which it was originally neutral, demonstrating an antagonism between the two genetic elements and underlining the range and complexity of pressures determining ARG dynamics in natural populations.

Published

2024

22. Alleviating effect of Nexrutine on mucosal inflammation in mice with ulcerative colitis: Involvement of the RELA suppression

Author

Hongyun Xu, Chunyu Wu, Danning Wang, and Haiqiang Wang

Subjects

inflammation, mucosal barrier damage, Nexrutine, RELA, ulcerative colitis, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Background Nexrutine is an herbal extract derived from Phellodendron amurense, known for its anti‐inflammatory, antidiarrheal, and hemostatic properties. However, its effect on ulcerative colitis (UC) remains unclear. Methods A mouse model of UC was induced by 3% dextran sulfate sodium, while human colonic epithelial cells NCM‐460 were exposed to lipopolysaccharide. Both models were treated with Nexrutine at 300 or 600 mg/kg, with Mesalazine applied as a positive control regimen. The disease activity index (DAI) of mice was calculated, and the pathological injury scores were assessed through hematoxylin and eosin staining. The viability of NCM‐460 cells was determined using the CCK‐8 method. Inflammatory cytokines were detected using ELISA kits. Expression of mucin 3 (MUC3), Claudin‐1, and tight junction protein (ZO‐1) was detected to analyze mucosal barrier integrity. Target genes of Nexrutine were predicted using bioinformatics tools. Expression of RELA proto‐oncogene (RELA) was analyzed using qPCR and western blot assays. Results The Nexrutine treatments significantly alleviated DAI of mice, mitigated pathological changes in their colon tissues, decreased the production of pro‐inflammatory cytokines, enhanced the barrier integrity‐related proteins, and increased NCM‐460 cell viability in vitro. RELA, identified as a target gene of Nexrutine, showed elevated levels in UC models but was substantially suppressed by Nexrutine treatment. Adenovirus‐mediated RELA upregulation in mice or the overexpression plasmid of RELA in cells counteracted the effects of Nexrutine treatments, exacerbating UC‐related symptoms. Conclusion This study demonstrates that Nexrutine alleviates inflammatory mucosal barrier damage in UC by suppressing RELA transcription.

Published

2024

23. Streamlined, single-step non-viral CRISPR-Cas9 knockout strategy enhances gene editing efficiency in primary human chondrocyte populations

Author

Ponta, Simone, Bonato, Angela, Neidenbach, Philipp, Bruhin, Valentino F., Laurent, Alexis, Applegate, Lee Ann, Zenobi-Wong, Marcy, and Barreto, Goncalo

Published

2024

24. LncBIRC3-OT promotes the malignant progression of glioma by interacting with RELA to upregulate stanniocalcin-1 expression

Author

Renjie Wang, Qi Li, Xiaolei Chu, Nan Li, Haiqian Liang, and Feng He

Subjects

Glioma, Long non-coding RNA, LncBIRC3-OT, RELA, Stanniocalcin-1, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Glioma is the most common malignant intracranial tumor, accounting for 80 % of all malignant brain tumors. Growing evidence suggests that lncRNAs are involved in the growth, angiogenesis, metastasis, and therapeutic resistance in a variety of tumors, including glioma. In this study, lncBIRC3-OT (NONHSAT159592.1), which is highly expressed in glioma, was screened by RNA-seq method and verified by quantitative reverse transcription polymerase chain reaction. Subsequently, we knocked down the endogenous expression of lncBIRC3-OT in U87 and U251 cells and found that down-regulated lncBIRC3-OT inhibited cell proliferation, colony formation, migration, and invasion. Mechanically, lncBIRC3-OT could guide RELA protein to the stanniocalcin-1 (STC1) promoter, initiate STC1 transcription, and ultimately promote the progression of glioma. Together, these findings suggest that lncBIRC3-OT is an important regulator promoting glioma progression, and may be a promising therapeutic target for glioma.

Published

2023

25. HOXA1 participates in VSMC-to-macrophage-like cell transformation via regulation of NF-κB p65 and KLF4: a potential mechanism of atherosclerosis pathogenesis.

Author

Han, Zhiyang, Hu, Haidi, Yin, MingZhu, Lin, Yu, Yan, Yan, Han, Peng, Liu, Bing, and Jing, Bao

Subjects

*CELL transformation, *KRUPPEL-like factors, *HIGH-fat diet, *VASCULAR smooth muscle, *LIPID metabolism disorders, *ATHEROSCLEROTIC plaque, *APOLIPOPROTEIN E

Abstract

Background: Macrophage-like transformation of vascular smooth muscle cells (VSMCs) is a risk factor of atherosclerosis (AS) progression. Transcription factor homeobox A1 (HOXA1) plays functional roles in differentiation and development. This study aims to explore the role of HOXA1 in VSMC transformation, thereby providing evidence for the potential mechanism of AS pathogenesis. Methods: High fat diet (HFD)-fed apolipoprotein E knockout (ApoE−/−) mice were applied as an in vivo model to imitate AS, while 1-palmitoyl-2-(5-oxovaleroyl)-sn-glycero-3-phosphocholine (POV-PC)-treated VSMCs were applied as an in vitro model. Recombinant adeno-associated-virus-1 (AAV-1) vectors that express short-hairpin RNAs targeting HOXA1, herein referred as AAV1-shHOXA1, were generated for the loss-of-function experiments throughout the study. Results: In the aortic root of AS mice, lipid deposition was severer and HOXA1 expression was higher than the wide-type mice fed with normal diet or HFD. Silencing of HOXA1 inhibited the AS-induced weight gain, inflammatory response, serum and liver lipid metabolism disorder and atherosclerotic plaque formation. Besides, lesions from AS mice with HOXA1 knockdown showed less trans-differentiation of VSMCs to macrophage-like cells, along with a suppression of krüppel-like factor 4 (KLF4) and nuclear factor (NF)-κB RelA (p65) expression. In vitro experiments consistently confirmed that HOXA1 knockdown suppressed lipid accumulation, VSMC-to-macrophage phenotypic switch and inflammation in POV-PC-treated VSMCs. Mechanism investigations further illustrated that HOXA1 transcriptionally activated RelA and KLF4 to participate in the pathological manifestations of VSMCs. Conclusions: HOXA1 participates in AS progression by regulating VSMCs plasticity via regulation of NF-κB p65 and KLF4. HOXA1 has the potential to be a biomarker or therapeutic target for AS. [ABSTRACT FROM AUTHOR]

Published

2023

26. Network Pharmacology, Molecular Docking, Molecular Dynamics Simulation, and in vitro Experiments to Explore the Mechanism of Asiatic Acid Inhibiting Acetaldehyde-Induced Activation of Hepatic Stellate Cells.

