Your search keyword '"proteome"' showing total 82,771 results

151. Integrative Analysis of Hepatopancreas Transcriptome and Proteome in Female Eriocheir sinensis under Thermal Stress.

Author

Pan, Tingshuang, Li, Tong, Yang, Min, Jiang, He, and Ling, Jun

Subjects

*CHINESE mitten crab, *TRANSCRIPTOMES, *HORMONE synthesis, *SHEARING force, *GENE ontology

Abstract

The Chinese mitten crab (Eriocheir sinensis), an economically important crustacean that is endemic to China, has recently experienced high-temperature stress. The high thermal tolerance of E. sinensis points to its promise in being highly productive in an aquacultural context. However, the mechanisms underlying its high thermal tolerance remain unknown. In this study, female E. sinensis that were heat exposed for 24 h at 38.5 °C and 33 °C were identified as high-temperature-stressed (HS) and normal-temperature-stressed (NS) groups, respectively. The hepatopancreas of E. sinensis from the HS and NS groups were used for transcriptome and proteomic analyses. A total of 2350 upregulated and 1081 downregulated differentially expressed genes (DEGs) were identified between the HS and NS groups. In addition, 126 differentially expressed proteins (DEPs) were upregulated and 35 were downregulated in the two groups. An integrated analysis showed that 2641 identified genes were correlated with their corresponding proteins, including 25 genes that were significantly differentially expressed between the two omics levels. Ten Gene Ontology terms were enriched in the DEGs and DEPs. A functional analysis revealed three common pathways that were significantly enriched in both DEGs and DEPs: fluid shear stress and atherosclerosis, leukocyte transendothelial migration, and thyroid hormone synthesis. Further analysis of the common pathways showed that MGST1, Act5C, HSP90AB1, and mys were overlapping genes at the transcriptome and proteome levels. These results demonstrate the differences between the HS and NS groups at the two omics levels and will be helpful in clarifying the mechanisms underlying the thermal tolerance of E. sinensis. [ABSTRACT FROM AUTHOR]

Published

2024

152. Transcriptomic and proteomic elucidation of Z chromosome dosage compensation in Helicoverpa armigera.

Author

Deng, Zhongyuan, Zhang, Yakun, Xie, Xingcheng, Li, Huihui, Guo, Han, Ni, Xinzhi, and Li, Xianchun

Subjects

*HELICOVERPA armigera, *CHROMOSOMES, *PROTEOMICS, *TRANSCRIPTOMES, *SEX chromosomes, *LEPIDOPTERA

Abstract

Transcriptomic data have been used to study sex chromosome dosage compensation (SCDC) in approximately 10 Lepidoptera ZW species, yielding a consensus compensation pattern of Z ≈ZZ

Published

2024

153. Changes in cerebrospinal fluid proteome of patients with tick‐borne encephalitis.

Author

Gęgotek, Agnieszka, Moniuszko‐Malinowska, Anna, Groth, Monika, and Skrzydlewska, Elżbieta

Subjects

TICK-borne encephalitis, CEREBROSPINAL fluid, HEAT shock proteins, LYME disease, PEROXIREDOXINS, METALLOPROTEINASES

Abstract

Tick‐borne encephalitis (TBE) is one of the main diseases transmitted by ticks, the incidence of which is increasing. Moreover, its diagnosis and therapy are often long and difficult according to nonspecific symptoms and complex etiology. This study aimed to observe changes in the proteome of cerebrospinal fluid from TBE patients. Cerebrospinal fluid (CSF) of TBE patients (n = 20) and healthy individuals (n = 10) was analyzed using a proteomic approach (QExactiveHF‐Orbitrap mass spectrometer) and zymography. Obtained results show that in CSF of TBE patients, the top‐upregulated proteins are involved in pro‐inflammatory reaction (interleukins), as well as antioxidant/protective response (peroxiredoxins, heat shock proteins). Moreover, changes in the proteome of CSF are not only the result of this disease development, but they can also be an indicator of its course. This mainly applies to proteins involved in proteolysis including serpins and metalloproteinases, whose activity is proportional to the length of patients' convalescence. The obtained proteomic data strongly direct attention to the changes caused by the development of TBE to antioxidant, pro‐inflammatory, and proteolytic proteins, knowledge about which can significantly contribute to faster and more accurate diagnosis of various clinical forms of TBE. [ABSTRACT FROM AUTHOR]

Published

2024

154. Integrating Proteomics and Metabolomics Approaches to Elucidate the Mechanism of Responses to Combined Stress in the Bell Pepper (Capsicum annuum).