Author

Jiang, Tao, Chen, Xiaojin, Yang, Wanzhi, Li, Ning, Xu, Jinhong, Lu, Yang, Zhang, Sisi, Yu, Shuihong, and Li, Yongxia

Subjects

MOLECULAR dynamics, LIVER cells, MOLECULAR docking, HEPATIC fibrosis, TUMOR necrosis factors

Abstract

Purpose: This study utilized network pharmacology, molecular docking, molecular dynamics simulation, and in vitro experimental verification to explore the mechanisms of action by which asiatic acid (AA) inhibits acetaldehyde-induced activation of hepatic stellate cells (HSCs). Methods: Databases were screened to identify intersections between AA and alcoholic liver fibrosis. Gene ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) Enrichment analysis were performed, followed by molecular docking and molecular dynamics simulation to predict further the interactions between AA and cross-targets. Mechanisms of action of AA were assessed experimentally in HSC-T6 rat HSCs. Results: Screening of the relevant databases using web pharmacology identified several genes, including those encoding signal transducer and activator of transcription 3, nuclear factor kappa-B (NF-κB)-P65 (RELA), tumor necrosis factor α (TNF-α), interleukin 6 (IL-6), and interleukin 1 beta (IL-1β), that were closely associated with alcoholic liver fibrosis. GO and KEGG enrichment analysis showed that the alcoholic liver disease pathway was the most relevant one, and molecular docking showed critical binding activity of RELA, TNF-α, IL-6, and IL-1β with AA. Molecular dynamics simulation showed that the binding between RELA and AA was stable. AA at concentrations of 0 to 30 μM were determined to be nontoxic to HSC-T6 cells. Real-time quantitative polymerase chain reaction and Western blotting showed that the levels of expression of α-SMA and type 1 collagen were higher in acetaldehyde-treated than untreated HSC-T6 cells, with AA reducing their expression dose-dependently in acetaldehyde-treated cells. Western blotting also showed that AA could upregulate the expression of the apoptotic proteins BCL2 associated X and cleaved caspase 3 and could inhibit the phosphorylation of RELA and IKB-α. Conclusion: AA inhibited acetaldehyde-induced HSC-T6 cell proliferation and suppressed the secretion of fibrillar factors by inhibiting RELA phosphorylation. [ABSTRACT FROM AUTHOR]

Published

2023

27. Induction of filopodia formation by α-Actinin-2 via RelA with a feedforward activation loop promoting overt bone marrow metastasis of gastric cancer.

Author

Wang, Caiqin, Xie, Bo, Yin, Shi, Cao, Jianghua, Huang, Junhao, Jin, Longyang, Du, Ge, Zhai, Xiaohui, Zhang, Rongqin, Li, Shanshan, Cao, Taiyuan, Yu, Hongen, Fan, Xinjuan, Yang, Zuli, Peng, Junsheng, Xiao, Jian, and Lian, Lei

Subjects

*BONE marrow, *FILOPODIA, *STOMACH cancer, *THROMBOTIC thrombocytopenic purpura, *METASTASIS, *FEEDFORWARD neural networks

Abstract

Background: Bone marrow metastasis (BMM) is underestimated in gastric cancer (GC). GC with BMM frequently complicate critical hematological abnormalities like diffused intravascular coagulation and microangiopathic hemolytic anemia, which constitute a highly aggressive GC (HAGC) subtype. HAGC present a very poor prognosis with peculiar clinical and pathological features when compared with not otherwise specified advanced GC (NAGC). But the molecular mechanisms underlying BMM from GC remain rudimentary. Methods: The transcriptomic difference between HAGC and NAGC were analyzed. Genes that were specifically upregulated in HAGC were identified, and their effect on cell migration and invasion was studied. The function of ACTN2 gene were confirmed by GC cell lines, bone-metastatic animal model and patients' tissues. Furthermore, the molecular mechanism of ACTN2 derived-BMM was explored by multiple immunofluorescence staining, western blot, chromatin immunoprecipitation, and luciferase reporter assays. Results: We elucidated the key mechanisms of BMM depending on the transcriptomic difference between HAGC and NAGC. Five genes specifically upregulated in HAGC were assessed their effect on cell migration and invasion. The ACTN2 gene encoding protein α-Actinin-2 was detected enhanced the metastatic capability and induced BMM of GC cells in mouse models. Mechanically, α-Actinin-2 was involved in filopodia formation where it promoted the Actin filament cross-linking by replacing α-Actinin-1 to form α-Actinin-2:α-Actinin-4 complexes in GC cells. Moreover, NF-κB subunit RelA and α-Actinin-2 formed heterotrimers in the nuclei of GC cells. As a direct target of RelA:α-Actinin-2 heterotrimers, the ACTN2 gene was a positive auto-regulatory loop for α-Actinin-2 expression. Conclusions: We demonstrated a link between filopodia, BMM and ACTN2 activation, where a feedforward activation loop between ACTN2 and RelA is established via actin in response to distant metastasis. Given the novel filopodia formation function and the new mechanism of BMM in GC, we propose ACTN2 as a druggable molecular vulnerability that may provide potential therapeutic benefit against BMM of GC. [ABSTRACT FROM AUTHOR]

Published

2023

28. Resveratrol inhibits the progression of premature senescence partially by regulating v-rel avian reticuloendotheliosis viral oncogene homolog A (RELA) and sirtuin 1 (SIRT1)

Author

Shuangjun He, Meng Zhou, Hongming Zheng, Yaowei Wang, Shuhua Wu, Yuan Gao, and Jianhong Chen

Subjects

premature senescence, resveratrol, rela, sirtuin 1, apoptosis, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Objective To explore the effect of resveratrol in premature senescence and reveal its anti-premature senescence mechanisms through network pharmacology. Methods In this study, the H2O2-induced bone marrow mesenchymal stem cells (BMMSCs) premature senescence model is applied. Cell counting kit-8 assay, β-galactosidase staining and flow cytometry are conducted to detect the proliferation, senescence and apoptosis of BMMSCs. Bioinformatics analyses are used to screen and validate molecular targets of resveratrol acting on premature senescence. Dual-luciferase reporter assay is conducted to verify the interaction between v-rel avian reticuloendotheliosis viral oncogene homolog A (RELA) and sirtuin 1 (SIRT1). RT-qPCR and western blot are adopted to detect mRNA and protein levels of RELA, SIRT1, senescence-related genes and apoptosis-related genes. Results First, we proved that resveratrol alleviated the H2O2-induced senescence of BMMSCs. Then, bioinformatics analysis revealed that RELA was the downstream target of resveratrol and SIRT1 was the downstream target of RELA, respectively, involved in premature aging. RELA/SIRT1 may be the potential target of resveratrol for premature senescence. Notably, rescue experiments indicated that resveratrol inhibited premature senescence partially through targeting regulation RELA/SIRT1. Conclusion In our study, we confirm the functional role of the resveratrol-RELA- SIRT1 axis in the progression of premature senescence, which provides a latent target for premature senescence treatment.

Published

2022

29. A missense variant in NCF1 is associated with susceptibility to unexplained recurrent spontaneous abortion

Author

Du Mengxuan, Gu Heng, Li Yanqiu, Huang Liyan, Gao Mengge, Xu Hang, Deng Huaqian, Zhong Wenyao, Liu Xiaohua, and Zhong Xingming

Subjects

ncf1, unexplained recurrent spontaneous abortion, reactive oxygen species, rela, Biology (General), QH301-705.5

Abstract

Unexplained recurrent spontaneous abortion (URSA) is a major concern in reproductive medicine. Neutrophil cytosolic factor 1 (NCF1) polymorphisms leading to low production of reactive oxygen species (ROS) are strongly associated with autoimmune diseases. We investigated the association of the missense single nucleotide polymorphism (SNP) rs201802880 (NCF1-339) in NCF1 with URSA and explored its function. We performed NCF1-339 SNP genotyping of samples from 152 Chinese patients with URSA and 72 healthy controls using nested PCR and TaqMan assays. ROS production and RELA (NF-κB subunit) expression in the blood of participants with different NCF1-339 genotypes were determined. The frequencies of the wild-type (GG) and mutant (GA) genotypes remarkably differed between the URSA and control groups. The mutant genotype was associated with an increased risk of recurrent abortion. Furthermore, ROS levels in the URSA group with the GG genotype were significantly higher than those in the group with the GA genotype (p < 0.05). RELA expression in URSA patients with the GA genotype was considerably higher than that in control individuals with the GG genotype. These findings indicate that mutations in NCF1 may increase the risk of URSA via the NADP/ROS/NF-κB signaling pathway, which has implications for the diagnosis and treatment of URSA.

Published

2022

30. NF-κB Signaling Modulates miR-452-5p and miR-335-5p Expression to Functionally Decrease Epithelial Ovarian Cancer Progression in Tumor-Initiating Cells.

Author

Kamdar, Rahul D., Harrington, Brittney S., Attar, Emma, Korrapati, Soumya, Shetty, Jyoti, Zhao, Yongmei, Tran, Bao, Wong, Nathan, House, Carrie D., and Annunziata, Christina M.

Subjects

*OVARIAN epithelial cancer, *GENE expression, *MICRORNA, *CANCER invasiveness, *DISEASE relapse

Abstract

Epithelial ovarian cancer (EOC) remains the fifth leading cause of cancer-related death in women worldwide, partly due to the survival of chemoresistant, stem-like tumor-initiating cells (TICs) that promote disease relapse. We previously described a role for the NF-κB pathway in promoting TIC chemoresistance and survival through NF-κB transcription factors (TFs) RelA and RelB, which regulate genes important for the inflammatory response and those associated with cancer, including microRNAs (miRNAs). We hypothesized that NF-κB signaling differentially regulates miRNA expression through RelA and RelB to support TIC persistence. Inducible shRNA was stably expressed in OV90 cells to knockdown RELA or RELB; miR-seq analyses identified differentially expressed miRNAs hsa-miR-452-5p and hsa-miR-335-5p in cells grown in TIC versus adherent conditions. We validated the miR-seq findings via qPCR in TIC or adherent conditions with RELA or RELB knocked-down. We confirmed decreased expression of hsa-miR-452-5p when either RELA or RELB were depleted and increased expression of hsa-miR-335-5p when RELA was depleted. Either inhibiting miR-452-5p or mimicking miR-335-5p functionally decreased the stem-like potential of the TICs. These results highlight a novel role of NF-κB TFs in modulating miRNA expression in EOC cells, thus opening a better understanding toward preventing recurrence of EOC. [ABSTRACT FROM AUTHOR]

Published

2023

31. Survival of Escherichia coli after high-antibiotic stress is dependent on both the pregrown physiological state and incubation conditions.

Author

Thorfinnsdottir, Lilja Brekke, Bø, Gaute Hovde, Booth, James Alexander, and Bruheim, Per

Subjects

CELL populations, BACTERIAL cultures, BACTERIAL cells, ANTIBIOTICS assay, ANTIBIOTICS, ESCHERICHIA coli, METABOLOMICS

Abstract

Introduction: The survival of bacterial cells exposed to antibiotics depends on the mode of action, the antibiotics concentration, and the duration of treatment. However, it also depends on the physiological state of the cells and the environmental conditions. In addition, bacterial cultures contain sub-populations that can survive high antibiotic concentrations, so-called persisters. Research on persisters is challenging due to multiple mechanisms for their formation and low fractions, down to and below one millionth of the total cell population. Here, we present an improved version of the persister assay used to enumerate the amount of persisters in a cell population. Methods: The persister assay with high antibiotic stress exposure was performed at both growth supporting and non-supporting conditions. Escherichia coli cells were pregrown to various growth stages in shake flasks and bench-top bioreactors. In addition, the physiological state of E. coli before antibiotic treatment was determined by quantitative mass spectrometry-based metabolite profiling. Results: Survival of E. coli strongly depended on whether the persister assay medium supported growth or not. The results were also highly dependent on the type of antibiotic and pregrown physiological state of the cells. Therefore, applying the same conditions is critical for consistent and comparable results. No direct connection was observed between antibiotic efficacy to the metabolic state. This also includes the energetic state (i.e., the intracellular concentration of ATP and the adenylate energy charge), which has earlier been hypothesized to be decisive for persister formation. Discussion: The study provides guides and suggestions for the design of future experimentation in the research fields of persisters and antibiotic tolerance. [ABSTRACT FROM AUTHOR]

Published

2023

32. Bmi-1 Overexpression Improves Sarcopenia Induced by 1,25(OH)2D3 Deficiency and Downregulates GATA4-Dependent Rela Transcription.

Author

Qiuyi Wang, Jingyu Zhao, Haiyun Chen, Jiawen Zhou, Ao Chen, Jin'ge Zhang, Yue Wang, Zhiyuan Mao, Jiachen Wang, Xuehan Qiu, Yutong Chen, Rong Wang, Yongjie Zhang, Dengshun Miao, and Jianliang Jin

Abstract

Sarcopenia increases with age, and an underlying mechanism needs to be determined to help with designing more effective treatments. This study aimed to determine whether 1,25(OH)2D3 deficiency could cause cellular senescence and a senescence-associated secretory phenotype (SASP) in skeletal muscle cells to induce sarcopenia, whether GATA4 could be upregulated by 1,25(OH)2D3 deficiency to promote SASP, and whether Bmi-1 reduces the expression of GATA4 and GATA4-dependent SASP induced by 1,25(OH)2D3 deficiency in skeletal muscle cells. Bioinformatics analyses with RNA sequencing data in skeletal muscle from physiologically aged and young mice were conducted. Skeletal muscles from 2-month-old young and 2-year-old physiologically aged wild-type (WT) mice and 8-week-old WT, Bmi-1 mesenchymal transgene (Bmi-1Tg), Cyp27b1 homozygous (Cyp27b1-/-), and Bmi-1TgCyp27b1-/- mice were observed for grip strength, cell senescence, DNA damage, and NF-B-mediated SASP signaling of skeletal muscle. We found that muscle-derived Bmi-1 and vitamin D receptor (VDR) decreased with physiological aging, and DNA damage and GATA4-dependent SASP activation led to sarcopenia. Furthermore, 1,25(OH)2D3 deficiency promoted DNA damage-induced GATA4 accumulation in muscles. GATA4 upregulated Rela at the region from -1448 to -1412 bp at the transcriptional level to cause NF-B-dependent SASP for aggravating cell senescence and muscular dysfunction and sarcopenia. Bmi-1 overexpression promoted the ubiquitination and degradation of GATA4 by binding RING1B, which prevented cell senescence, SASP, and dysfunctional muscle, and improved sarcopenia induced by 1,25(OH)2D3 deficiency. Thus, Bmi-1 overexpression improves sarcopenia induced by 1,25 (OH)2D3 deficiency, downregulates GATA4-dependent Rela transcription, and sequentially inhibits GATA4-dependent SASP in muscle cells. Therefore, Bmi-1 overexpression could be used for translational gene therapy for the ubiquitination of GATA4 and prevention of sarcopenia. © 2023 American Society for Bone and Mineral Research (ASBMR). [ABSTRACT FROM AUTHOR]

Published

2023

33. Role of alarmone (p)ppGpp in the regulation of indole formation depending on glucose content in Escherichia coli

Author

N. M. Kashevarova, A. V. Akhova, E. A. Khaova, and A. G. Tkachenko

Subjects

indole, (p)ppgpp, tryptophan, tryptophanase, glucose, escherichia coli, rela, spot, adaptation, Science