Author

Morales-Merida, Brandon Estefano, Grimaldi-Olivas, Jesús Christian, Cruz-Mendívil, Abraham, Villicaña, Claudia, Valdez-Torres, José Benigno, Heredia, J. Basilio, León-Chan, Rubén Gerardo, Lightbourn-Rojas, Luis Alberto, Monribot-Villanueva, Juan L., Guerrero-Analco, José A., Ruiz-May, Eliel, and León-Félix, Josefina

Subjects

LIQUID chromatography-mass spectrometry, CAPSICUM annuum, DATA integration, CARBON metabolism, ELECTRON transport

Abstract

Bell pepper plants are sensitive to environmental changes and are significantly affected by abiotic factors such as UV-B radiation and cold, which reduce their yield and production. Various approaches, including omics data integration, have been employed to understand the mechanisms by which this crop copes with abiotic stress. This study aimed to find metabolic changes in bell pepper stems caused by UV-B radiation and cold by integrating omic data. Proteome and metabolome profiles were generated using liquid chromatography coupled with mass spectrometry, and data integration was performed in the plant metabolic pathway database. The combined stress of UV-B and cold induced the accumulation of proteins related to photosynthesis, mitochondrial electron transport, and a response to a stimulus. Further, the production of flavonoids and their glycosides, as well as affecting carbon metabolism, tetrapyrrole, and scopolamine pathways, were identified. We have made the first metabolic regulatory network map showing how bell pepper stems respond to cold and UV-B stress. We did this by looking at changes in proteins and metabolites that help with respiration, photosynthesis, and the buildup of photoprotective and antioxidant compounds. [ABSTRACT FROM AUTHOR]

Published

2024

155. The antioxidant effects of butylated hydroxytoluene on cryopreserved goat sperm from a proteomic perspective.

Author

Li, Chunyan, Allai, Larbi, Liang, Jiachong, Lv, Chunrong, Zhao, Xiaoqi, Ni, Xiaojun, Wu, Guoquan, Deng, Weidong, Badaoui, Bouabid, and Quan, Guobo

Subjects

BUTYLATED hydroxytoluene, SEMEN analysis, GOATS, REACTIVE oxygen species, RENIN-angiotensin system, FROZEN semen, SPERMATOZOA, CRYOPROTECTIVE agents

Abstract

At present, there are few reports about the proteomics changes provoked by butylated hydroxytoluene (BHT) supplementation on cryopreserved semen in mammals. Thus, we aimed to evaluate the effects of different concentrations of BHT on goat sperm and to investigate the proteomics changes of adding BHT to cryopreserved goat (Capra hircus) sperm. Firstly, semen samples were collected from four goats, and frozen in the basic extenders containing different concentrations of BHT (0.5 mM, 1.0 mM, 2.0 mM) and a control without BHT, respectively. After thawing, the protective effects of dose-dependent replenished BHT to the freezing medium on post-thaw sperm motility, integrities of plasma membrane and acrosome, reactive oxygen species levels were confirmed, with 0.5 mM BHT being the best (B group) as compared to the control (without BHT, C group). Afterwards, TMT-based quantitative proteomic technique was performed to profile proteome of the goat sperm between C group and B group. Parallel reaction monitoring was used to confirm reliability of the data. Overall, 2,476 proteins were identified and quantified via this approach. Comparing the C and B groups directly (C vs. B), there were 17 differentially abundant proteins (DAPs) po-tentially associated with sperm characteristics and functions were identified, wherein three were upregulated and 14 were downregulated, respectively. GO annotation analysis demonstrated the potential involvement of the identified DAPs in metabolic process, multi-organism process, reproduction, reproductive process, and cellular process. KEGG enrichment analysis further indicated their potential roles in renin-angiotensin system and glutathione metabolism pathways. Together, this novel study clearly shows that BHT can effectively improve quality parameters and fertility potential of post-thawed goat sperm at the optimal concentration, and its cryoprotection may be realized through regulation of sperm metabolism and antioxidative capability from the perspective of sperm proteomic modification. [ABSTRACT FROM AUTHOR]

Published

2024

156. Integrating physiological and multi-omics methods to elucidate heat stress tolerance for sustainable rice production.

Author

Singh, Shilpy, Praveen, Afsana, Dudha, Namrata, and Bhadrecha, Pooja

Abstract

Heat stress presents unique challenges compared to other environmental stressors, as predicting crop responses and understanding the mechanisms for heat tolerance are complex tasks. The escalating impact of devastating climate changes heightens the frequency and intensity of heat stresses, posing a noteworthy threat to global agricultural productivity, especially in rice-dependent regions of the developing world. Humidity has been demonstrated to negatively affect rice yields worldwide. Plants have evolved intricate biochemical adaptations, involving intricate interactions among genes, proteins, and metabolites, to counter diverse external signals and ensure their survival. Modern-omics technologies, encompassing transcriptomics, metabolomics, and proteomics, have revolutionized our comprehension of the intricate biochemical and cellular shifts that occur in stressed agricultural plants. Integrating these multi-omics approaches offers a comprehensive view of cellular responses to heat stress and other challenges, surpassing the insights gained from multi-omics analyses. This integration becomes vital in developing heat-tolerant crop varieties, which is crucial in the face of increasingly unpredictable weather patterns. To expedite the development of heat-resistant rice varieties, aiming at sustainability in terms of food production and food security globally, this review consolidates the latest peer-reviewed research highlighting the application of multi-omics strategies. [ABSTRACT FROM AUTHOR]

Published

2024

157. Proteomics in Patients with Fibromyalgia Syndrome: A Systematic Review of Observational Studies.

Author

Gkouvi, Arriana, Tsiogkas, Sotirios G., Bogdanos, Dimitrios P., Gika, Helen, Goulis, Dimitrios G., and Grammatikopoulou, Maria G.