Abstract

Signaling molecules such as indole (product of tryptophan catabolism) and (p)ppGpp (stringent response regulator) are involved in regulation of physiological processes in bacterial cells aimed to adapt to antibiotics and stresses. However, question of existence of relationship between the stringent response and indole signaling requires more detailed investigation.The aim. To study effect of stringent response regulator (p)ppGpp on indole production in Escherichia coli depending on glucose content.Materials and methods. In this work, we studied the dynamics of indole accumulation in batch cultures of parent E. coli BW25141 ((p)ppGpp+ strain) and deletion mutant BW25141∆relA∆spoT ((p)ppGpp0 strain) in glucose-mineral tryptophan-free M9 medium, as well as with 2 mM tryptophan addition. In order to study effect of starvation stress on bacterial cell ability to synthesize indole, we used a model of growth limitation by carbon substrate at two glucose concentrations, 0.1 % and 0.4 %.Results. We have shown here that (p)ppGpp absence in E. coli cells reduces their ability to produce indole in the tryptophan-free medium and significantly slows down the rate of its accumulation in the tryptophan-containing one. Low glucose concentration (0.1 %) leads to decrease in indole production by (p)ppGpp+ cells in the tryptophan-free medium. The presence of indole synthesis precursor, tryptophan, in growth medium, on the contrary, increases the production of indole at lower glucose concentration in both (p)ppGpp+ and (p)ppGpp0 strains demonstrating direct dependence of delay time for onset of indole formation on glucose content, which is more pronounced in the culture of deletion mutant unable of synthesizing (p) ppGpp. The data obtained can be interpreted as result of complex regulatory effect of catabolic repression and the stringent response caused by alarmone (p)ppGpp action on expression level of tnaCAB operon responsible for indole biosynthesis.

Published

2022

34. Identification of Gut Microbiome Metabolites via Network Pharmacology Analysis in Treating Alcoholic Liver Disease

Author

Ki-Kwang Oh, Ye-Rin Choi, Haripriya Gupta, Raja Ganesan, Satya Priya Sharma, Sung-Min Won, Jin-Ju Jeong, Su-Been Lee, Min-Gi Cha, Goo-Hyun Kwon, Dong-Joon Kim, and Ki-Tae Suk

Subjects

alcoholic liver disease (ALD), network pharmacology concept, PI3K-Akt signaling pathway, bacterium MRG-PMF-1, RELA, Icaritin, Biology (General), QH301-705.5

Abstract

Alcoholic liver disease (ALD) is linked to a broad spectrum of diseases, including diabetes, hypertension, atherosclerosis, and even liver carcinoma. The ALD spectrum includes alcoholic fatty liver disease (AFLD), alcoholic hepatitis, and cirrhosis. Most recently, some reports demonstrated that the pathogenesis of ALD is strongly associated with metabolites of human microbiota. AFLD was the onset of disease among ALDs, the initial cause of which is alcohol consumption. Thus, we analyzed the significant metabolites of microbiota against AFLD via the network pharmacology concept. The metabolites from microbiota were retrieved by the gutMGene database; sequentially, AFLD targets were identified by public databases (DisGeNET, OMIM). The final targets were utilized for protein–protein interaction (PPI) networks and signaling pathway analyses. Then, we performed a molecular docking test (MDT) to verify the affinity between metabolite(s) and target(s) utilizing the Autodock 1.5.6 tool. From a holistic viewpoint, we integrated the relationships of microbiota-signaling pathways-targets-metabolites (MSTM) using the R Package. We identified the uppermost six key targets (TLR4, RELA, IL6, PPARG, COX-2, and CYP1A2) against AFLD. The PPI network analysis revealed that TLR4, RELA, IL6, PPARG, and COX-2 had equivalent degrees of value (4); however, CYP1A2 had no associations with the other targets. The bubble chart showed that the PI3K-Akt signaling pathway in nine signaling pathways might be the most significant mechanism with antagonistic functions in the treatment of AFLD. The MDT confirmed that Icaritin is a promising agent to bind stably to RELA (known as NF-Κb). In parallel, Bacterium MRG-PMF-1, the PI3K-Akt signaling pathway, RELA, and Icaritin were the most significant components against AFLD in MSTM networks. In conclusion, we showed that the Icaritin–RELA complex on the PI3K-Akt signaling pathway by bacterial MRG-PMF-1 might have promising therapeutic effects against AFLD, providing crucial evidence for further research.

Published

2022

35. Survival of Escherichia coli after high-antibiotic stress is dependent on both the pregrown physiological state and incubation conditions

Author

Lilja Brekke Thorfinnsdottir, Gaute Hovde Bø, James Alexander Booth, and Per Bruheim

Subjects

persisters, antibiotics, metabolomics, metabolite profiling, Escherichia coli, relA, Microbiology, QR1-502

Abstract

IntroductionThe survival of bacterial cells exposed to antibiotics depends on the mode of action, the antibiotics concentration, and the duration of treatment. However, it also depends on the physiological state of the cells and the environmental conditions. In addition, bacterial cultures contain sub-populations that can survive high antibiotic concentrations, so-called persisters. Research on persisters is challenging due to multiple mechanisms for their formation and low fractions, down to and below one millionth of the total cell population. Here, we present an improved version of the persister assay used to enumerate the amount of persisters in a cell population.MethodsThe persister assay with high antibiotic stress exposure was performed at both growth supporting and non-supporting conditions. Escherichia coli cells were pregrown to various growth stages in shake flasks and bench-top bioreactors. In addition, the physiological state of E. coli before antibiotic treatment was determined by quantitative mass spectrometry-based metabolite profiling.ResultsSurvival of E. coli strongly depended on whether the persister assay medium supported growth or not. The results were also highly dependent on the type of antibiotic and pregrown physiological state of the cells. Therefore, applying the same conditions is critical for consistent and comparable results. No direct connection was observed between antibiotic efficacy to the metabolic state. This also includes the energetic state (i.e., the intracellular concentration of ATP and the adenylate energy charge), which has earlier been hypothesized to be decisive for persister formation.DiscussionThe study provides guides and suggestions for the design of future experimentation in the research fields of persisters and antibiotic tolerance.

Published

2023

36. Case report: Novel variants in RELA associated with familial Behcet’s-like disease.

Author

An, Jason W., Pimpale-Chavan, Pallavi, Stone, Deborah L., Bandeira, Marcia, Dedeoglu, Fatma, Lo, Jeffrey, Bohnsack, John, Rosenzweig, Sofia, Schnappauf, Oskar, Dissanayake, Dilan, Hiraki, Linda T., Kastner, Daniel L., Pelajo, Christina, Laxer, Ronald M., and Aksentijevich, Ivona

Subjects

GENETIC disorders, BEHCET'S disease, MALARIA, TRANSCRIPTION factors, GENETIC testing

Abstract

RELA haploinsufficiency is a recently described autoinflammatory condition presenting with intermittent fevers and mucocutaneous ulcerations. The RELA gene encodes the p65 protein, one of five NF-κB family transcription factors. As RELA is an essential regulator of mucosal homeostasis, haploinsufficiency leads to decreased NF-kB signaling which promotes TNF-driven mucosal apoptosis with impaired epithelial recovery. Thus far, only eight cases have been reported in the literature. Here, we report four families with three novel and one previously described pathogenic variant in RELA. These four families included 23 affected individuals for which genetic testing was available in 16. Almost half of these patients had been previously diagnosed with more common rheumatologic entities (such as Behcet’s Disease; BD) prior to the discovery of their pathogenic RELA variants. The most common clinical features were orogenital ulcers, rash, joint inflammation, and fever. The least common were conjunctivitis and recurrent infections. Clinical variability was remarkable even among familial cases, and incomplete penetrance was observed. Patients in our series were treated with a variety of medications, and benefit was observed with glucocorticoids, colchicine, and TNF inhibitors. Altogether, our work adds to the current literature and doubles the number of reported cases with RELA Associated Inflammatory Disease (RAID). It reaffirms the central importance of the NF-κB pathway in immunity and inflammation, as well as the important regulatory role of RELA in mucosal homeostasis. RELA associated inflammatory disease should be considered in all patients with BD, particularly those with early onset and/or with a strong family history [ABSTRACT FROM AUTHOR]

Published

2023

37. Protein–Ligand Interactions in Scarcity: The Stringent Response from Bacteria to Metazoa, and the Unanswered Questions.

Author

Barik, Sailen

Subjects

*PROTEIN-ligand interactions, *RNA polymerases, *RNA synthesis, *METAZOA, *SCARCITY

Abstract

The stringent response, originally identified in Escherichia coli as a signal that leads to reprogramming of gene expression under starvation or nutrient deprivation, is now recognized as ubiquitous in all bacteria, and also as part of a broader survival strategy in diverse, other stress conditions. Much of our insight into this phenomenon derives from the role of hyperphosphorylated guanosine derivatives (pppGpp, ppGpp, pGpp; guanosine penta-, tetra- and tri-phosphate, respectively) that are synthesized on starvation cues and act as messengers or alarmones. These molecules, collectively referred to here as (p)ppGpp, orchestrate a complex network of biochemical steps that eventually lead to the repression of stable RNA synthesis, growth, and cell division, while promoting amino acid biosynthesis, survival, persistence, and virulence. In this analytical review, we summarize the mechanism of the major signaling pathways in the stringent response, consisting of the synthesis of the (p)ppGpp, their interaction with RNA polymerase, and diverse factors of macromolecular biosynthesis, leading to differential inhibition and activation of specific promoters. We also briefly touch upon the recently reported stringent-like response in a few eukaryotes, which is a very disparate mechanism involving MESH1 (Metazoan SpoT Homolog 1), a cytosolic NADPH phosphatase. Lastly, using ppGpp as an example, we speculate on possible pathways of simultaneous evolution of alarmones and their multiple targets. [ABSTRACT FROM AUTHOR]

Published

2023

38. Reduced Renal CSE/CBS/H2S Contributes to the Progress of Lupus Nephritis.

Author

Wang, Xuan, Lin, Tao, He, Yifei, Zhou, Yueyuan, Peng, Yi, Zhang, Weiru, and Ni, Xin

Subjects

*LUPUS nephritis, *SYSTEMIC lupus erythematosus, *HYDROGEN sulfide, *TRANSCRIPTION factors, *LIGASES

Abstract

Simple Summary: Lupus nephritis is a severe and fatal immune-associated nephritis. The molecular mechanisms underlying lupus nephritis development remain largely unknown. Renal hydrogen sulfide can be produced mainly via two synthetases and is involved in many pathological and physiological processes. Herein, we sought to investigate the roles of renal hydrogen sulfide and its synthetase in lupus nephritis pathogenesis. We found that the expression of two hydrogen sulfide synthetases was downregulated in renal tissues of lupus nephritis patients and lupus mice, which were associated with poor renal outcomes. Moreover, exogenous hydrogen sulfide attenuated renal damage in two mouse models with lupus nephritis. In addition, we further confirmed the increase of renal key transcription factors and T-lymphocyte infiltration in lupus nephritis, which were mitigated after treatment with hydrogen sulfide donors. Our composite data indicated that reduced renal two hydrogen sulfide synthetases contribute to the progress of lupus nephritis, and exogenous hydrogen-sulfide-attenuated renal damage of lupus nephritis may partly be through inhibiting the expression of T-lymphocyte-associated transcription factors. The molecular mechanisms underlying lupus nephritis (LN) pathogenesis are not fully understood. Hydrogen sulfide (H2S) is involved in many pathological and physiological processes. We sought to investigate the roles of H2S in LN pathogenesis. H2S synthase cystathionine–lyase (CSE) and cystathionine–synthetase (CBS) expression was downregulated in renal tissues of patients with LN and their levels were associated with LN's prognosis using the Nephroseq database. Reduced CSE and CBS protein expression in kidney tissues of LN patients and MRL/lpr mice were confirmed by immunohistochemistry. CSE and CBS mRNA levels were reduced in MRL/lpr and pristine- and R848-induced lupus mice. Given that H2S exerts an anti-inflammatory role partly via regulating inflammatory transcription factors (TFs), we analyzed hub TFs by using a bioinformatics approach. It showed that STAT1, RELA, and T-cell-related signaling pathways were enriched in LN. Increased STAT1 and RELA expression were confirmed in renal tissues of LN patients. Treatment of MRL/lpr and pristine mice with H2S donors alleviated systemic lupus erythematosus (SLE) phenotypes and renal injury. H2S donors inhibited RELA level and T-cell infiltration in the kidneys of MRL/lpr and pristine mice. Our data indicated that CSE/CBS/H2S contributes to LN pathogenesis. Supplementation of H2S would be a potential therapeutic strategy for LN. [ABSTRACT FROM AUTHOR]

Published

2023

39. Case report and review of the literature: immune dysregulation in a large familial cohort due to a novel pathogenic RELA variant.

Author

Lecerf, Kelsey, Koboldt, Daniel C, Kuehn, Hye Sun, Jayaraman, Vijayakumar, Lee, Kristy, Mosher, Theresa Mihalic, Yonkof, Jennifer R, Mori, Mari, Hickey, Scott E, Franklin, Samuel, Drew, Joanne, Akoghlanian, Shoghik, Sivaraman, Vidya, Rosenzweig, Sergio D, Wilson, Richard K, and Abraham, Roshini S

Subjects

*IMMUNITY & psychology, *GENETIC mutation, *BEHCET'S disease, *IMMUNOBLOTTING, *GENES, *IMMUNOPHENOTYPING, *LITERATURE reviews

Abstract

Objective To explore and define the molecular cause(s) of a multi-generational kindred affected by Bechet's-like mucocutaneous ulcerations and immune dysregulation. Methods Whole genome sequencing and confirmatory Sanger sequencing were performed. Components of the NFκB pathway were quantified by immunoblotting, and function was assessed by cytokine production (IL-6, TNF-α, IL-1β) after lipopolysaccharide (LPS) stimulation. Detailed immunophenotyping of T-cell and B-cell subsets was performed in four patients from this cohort. Results A novel variant in the RELA gene, p. Tyr349LeufsTer13, was identified. This variant results in premature truncation of the protein before the serine (S) 536 residue, a key phosphorylation site, resulting in enhanced degradation of the p65 protein. Immunoblotting revealed significantly decreased phosphorylated [p]p65 and pIκBα. The decrease in [p]p65 may suggest reduced heterodimer formation between p50/p65 (NFκB1/RelA). Immunophenotyping revealed decreased naïve T cells, increased memory T cells, and expanded senescent T-cell populations in one patient (P1). P1 also had substantially higher IL-6 and TNF-α levels post-stimulation compared with the other three patients. Conclusion Family members with this novel RELA variant have a clinical phenotype similar to other reported RELA cases with predominant chronic mucocutaneous ulceration; however, the clinical phenotype broadens to include Behçet's syndrome and IBD. Here we describe the clinical, immunological and genetic evaluation of a large kindred to further expand identification of patients with autosomal dominant RELA deficiency, facilitating earlier diagnosis and intervention. The functional impairment of the canonical NFκB pathway suggests that this variant is causal for the clinical phenotype in these patients. [ABSTRACT FROM AUTHOR]

Published

2023

40. Neural-Cell-Intrinsic NF-kB Signaling Enhances Reovirus Virulence.

Author

Taylor, Gwen M., Pruijssers, Andrea J., Brigleb, Pamela H., Fiske, Kay L., Pengcheng Shang, Urbanek, Kelly, Brown, Judy J., Rajasundaram, Dhivyaa, and Dermody, Terence S.