Abstract

Purpose of Review: Fibromyalgia syndrome (FMS) is a disease of unknown pathophysiology, with the diagnosis being based on a set of clinical criteria. Proteomic analysis can provide significant biological information for the pathophysiology of the disease but may also reveal biomarkers for diagnosis or therapeutic targets. The present systematic review aims to synthesize the evidence regarding the proteome of adult patients with FMS using data from observational studies. Recent Findings: An extensive literature search was conducted in MEDLINE/PubMed, CENTRAL, and clinicaltrials.gov from inception until November 2022. The study protocol was published in OSF. Two independent reviewers evaluated the studies and extracted data. The quality of studies was assessed using the modified Newcastle–Ottawa scale adjusted for proteomic research. Ten studies fulfilled the protocol criteria, identifying 3328 proteins, 145 of which were differentially expressed among patients with FMS against controls. The proteins were identified in plasma, serum, cerebrospinal fluid, and saliva samples. The control groups included healthy individuals and patients with pain (inflammatory and non-inflammatory). Summary: The most important proteins identified involved transferrin, α-, β-, and γ-fibrinogen chains, profilin-1, transaldolase, PGAM1, apolipoprotein-C3, complement C4A and C1QC, immunoglobin parts, and acute phase reactants. Weak correlations were observed between proteins and pain sensation, or quality of life scales, apart from the association of transferrin and a2-macroglobulin with moderate-to-severe pain sensation. The quality of included studies was moderate-to-good. FMS appears to be related to protein dysregulation in the complement and coagulation cascades and the metabolism of iron. Several proteins may be dysregulated due to the excessive oxidative stress response. [ABSTRACT FROM AUTHOR]

Published

2024

158. Proteomic investigations of dengue virus infection: key discoveries over the last 10 years.

Author

Hadpech, Sudarat and Thongboonkerd, Visith

Abstract

Introduction: Dengue virus (DENV) infection remains one of the most significant infectious diseases in humans. Several efforts have been made to address its molecular mechanisms. Over the last 10 years, proteomics has been widely applied to investigate various aspects of DENV infection. Areas covered: In this review, we briefly introduce common proteomics approaches using various mass spectrometric modalities followed by summarizing all the discoveries obtained from proteomic investigations of DENV infection over the last 10 years. These include the data on DENV-vector interactions and host responses to address the DENV biology and disease mechanisms. Moreover, applications of proteomics to disease prevention, diagnosis, vaccine design, development of anti-DENV agents and other new treatment strategies are discussed. Expert opinion: Despite efforts on disease prevention, DENV infection is still a significant global healthcare burden that affects the general population. As summarized herein, proteomic technologies with high-throughput capabilities have provided more in-depth details of protein dynamics during DENV infection. More extensive applications of proteomics and other powerful research tools would provide a promise to better cope and prevent this mosquito-borne infectious disease. [ABSTRACT FROM AUTHOR]

Published

2024

159. The extent of postpartum cardiac reverse remodeling is reflected in urine proteome.

Author

Ferreira, Ana F., Trindade, Fábio, Azevedo, Maria J., Morais, Juliana, Douché, Thibaut, Diaz, Sílvia O., Saraiva, Francisca A., Sousa, Carla, Machado, Ana P., Matondo, Mariette, Leite-Moreira, Adelino, Ramalho, Carla, Vitorino, Rui, Falcão-Pires, Inês, and Barros, António S.

Subjects

*BLOOD platelet aggregation, *SOMATOMEDIN, *PUERPERIUM, *URINE, *PREGNANT women, CARDIOVASCULAR disease related mortality

Abstract

The association of postpartum cardiac reverse remodeling (RR) with urinary proteome, particularly in pregnant women with cardiovascular (CV) risk factors who show long-term increased risk of cardiovascular disease and mortality is unknown. We aim to profile the urinary proteome in pregnant women with/without CV risk factors to identify proteins associated with postpartum RR. Our study included a prospective cohort of 32 healthy and 27 obese and/or hypertensive and/or diabetic pregnant women who underwent transthoracic echocardiography, pulse-wave-velocity, and urine collection at the 3rd trimester and 6 months postpartum. Shotgun HPLC–MS/MS profiled proteins. Generalized linear mixed-effects models were used to identify associations between urinary proteins and left ventricle mass (LVM), a surrogate of RR. An increase in arterial stiffness was documented from 3rd trimester to 6 months after delivery, being significantly elevated in women with CV risk factors. In addition, the presence of at least one CV risk factor was associated with worse LVM RR. We identified 6 and 11 proteins associated with high and low LVM regression, respectively. These proteins were functionally linked with insulin-like growth factor (IGF) transport and uptake regulation by IGF binding-proteins, platelet activation, signaling and aggregation and the immune system's activity. The concentration of IGF-1 in urine samples was associated with low LVM regression after delivery. Urinary proteome showed a predicting potential for identifying pregnant women with incomplete postpartum RR. [ABSTRACT FROM AUTHOR]