Subjects

*CENTRAL nervous system viral diseases, *CHILD death, *VIRAL encephalitis, CENTRAL nervous system infections

Abstract

Pathological effects of apoptosis associated with viral infections of the central nervous system are an important cause of morbidity and mortality. Reovirus is a neurotropic virus that causes apoptosis in neurons, leading to lethal encephalitis in newborn mice. Reovirus-induced encephalitis is diminished in mice with germ line ablation of NF-kBsubunit p50. It is not known whether the proapoptotic function of NF-kB is mediated by neural-cell-intrinsic (neural-intrinsic) processes, NF-kB-regulated cytokine production by inflammatory cells, or a combination of both. To determine the contribution of cell type-specific NF-kB signaling in reovirus-induced neuronal injury, we established mice that lack NF-kB p65 expression in neural cells using the Cre/loxP recombination system. Following intracranial inoculation of reovirus, 50% of wild-type (WT) mice succumbed to infection, whereas more than 90% of mice lacking neural cell NF-kB p65 (Nsp652/2) survived. While viral loads in brains of WT and Nsp652/2 mice were comparable, histological analysis revealed that reovirus antigen-positive areas in the brains of WT mice displayed increased immunoreactivity for cleaved caspase-3, a marker of apoptosis, relative to Nsp652/2 mice. These data suggest that neural-intrinsic NF-kB-dependent factors are essential mediators of reovirus neurovirulence. RNA sequencing analysis of reovirus-infected brain cortices of WT and Nsp652/2 mice suggests that NF-kBactivation in neuronal cells upregulates genes involved in innate immunity, inflammation, and cell death following reovirus infection. A better understanding of the contribution of cell type-specific NFkB-dependent signaling to viral neuropathogenesis could inform development of new therapeutics that target and protect highly vulnerable cell populations. IMPORTANCE Viral encephalitis contributes to illness and death in children and adults worldwide and has limited treatment options. Identifying common host factors upregulated by neurotropic viruses can enhance an understanding of virusinduced neuropathogenesis and aid in development of therapeutics. Although many neurotropic viruses activate NF-kB during infection, mechanisms by which NF-kB regulates viral neuropathogenesis and contributes to viral encephalitis are not well understood. We established mice in which NF-kB expression is ablated in neural tissue to study the function of NF-kB in reovirus neurovirulence and identify genes activated by NF-kB in response to reovirus infection in the central nervous system. Encephalitis following reovirus infection was dampened in mice lacking neural cell NF-kB . Reovirus induced a chemokine profile in the brain that was dependent on NF-kB signaling and was similar to chemokine profiles elicited by other neurotropic viruses. These data suggest common underlying mechanisms of encephalitis caused by neurotropic viruses and potentially shared therapeutic targets. [ABSTRACT FROM AUTHOR]

Published

2023

41. Survival motor neuron protein and neurite degeneration are regulated by Gemin3 in spinal muscular atrophy motoneurons.

Author

Miralles, Maria P., Sansa, Alba, Beltran, Maria, Soler, Rosa M., and Garcera, Ana

Subjects

SPINAL muscular atrophy, MOLECULAR motor proteins, MOTOR neurons, MOTOR neuron diseases, MITOGEN-activated protein kinases, CELL death, NEUROMUSCULAR diseases, H-reflex, STRETCH reflex

Abstract

Spinal Muscular Atrophy (SMA) is a genetic neuromuscular disorder caused by reduction of the ubiquitously expressed protein Survival Motor Neuron (SMN). Low levels of SMN impact on spinal cord motoneurons (MNs) causing their degeneration and progressive muscle weakness and atrophy. To study the molecular mechanisms leading to cell loss in SMN-reduced MNs, we analyzed the NF-kB intracellular pathway in SMA models. NF-kB pathway activation is required for survival and regulates SMN levels in cultured MNs. Here we describe that NF-kB members, inhibitor of kappa B kinase beta (IKKb), and RelA, were reduced in SMA mouse and human MNs. In addition, we observed that Gemin3 protein level was decreased in SMA MNs, but not in non-neuronal SMA cells. Gemin3 is a core member of the SMN complex responsible for small nuclear ribonucleoprotein biogenesis, and it regulates NF-kB activation through the mitogen-activated protein kinase TAK1. Our experiments showed that Gemin3 knockdown reduced SMN, IKKb, and RelA protein levels, and caused significant neurite degeneration. Overexpression of SMN increased Gemin3 protein in SMA MNs, but did not prevent neurite degeneration in Gemin3 knockdown cells. These data indicated that Gemin3 reduction may contribute to cell degeneration in SMA MNs. [ABSTRACT FROM AUTHOR]

Published

2022

42. Resveratrol inhibits the progression of premature senescence partially by regulating v-rel avian reticuloendotheliosis viral oncogene homolog A (RELA) and sirtuin 1 (SIRT1).

Author

He, Shuangjun, Zhou, Meng, Zheng, Hongming, Wang, Yaowei, Wu, Shuhua, Gao, Yuan, and Chen, Jianhong

Subjects

*SIRTUINS, *AGING, *RESVERATROL, *PREMATURE aging (Medicine)

Abstract

To explore the effect of resveratrol in premature senescence and reveal its anti-premature senescence mechanisms through network pharmacology. In this study, the H2O2-induced bone marrow mesenchymal stem cells (BMMSCs) premature senescence model is applied. Cell counting kit-8 assay, β-galactosidase staining and flow cytometry are conducted to detect the proliferation, senescence and apoptosis of BMMSCs. Bioinformatics analyses are used to screen and validate molecular targets of resveratrol acting on premature senescence. Dual-luciferase reporter assay is conducted to verify the interaction between v-rel avian reticuloendotheliosis viral oncogene homolog A (RELA) and sirtuin 1 (SIRT1). RT-qPCR and western blot are adopted to detect mRNA and protein levels of RELA, SIRT1, senescence-related genes and apoptosis-related genes. First, we proved that resveratrol alleviated the H2O2-induced senescence of BMMSCs. Then, bioinformatics analysis revealed that RELA was the downstream target of resveratrol and SIRT1 was the downstream target of RELA, respectively, involved in premature aging. RELA/SIRT1 may be the potential target of resveratrol for premature senescence. Notably, rescue experiments indicated that resveratrol inhibited premature senescence partially through targeting regulation RELA/SIRT1. In our study, we confirm the functional role of the resveratrol-RELA- SIRT1 axis in the progression of premature senescence, which provides a latent target for premature senescence treatment. [ABSTRACT FROM AUTHOR]

Published

2022

43. BCL11B Upregulates the Expression of RelA in T Cells Stimulated with Staphylococcal Enterotoxin A.

Author

Yan, Y., Wang, S., and Lin, C.