Published

2024

160. Polymorphism Pro64His within galectin-3 has functional consequences at proteome level in thyroid cells.

Author

Silvestri, Roberto, Zallocco, Lorenzo, Corrado, Alda, Ronci, Maurizio, Aceto, Romina, Ricci, Benedetta, Cipollini, Monica, Dell’Anno, Irene, De Simone, Chiara, De Marco, Giuseppina, Ferrarini, Eleonora, Beghelli, Daniela, Mazzoni, Maria Rosa, Lucacchini, Antonio, Gemignani, Federica, Giusti, Laura, and Landi, Stefano

Subjects

GENE expression, GALECTINS, GENETIC polymorphisms, SINGLE nucleotide polymorphisms, THYROID cancer, PROTEIN expression, PROTEOMICS

Abstract

Introduction: The single nucleotide polymorphism (SNP) rs4644 at codon 64 of galectin-3 (gal-3, gene name: LGALS3), specifying the variant proline (P64) to histidine (H64), is known to affect the protein’s functions and has been associated with the risk of several types of cancer, including differentiated thyroid carcinoma (DTC). Materials and methods: To deepen our understanding of the biological effects of this SNP, we analyzed the proteome of two isogenic cell lines (NC-P64 vs. NA-H64) derived from the immortalized non-malignant thyrocyte cell line Nthy-Ori, generated through the CRISPR-Cas9 technique to differ by rs4644 genotype. We compared the proteome of these cells to detect differentially expressed proteins and studied their proteome in relation to their transcriptome. Results: Firstly, we found, consistently with previous studies, that gal-3- H64 could be detected as a monomer, homodimer, and heterodimer composed of one cleaved and one uncleaved monomer, whereas gal-3- P64 could be found only as a monomer or uncleaved homodimer. Moreover, results indicate that rs4644 influences the expression of several proteins, predominantly upregulated in NA-H64 cells. Overall, the differential protein expression could be attributed to the altered mRNA expression, suggesting that rs4644 shapes the function of gal-3 as a transcriptional co-regulator. However, this SNP also appeared to affect post-transcriptional regulatory mechanisms for proteins whose expression was oppositely regulated compared to mRNA expression. It is conceivable that the rs4644-dependent activities of gal-3 could be ascribed to the different modalities of self-dimerization. Conclusion: Our study provided further evidence that rs4644 could affect the gal-3 functions through several routes, which could be at the base of differential susceptibility to diseases, as reported in case-control association studies. [ABSTRACT FROM AUTHOR]

Published

2024

161. The use of omics technologies in creating LBP and postbiotics based on the Limosilactobacillus fermentum U-21.

Author

Odorskaya, Maya V., Mavletova, Dilara A., Nesterov, Andrey A., Tikhonova, Olga V., Soloveva, Natalia A., Reznikova, Diana A., Galanova, Olesya O., Vatlin, Aleksey A., Slynko, Nikolai M., Vasilieva, Asya R., Peltek, Sergey E., and Danilenko, Valery N.

Subjects

NIACIN, MOLECULAR chaperones, HUMAN microbiota, NON-coding RNA, NEURODEGENERATION, THIOREDOXIN

Abstract

In recent years, there has been an increasing tendency to create drugs based on certain commensal bacteria of the human microbiota and their ingredients, primarily focusing on live biotherapeutics (LBPs) and postbiotics. The creation of such drugs, termed pharmacobiotics, necessitates an understanding of their mechanisms of action and the identification of pharmacologically active ingredients that determine their target properties. Typically, these are complexes of biologically active substances synthesized by specific strains, promoted as LBPs or postbiotics (including vesicles): proteins, enzymes, low molecular weight metabolites, small RNAs, etc. This study employs omics technologies, including genomics, proteomics, and metabolomics, to explore the potential of Limosilactobacillus fermentum U-21 for innovative LBP and postbiotic formulations targeting neuroinflammatory processes. Proteomic techniques identified and quantified proteins expressed by L. fermentum U-21, highlighting their functional attributes and potential applications. Key identified proteins include ATP-dependent Clp protease (ClpL), chaperone protein DnaK, protein GrpE, thioredoxin reductase, LysM peptidoglycan-binding domaincontaining protein, and NlpC/P60 domain-containing protein, which have roles in disaggregase, antioxidant, and immunomodulatory activities. Metabolomic analysis provided insights into small-molecule metabolites produced during fermentation, revealing compounds with anti-neuroinflammatory activity. Significant metabolites produced by L. fermentum U-21 include GABA (γ-aminobutyric acid), niacin, aucubin, and scyllo-inositol. GABA was found to stabilize neuronal activity, potentially counteracting neurodegenerative processes. Niacin, essential for optimal nervous system function, was detected in vesicles and culture fluid, and it modulates cytokine production, maintaining immune homeostasis. Aucubin, an iridoid glycoside usually secreted by plants, was identified as having antioxidant properties, addressing issues of bioavailability for therapeutic use. Scyllo-inositol, identified in vesicles, acts as a chemical chaperone, reducing abnormal protein clumps linked to neurodegenerative diseases. These findings demonstrate the capability of L. fermentum U-21 to produce bioactive substances that could be harnessed in the development of pharmacobiotics for neurodegenerative diseases, contributing to their immunomodulatory, anti-neuroinflammatory, and neuromodulatory activities. Data of the HPLC-MS/MS analysis are available via ProteomeXchange with identifier PXD050857. [ABSTRACT FROM AUTHOR]

Published

2024

162. Insights into the biodegradation of pentachlorobiphenyl by Microbacterium paraoxydans: proteomic and metabolomic studies.

Author

Lei Ji, Xiaoyu Chang, Leilei Wang, Xiaowen Fu, Wenkai Lai, Liwen Zheng, Qi Li, Yingna Xing, Zhongfeng Yang, Yuyao Guan, and Fenglong Yang

Subjects

MICROBACTERIUM, PROTEOMICS, CARRIER proteins, ENDOENZYMES, METABOLOMICS, PEPTIDASE

Abstract

Bacterial degradation mechanism for high chlorinated pentachlorobiphenyl (PentaCB) with worse biodegradability has not been fully elucidated, which could limit the full remediation of environments aicted by the complex pollution of polychlorinated biphenyls (PCBs). In this research, a new PentaCB-degrading bacterium Microbacterium paraoxydans that has not been reported was obtained using enzymatic screening method. The characteristics of its intracellular enzymes, proteome and metabolome variation during PentaCB degradation were investigated systematically compared to non-PentaCB conditions. The findings indicate that the degradation rate of PentaCB (1 mg/L) could reach 23.9% within 4 hours and achieve complete degradation within 12 hours, with the mixture of intracellular enzymes being most eective at a pH of 6.0. During the biodegradation of PentaCB, the 12 up-regulated proteins characterized included ABC transporter PentaCB-binding protein, translocase protein TatA, and signal peptidase I (SPase I), indicating the presence of functional proteins for PentaCB degradation in both the cytoplasm and the outer surface of the cytoplasmic membrane. Furthermore, five dierentially enriched metabolites were strongly associated with the aforementioned proteins, especially the up-regulated 1, 2, 4-benzenetriol which feeds into multiple degradation pathways of benzoate, chlorocyclohexane, chlorobenzene and aminobenzoate. These relevant results help to understand and speculate the complex mechanisms regarding PentaCB degradation by M. paraoxydans, which have both theoretical and practical implications for PCB bioremediation [ABSTRACT FROM AUTHOR]

Published

2024

163. Hearing loss and its association with the proteome of perilymph, cerebrospinal fluid, and tumor tissue in patients with vestibular schwannoma.

Author

Edvardsson Rasmussen, Jesper, Li, Peng, Laurell, Göran, Bergquist, Jonas, and Eriksson, Per Olof

Subjects

*ACOUSTIC neuroma, *CEREBROSPINAL fluid examination, *HEARING disorders, *CEREBROSPINAL fluid, *EAR, *TANDEM mass spectrometry, *FALSE discovery rate

Abstract

This study examined the association between hearing loss in sporadic vestibular schwannoma patients and the proteome of perilymph (PL), cerebrospinal fluid (CSF), and vestibular schwannoma. Intraoperative sampling of PL and of CSF, and biopsy of vestibular schwannoma tissue, was performed in 32, 32, and 20 patients with vestibular schwannoma, respectively. Perilymph and CSF in three patients with meningioma and normal hearing were also sampled. The proteomes were identified by liquid chromatography coupled to high-resolution tandem mass spectrometry. Preoperative hearing function of the patients was evaluated with pure tone audiometry, with mean values at frequencies of 500, 1000, 2000, and 4000 Hz (PTA4) in the tumor-affected ear used to delineate three hearing groups. Analysis of the PL samples revealed significant upregulation of complement factor H-related protein 2 (CFHR2) in patients with severe to profound hearing loss after false discovery rate correction. Pathway analysis of biofunctions revealed higher activation scores in the severe/profound hearing loss group of leukocyte migration, viral infection, and migration of cells in PL. Upregulation of CFHR2 and activation of these pathways indicate chronic inflammation in the cochlea of vestibular schwannoma patients with severe to profound hearing loss compared with patients with normal hearing or mild hearing loss. [ABSTRACT FROM AUTHOR]

Published

2024

164. Identification of novel therapeutic targets for chronic kidney disease and kidney function by integrating multi-omics proteome with transcriptome.

Author

Si, Shucheng, Liu, Hongyan, Xu, Lu, and Zhan, Siyan

Subjects

*CHRONIC kidney failure, *KIDNEY physiology, *KIDNEY diseases, *PROTEOMICS, *MULTIOMICS, *DRUG target, *INHIBIN, *GENETIC code