Abstract

We explored the potential link between RelA and BCL11B transcription factors. To this end, Jurkat and Raji cells (Jurkat:Raji 10:1), as well as normal human peripheral blood T cells, were activated by staphylococcal enterotoxin A (SEA) and the expressions of both BCL11B and RelA mRNA and proteins were detected. BCL11B small interfering RNA was then transduced into Jurkat cells. Under the effect of SEA stimulation, the expression of BCL11B and RelA mRNA increased in two types of T cell lines over time, and the results were comparable with the levels of expression of BCL11B and RelA proteins. In the BCL11B-knockdown cells, the expression of RelA protein did not increase. These findings suggest that BCL11B regulates RelA expression in Jurkat cells and human peripheral blood T cells from healthy donors via the T-cell receptor signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2022

44. Knockdown of RSPH14 inhibits proliferation, migration, and invasion and promotes apoptosis of hepatocellular carcinoma via RelA

Author

Dawei Yuan, Rulan Ma, Tuanhe Sun, Kun Zhu, Chengxue Dang, Haixia Ye, and Kang Li

Subjects

Hepatocellular carcinoma, RSPH14, RelA, Proliferation, Migration, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Background High RSPH14 expression appears to be related to poor prognosis of hepatocellular carcinoma (HCC). This study aimed to investigate the possible roles of RSPH14 in the proliferation, apoptosis, and invasion of HCC cells. Methods The UALCAN database and Kaplan–Meier Plotter were used to evaluate the expression level and prognostic role of RSPH14 in HCC. Lentiviral vectors containing shRNA against RSPH14 were constructed to transfect the BEL-7404 and SMMC-7721 HCC cell lines. Cell proliferation was investigated by BrdU, MTT, and colony-formation assays. Apoptosis was detected using flow cytometry. Cell migration and invasion were evaluated using the scratch wound-healing and Transwell assays. Immunohistochemistry and western blot were used to determine the expression levels of the proteins. The function of RSPH14 in vivo was evaluated using a xenograft mouse model. Results The expression of RSPH14 was higher in HCC tumor tissues than in adjacent normal tissues and was closely related to unfavorable prognostic factors and poorer survival (all P

Published

2022

45. NF-κB regulates brown adipocyte function through suppression of ANT2

Author

Shiqiao Peng, Xiaoying Zhang, Lili Yu, Yanhong Xu, Yang Zhou, Shengnan Qian, Xinyu Cao, Xiaotong Ye, Jiajun Yang, Weiping Jia, and Jianping Ye

Subjects

RelA, Mitochondria, Brown adipocyte, Energy metabolism, ANT2, Therapeutics. Pharmacology, RM1-950

Abstract

The transcription factor nuclear factor of kappa-light-chain-enhancer of activated B cells (NF-κB) is expressed in brown adipocytes, but its role remains largely unknown in the cells. This issue was addressed in current study by examining NF-κB in brown adipocytes in vitro and in vivo. NF-κB activity was increased by differentiation of brown adipocytes through elevation of p65 (RelA) expression. The transcriptional activity of NF-κB was induced by the cold stimulation with an elevation in S276 phosphorylation of p65 protein. Inactivation of NF-κB in brown adipocytes made the knockout mice [uncoupling protein 1 (Ucp1)–CreER–p65f/f, U-p65-KO] intolerant to the cold environment. The brown adipocytes exhibited an increase in apoptosis, a decrease in cristae density and uncoupling activity in the interscapular brown adipose tissue (iBAT) of p65-KO mice. The alterations became severer after cold exposure of the KO mice. The brown adipocytes of mice with NF-κB activation (p65 overexpression, p65-OE) exhibited a set of opposite alterations with a reduction in apoptosis, an increase in cristae density and uncoupling activity. In mechanism, NF-κB inhibited expression of the adenine nucleotide translocase 2 (ANT2) in the control of apoptosis. Data suggest that NF-κB activity is increased in brown adipocytes by differentiation and cold stimulation to protect the cells from apoptosis through down-regulation of ANT2 expression.

Published

2022

46. Case report: Novel variants in RELA associated with familial Behcet’s-like disease

Author

Jason W. An, Pallavi Pimpale-Chavan, Deborah L. Stone, Marcia Bandeira, Fatma Dedeoglu, Jeffrey Lo, John Bohnsack, Sofia Rosenzweig, Oskar Schnappauf, Dilan Dissanayake, Linda T. Hiraki, Daniel L. Kastner, Christina Pelajo, Ronald M. Laxer, and Ivona Aksentijevich

Subjects

RELA haploinsufficiency, Behcet’s Disease, RELA, NF-κB, RELA-associated inflammatory disease, RAID, Immunologic diseases. Allergy, RC581-607

Abstract

RELA haploinsufficiency is a recently described autoinflammatory condition presenting with intermittent fevers and mucocutaneous ulcerations. The RELA gene encodes the p65 protein, one of five NF-κB family transcription factors. As RELA is an essential regulator of mucosal homeostasis, haploinsufficiency leads to decreased NF-κB signaling which promotes TNF-driven mucosal apoptosis with impaired epithelial recovery. Thus far, only eight cases have been reported in the literature. Here, we report four families with three novel and one previously described pathogenic variant in RELA. These four families included 23 affected individuals for which genetic testing was available in 16. Almost half of these patients had been previously diagnosed with more common rheumatologic entities (such as Behcet’s Disease; BD) prior to the discovery of their pathogenic RELA variants. The most common clinical features were orogenital ulcers, rash, joint inflammation, and fever. The least common were conjunctivitis and recurrent infections. Clinical variability was remarkable even among familial cases, and incomplete penetrance was observed. Patients in our series were treated with a variety of medications, and benefit was observed with glucocorticoids, colchicine, and TNF inhibitors. Altogether, our work adds to the current literature and doubles the number of reported cases with RELA-Associated Inflammatory Disease (RAID). It reaffirms the central importance of the NF-κB pathway in immunity and inflammation, as well as the important regulatory role of RELA in mucosal homeostasis. RELA associated inflammatory disease should be considered in all patients with BD, particularly those with early onset and/or with a strong family history.

Published

2023

47. Role of Secretoglobin + (club cell) NFκB/RelA-TGFβ signaling in aero-allergen-induced epithelial plasticity and subepithelial myofibroblast transdifferentiation

Author

Melissa E. Skibba, Xiaofang Xu, Kurt Weiss, Jan Huisken, and Allan R. Brasier

Subjects

TGFβ, EMT, RELA, Epithelial plasticity, Aeroallergen, Cat dander, Diseases of the respiratory system, RC705-779

Abstract

Abstract Repetitive aeroallergen exposure is linked to sensitization and airway remodeling through incompletely understood mechanisms. In this study, we examine the dynamic mucosal response to cat dander extract (CDE), a ubiquitous aero-allergen linked to remodeling, sensitization and asthma. We find that daily exposure of CDE in naïve C57BL/6 mice activates innate neutrophilic inflammation followed by transition to a lymphocytic response associated with waves of mucosal transforming growth factor (TGF) isoform expression. In parallel, enhanced bronchiolar Smad3 expression and accumulation of phospho-SMAD3 was observed, indicating paracrine activation of canonical TGFβR signaling. CDE exposure similarly triggered epithelial cell plasticity, associated with expression of mesenchymal regulatory factors (Snai1 and Zeb1), reduction of epithelial markers (Cdh1) and activation of the NFκB/RelA transcriptional activator. To determine whether NFκB functionally mediates CDE-induced growth factor response, mice were stimulated with CDE in the absence or presence of a selective IKK inhibitor. IKK inhibition substantially reduced the level of CDE-induced TGFβ1 expression, pSMAD3 accumulation, Snai1 and Zeb1 expression. Activation of epithelial plasticity was demonstrated by flow cytometry in whole lung homogenates, where CDE induces accumulation of SMA+Epcam+ population. Club cells are important sources of cytokine and growth factor production. To determine whether Club cell innate signaling through NFκB/RelA mediated CDE induced TGFβ signaling, we depleted RelA in Secretoglobin (Scgb1a1)-expressing bronchiolar cells. Immunofluorescence-optical clearing light sheet microscopy showed a punctate distribution of Scgb1a1 progenitors throughout the small airway. We found that RelA depletion in Secretoglobin+ cells results in inhibition of the mucosal TGFβ response, blockade of EMT and reduced subepithelial myofibroblast expansion. We conclude that the Secretoglobin—derived bronchiolar cell is central to coordinating the innate response required for mucosal TGFβ1 response, EMT and myofibroblast expansion. These data have important mechanistic implications for how aero-allergens trigger mucosal injury response and remodeling in the small airway.