Abstract

Background: Chronic kidney disease (CKD) is a progressive disease for which there is no effective cure. We aimed to identify potential drug targets for CKD and kidney function by integrating plasma proteome and transcriptome. Methods: We designed a comprehensive analysis pipeline involving two-sample Mendelian randomization (MR) (for proteins), summary-based MR (SMR) (for mRNA), and colocalization (for coding genes) to identify potential multi-omics biomarkers for CKD and combined the protein–protein interaction, Gene Ontology (GO), and single-cell annotation to explore the potential biological roles. The outcomes included CKD, extensive kidney function phenotypes, and different CKD clinical types (IgA nephropathy, chronic glomerulonephritis, chronic tubulointerstitial nephritis, membranous nephropathy, nephrotic syndrome, and diabetic nephropathy). Results: Leveraging pQTLs of 3032 proteins from 3 large-scale GWASs and corresponding blood- and tissue-specific eQTLs, we identified 32 proteins associated with CKD, which were validated across diverse CKD datasets, kidney function indicators, and clinical types. Notably, 12 proteins with prior MR support, including fibroblast growth factor 5 (FGF5), isopentenyl-diphosphate delta-isomerase 2 (IDI2), inhibin beta C chain (INHBC), butyrophilin subfamily 3 member A2 (BTN3A2), BTN3A3, uromodulin (UMOD), complement component 4A (C4a), C4b, centrosomal protein of 170 kDa (CEP170), serologically defined colon cancer antigen 8 (SDCCAG8), MHC class I polypeptide-related sequence B (MICB), and liver-expressed antimicrobial peptide 2 (LEAP2), were confirmed. To our knowledge, 20 novel causal proteins have not been previously reported. Five novel proteins, namely, GCKR (OR 1.17, 95% CI 1.10–1.24), IGFBP-5 (OR 0.43, 95% CI 0.29–0.62), sRAGE (OR 1.14, 95% CI 1.07–1.22), GNPTG (OR 0.90, 95% CI 0.86–0.95), and YOD1 (OR 1.39, 95% CI 1.18–1.64,) passed the MR, SMR, and colocalization analysis. The other 15 proteins were also candidate targets (GATM, AIF1L, DQA2, PFKFB2, NFATC1, activin AC, Apo A-IV, MFAP4, DJC10, C2CD2L, TCEA2, HLA-E, PLD3, AIF1, and GMPR1). These proteins interact with each other, and their coding genes were mainly enrichment in immunity-related pathways or presented specificity across tissues, kidney-related tissue cells, and kidney single cells. Conclusions: Our integrated analysis of plasma proteome and transcriptome data identifies 32 potential therapeutic targets for CKD, kidney function, and specific CKD clinical types, offering potential targets for the development of novel immunotherapies, combination therapies, or targeted interventions. [ABSTRACT FROM AUTHOR]

Published

2024

165. Quantitative proteomics reveals cellular responses to individual mAb expression and tunicamycin in CHO cells.

Author

Sulaj, Eldi, Schwaigerlehner, Linda, Sandell, Felix L., Dohm, Juliane C., Marzban, Gorji, and Kunert, Renate

Subjects

*CHO cell, *TUNICAMYCIN, *UNFOLDED protein response, *PROTEOMICS, *PHARMACEUTICAL biotechnology industry, *PROTEIN folding

Abstract

Chinese hamster ovary (CHO) cells are popular in the pharmaceutical industry for their ability to produce high concentrations of antibodies and their resemblance to human cells in terms of protein glycosylation patterns. Current data indicate the relevance of CHO cells in the biopharmaceutical industry, with a high number of product commendations and a significant market share for monoclonal antibodies. To enhance the production capabilities of CHO cells, a deep understanding of their cellular and molecular composition is crucial. Genome sequencing and proteomic analysis have provided valuable insights into the impact of the bioprocessing conditions, productivity, and product quality. In our investigation, we conducted a comparative analysis of proteomic profiles in high and low monoclonal antibody–producing cell lines and studied the impact of tunicamycin (TM)-induced endoplasmic reticulum (ER) stress. We examined the expression levels of different proteins including unfolded protein response (UPR) target genes by using label-free quantification techniques for protein abundance. Our results show the upregulation of proteins associated with protein folding mechanisms in low producer vs. high producer cell line suggesting a form of ER stress related to specific protein production. Further, Hspa9 and Dnaja3 are notable candidates activated by the mitochondria UPR and play important roles in protein folding processes in mitochondria. We identified significant upregulation of Nedd8 and Lgmn proteins in similar levels which may contribute to UPR stress. Interestingly, the downregulation of Hspa5/Bip and Pdia4 in response to tunicamycin treatment suggests a low-level UPR activation. Key points: • Proteome profiling of recombinant CHO cells under mild TM treatment. • Identified protein clusters are associated with the unfolded protein response (UPR). • The compared cell lines revealed noticeable disparities in protein expression levels. [ABSTRACT FROM AUTHOR]

Published

2024

166. Comparative Analysis of mRNA, microRNA of Transcriptome, and Proteomics on CIK Cells Responses to GCRV and Aeromonas hydrophila.

Author

Li, Xike, Lin, Yue, Li, Wenjuan, Cheng, Yuejuan, Zhang, Junling, Qiu, Junqiang, and Fu, Yuanshuai

Subjects

*CTENOPHARYNGODON idella, *AEROMONAS hydrophila, *PROTEOMICS, *TRANSCRIPTOMES, *MESSENGER RNA, *MICRORNA

Abstract

Grass Carp Reovirus (GCRV) and Aeromonas hydrophila (Ah) are the causative agents of haemorrhagic disease in grass carp. This study aimed to investigate the molecular mechanisms and immune responses at the miRNA, mRNA, and protein levels in grass carp kidney cells (CIK) infected by Grass Carp Reovirus (GCRV, NV) and Aeromonas hydrophilus (Bacteria, NB) to gain insight into their pathogenesis. Within 48 h of infection with Grass Carp Reovirus (GCRV), 99 differentially expressed microRNA (DEMs), 2132 differentially expressed genes (DEGs), and 627 differentially expressed proteins (DEPs) were identified by sequencing; a total of 92 DEMs, 3162 DEGs, and 712 DEPs were identified within 48 h of infection with Aeromonas hydrophila. It is worth noting that most of the DEGs in the NV group were primarily involved in cellular processes, while most of the DEGs in the NB group were associated with metabolic pathways based on KEGG enrichment analysis. This study revealed that the mechanism of a grass carp haemorrhage caused by GCRV infection differs from that caused by the Aeromonas hydrophila infection. An important miRNA–mRNA–protein regulatory network was established based on comprehensive transcriptome and proteome analysis. Furthermore, 14 DEGs and 6 DEMs were randomly selected for the verification of RNA/small RNA-seq data by RT-qPCR. Our study not only contributes to the understanding of the pathogenesis of grass carp CIK cells infected with GCRV and Aeromonas hydrophila, but also serves as a significant reference value for other aquatic animal haemorrhagic diseases. [ABSTRACT FROM AUTHOR]

Published

2024

167. Gene Expression Analysis of Yeast Strains with a Nonsense Mutation in the eRF3-Coding Gene Highlights Possible Mechanisms of Adaptation.

Author

Maksiutenko, Evgeniia M., Barbitoff, Yury A., Danilov, Lavrentii G., Matveenko, Andrew G., Zemlyanko, Olga M., Efremova, Elena P., Moskalenko, Svetlana E., and Zhouravleva, Galina A.

Subjects

*GENE expression, *NONSENSE mutation, *PROTEOMICS, *TRANSCRIPTION factors, *GENETIC mutation, *CELL cycle regulation

Abstract

In yeast Saccharomyces cerevisiae, there are two translation termination factors, eRF1 (Sup45) and eRF3 (Sup35), which are essential for viability. Previous studies have revealed that presence of nonsense mutations in these genes leads to amplification of mutant alleles (sup35-n and sup45-n), which appears to be necessary for the viability of such cells. However, the mechanism of this phenomenon remained unclear. In this study, we used RNA-Seq and proteome analysis to reveal the complete set of gene expression changes that occur during cellular adaptation to the introduction of the sup35-218 nonsense allele. Our analysis demonstrated significant changes in the transcription of genes that control the cell cycle: decreases in the expression of genes of the anaphase promoting complex APC/C (APC9, CDC23) and their activator CDC20, and increases in the expression of the transcription factor FKH1, the main cell cycle kinase CDC28, and cyclins that induce DNA biosynthesis. We propose a model according to which yeast adaptation to nonsense mutations in the translation termination factor genes occurs as a result of a delayed cell cycle progression beyond the G2-M stage, which leads to an extension of the S and G2 phases and an increase in the number of copies of the mutant sup35-n allele. [ABSTRACT FROM AUTHOR]

Published

2024

168. Chilling stress response in tobacco seedlings: insights from transcriptome, proteome, and phosphoproteome analyses.

Author

Xiuhong Shao, Zhenchen Zhang, Faheng Yang, Yongchao Yu, Junjie Guo, Jiqin Li, Tingyu Xu, and Xiaoying Pan

Subjects

CROPS, CARBON fixation, PROLINE metabolism, TRANSCRIPTOMES, STARCH metabolism, TOBACCO, SUCROSE, RNA metabolism

Abstract

Tobacco (Nicotiana tabacum L.) is an important industrial crop, which is sensitive to chilling stress. Tobacco seedlings that have been subjected to chilling stress readily flower early, which seriously affects the yield and quality of their leaves. Currently, there has been progress in elucidating the molecular mechanisms by which tobacco responds to chilling stress. However, little is known about the phosphorylation that is mediated by chilling. In this study, the transcriptome, proteome and phosphoproteome were analyzed to elucidate the mechanisms of the responses of tobacco shoot and root to chilling stress (4 °C for 24 h). A total of 6,113 differentially expressed genes (DEGs), 153 differentially expressed proteins (DEPs) and 345 differential phosphopeptides were identified in the shoot, and the corresponding numbers in the root were 6,394, 212 and 404, respectively. This study showed that the tobacco seedlings to 24 h of chilling stress primarily responded to this phenomenon by altering their levels of phosphopeptide abundance. Kyoto Encyclopedia of Genes and Genomes analyses revealed that starch and sucrose metabolism and endocytosis were the common pathways in the shoot and root at these levels. In addition, the differential phosphopeptide corresponding proteins were also significantly enriched in the pathways of photosynthesis-antenna proteins and carbon fixation in photosynthetic organisms in the shoot and arginine and proline metabolism, peroxisome and RNA transport in the root. These results suggest that phosphoproteins in these pathways play important roles in the response to chilling stress. Moreover, kinases and transcription factors (TFs) that respond to chilling at the levels of phosphorylation are also crucial for resistance to chilling in tobacco seedlings. The phosphorylation or dephosphorylation of kinases, such as CDPKs and RLKs; and TFs, including VIP1-like, ABI5-like protein 2, TCP7-like, WRKY 6-like, MYC2-like and CAMTA7 among others, may play essential roles in the transduction of tobacco chilling signal and the transcriptional regulation of the genes that respond to chilling stress. Taken together, these findings provide new insights into the molecular mechanisms and regulatory networks of the responses of tobacco to chilling stress. [ABSTRACT FROM AUTHOR]

Published

2024

169. Individualized lipid profile in urine-derived extracellular vesicles from clinical patients with Mycobacterium tuberculosis infections.