Published

2021

48. Survival motor neuron protein and neurite degeneration are regulated by Gemin3 in spinal muscular atrophy motoneurons

Author

Maria P. Miralles, Alba Sansa, Maria Beltran, Rosa M. Soler, and Ana Garcera

Subjects

Gemin3, spinal muscular atrophy, survival motor neuron, motoneuron, NF-κB pathway, RelA, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Spinal Muscular Atrophy (SMA) is a genetic neuromuscular disorder caused by reduction of the ubiquitously expressed protein Survival Motor Neuron (SMN). Low levels of SMN impact on spinal cord motoneurons (MNs) causing their degeneration and progressive muscle weakness and atrophy. To study the molecular mechanisms leading to cell loss in SMN-reduced MNs, we analyzed the NF-κB intracellular pathway in SMA models. NF-κB pathway activation is required for survival and regulates SMN levels in cultured MNs. Here we describe that NF-κB members, inhibitor of kappa B kinase beta (IKKβ), and RelA, were reduced in SMA mouse and human MNs. In addition, we observed that Gemin3 protein level was decreased in SMA MNs, but not in non-neuronal SMA cells. Gemin3 is a core member of the SMN complex responsible for small nuclear ribonucleoprotein biogenesis, and it regulates NF-κB activation through the mitogen-activated protein kinase TAK1. Our experiments showed that Gemin3 knockdown reduced SMN, IKKβ, and RelA protein levels, and caused significant neurite degeneration. Overexpression of SMN increased Gemin3 protein in SMA MNs, but did not prevent neurite degeneration in Gemin3 knockdown cells. These data indicated that Gemin3 reduction may contribute to cell degeneration in SMA MNs.

Published

2022

49. Interleukin-10 Deficiency Impacts on TNF-Induced NFκB Regulated Responses In Vivo.

Author

Papoutsopoulou, Stamatia, Pollock, Liam, Williams, Jonathan M., Abdul-Mahdi, Maya M. L. F., Dobbash, Reyhaneh, Duckworth, Carrie A., and Campbell, Barry J.

Subjects

*INTESTINAL mucosa, *INTERLEUKIN-10, *EPITHELIAL cell culture, *EPITHELIAL cells, *AUTOCRINE mechanisms, *SMALL intestine, *HOMEOSTASIS

Abstract

Simple Summary: Chronic inflammation of the gut is a multifactorial, incurable condition that involves interactions between our immune cells and the cells that line the surface layer of gut, known as the epithelium. Interleukin-10, a protein well known to be released by our immune cells, has a protective role in countering inflammation, partly due to the fact that it can block the NFκB pathway, a signalling pathway within cells that promotes genes involved in inflammatory responses. However, we recently showed that laboratory cultures of gut epithelial cells can also synthesise interleukin-10, which acts as a positive regulator of the NFκB pathway to support gut health. In this study here, we investigated further the impact of the role of interleukin-10 on the NFκB pathway and its targets within the gut using a whole animal approach, and confirmed that NFκB activation is indeed positively regulated by interleukin-10, affecting the expression of downstream target genes and their encoded proteins. This strengthens the importance of the interleukin-10/NFκB signalling pathway axis in maintenance of gut health and response to damage, inflammation, and infection. Understanding cell-specific biological roles of interleukin-10 and its interactions with NFκB could prove useful for future therapeutic intervention for interleukin-10 regulated inflammatory conditions. Interleukin-10 (IL-10) is an anti-inflammatory cytokine that has a major protective role against intestinal inflammation. We recently revealed that intestinal epithelial cells in vitro regulate NFκB-driven transcriptional responses to TNF via an autocrine mechanism dependent on IL-10 secretion. Here in this study, we investigated the impact of IL-10 deficiency on the NFκB pathway and its downstream targets in the small intestinal mucosa in vivo. We observed dysregulation of TNF, IκBα, and A20 gene and protein expression in the small intestine of steady-state or TNF-injected Il10−/− mice, compared to wild-type C57BL6/J counterparts. Upon TNF injection, tissue from the small intestine showed upregulation of NFκB p65[RelA] activity, which was totally diminished in Il10−/− mice and correlated with reduced levels of TNF, IκBα, and A20 expression. In serum, whilst IgA levels were noted to be markedly downregulated in IL-10-deficient- mice, normal levels of mucosal IgA were seen in intestine mucosa. Importantly, dysregulated cytokine/chemokine levels were observed in both serum and intestinal tissue lysates from naïve, as well as TNF-injected Il10−/− mice. These data further support the importance of the IL-10-canonical NFκB signaling pathway axis in regulating intestinal mucosa homeostasis and response to inflammatory triggers in vivo. [ABSTRACT FROM AUTHOR]

Published

2022

50. Uterine tumours with myogenic differentiation harbouring SRF::RELA fusions.

Author

Li, Yimin, Huang, Dan, Bi, Rui, Yao, Qianlan, Ge, Ling, Yu, Lin, Zhou, Xiaoyan, and Yang, Wentao

Subjects

*MYOBLASTS, *PROGESTERONE receptors, *GENE fusion, *TUMORS, *GENITALIA, *NUCLEOTIDE sequencing

Abstract

Aims: In 2017, a subset of cellular variants of myofibroma and myopericytoma with a smooth muscle‐like immunophenotype and harbouring recurrent SRF::RELA gene fusions was reported. Although the anatomical distribution was found to be quite broad, no tumours with these gene fusions in the female reproductive system have been illustrated to date. Methods and results: Herein, we report the histological and immunophenotypical features of three uterine tumours with SRF::RELA gene fusions. Microscopically, all three tumours were composed of cellular oval to spindle cells arranged in intersecting fascicles with variable amounts of collagen and a rich capillary network. Mitotic figures were scant. Regarding immunohistochemistry, diffuse staining for desmin, oestrogen receptor and progesterone receptor was observed in all three cases. The first case exhibited focal staining for h‐caldesmon, whereas the latter two cases had diffuse staining. Furthermore, SRF::RELA rearrangement was observed in all three cases by using next‐generation sequencing (NGS). Follow‐up, ranging from 11 to 15 months, was available for these three patients, all of whom were well without evidence of disease. Conclusions: In conclusion, we reported a special group of uterine neoplasms with myogenic differentiation harbouring SRF::RELA rearrangement. Although the follow‐up time was limited, morphological characteristics and other studies with follow‐up data supported that this type of uterine neoplasm appeared to behave in a benign manner. Further studies with longer follow‐up are needed to clarify the biological nature of this particular type of uterine tumour. [ABSTRACT FROM AUTHOR]

Published

2022