Author

Lingna Lyu, Hongyan Jia, Qiuyue Liu, Wenxia Ma, Zihui Li, Liping Pan, and Xiuli Zhang

Subjects

MYCOBACTERIUM tuberculosis, MYCOBACTERIAL diseases, EXTRACELLULAR vesicles, LATENT tuberculosis, LATENT infection, LIPOLYSIS, LIPIDS

Abstract

Background: Lipids are a key nutrient source for the growth and reproduction of Mycobacterium tuberculosis (Mtb). Urine-derived extracellular vesicles (EVs), because of its non-invasive sampling, lipid enrichment, and specific sorting character, have been recognized as a promising research target for biomarker discovery and pathogenesis elucidation in tuberculosis (TB). We aim to profile lipidome of Mtb-infected individuals, offer novel lipid signatures for the development of urine-based TB testing, and provide new insights into the lipid metabolism after Mtb infection. Methods: Urine-derived extracellular vesicles from 41 participants (including healthy, pulmonary tuberculosis, latent tuberculosis patients, and other lung disease groups) were isolated and individually detected using targeted lipidomics and proteomics technology platforms. Biomarkers were screened by multivariate and univariate statistical analysis and evaluated by SPSS software. Correlation analyses were performed on lipids and proteins using the R Hmisc package. Results: Overall, we identified 226 lipids belonging to 14 classes. Of these, 7 potential lipid biomarkers for TB and 6 for latent TB infection (LTBI) were identified, all of which were classified into diacylglycerol (DAG), monoacylglycerol (MAG), free fatty acid (FFA), and cholesteryl ester (CE). Among them, FFA (20:1) was the most promising biomarker target in diagnosing TB/LTBI from other compared groups and also have great diagnostic performance in distinguishing TB from LTBI with AUC of 0.952. In addition, enhanced lipolysis happened as early as individuals got latent Mtb infection, and ratio of raft lipids was gradually elevated along TB progression. Conclusion: This study demonstrated individualized lipid profile of urinary EVs in patients with Mtb infection, revealed novel potential lipid biomarkers for TB/LTBI diagnosis, and explored mechanisms by which EV lipid raft-dependent bio-processes might affect pathogenesis. It lays a solid foundation for the subsequent diagnosis and therapeutic intervention of TB. [ABSTRACT FROM AUTHOR]

Published

2024

170. Tear film proteome changes following Tobradex® therapy in anterior blepharitis.

Author

Muttuvelu, Danson Vasanthan, Cehofski, Lasse Jørgensen, Utheim, Tor Paaske, Chen, Xiangjun, Vorum, Henrik, Rasmussen, Marie Louise Roed, Heegaard, Steffen, Khan, Asif Manzoor, Abduljabar, Ahmed Basim, and Honoré, Bent

Subjects

*RIBOSOMAL proteins, *TEARS (Body fluid), *LIQUID chromatography-mass spectrometry, *BLEPHARITIS, *PYRUVATE kinase, *CYTOPLASMIC filaments

Abstract

Purpose: The management of blepharitis continues to challenge clinicians due to the poorly understood aetiology of the condition. We recently identified the family of intracellular plakin proteins as essential driving forces underlying anterior blepharitis. A large‐scale protein analysis was used to study if a topical dexamethasone/tobramycin solution could be used to reverse the expression of plakin proteins. Methods: Tear film samples from treatment naïve patients with anterior blepharitis (n = 15) were collected with Schirmer filtration paper. A subgroup of the patients (n = 10) received treatment with a dexamethasone/tobramycin 1 + 3 mg/mL ophthalmic suspension (Tobradex®) for 3 weeks and collection of tear film samples was repeated. The samples were analysed with label‐free quantification nano liquid chromatography–tandem mass spectrometry requiring quantification in at least 70% of the samples in each group. Proteins were considered differentially expressed if p < 0.05. Results: Following Tobradex® intervention, 27 proteins were upregulated while 61 proteins were downregulated. Regulated proteins after Tobradex® treatment were involved in intermediate filament cytoskeleton organization including downregulation of the plakin proteins envoplakin, epiplakin and periplakin. Plectin, a protein of the plakin family, remained unchanged after Tobradex® therapy. Tobradex® treatment resulted in the regulation of proteins involved in translation including a cluster of downregulated ribosomal proteins. Tobradex® intervention was associated with the regulation of proteins involved in fructose metabolism and glycolytic processes including fructose‐1.6‐bisphosphatase 1, fructose‐bisphosphate aldolases A and B, pyruvate kinase PKM and transketolase. Ig lambda chain V‐I region, prominin‐1, and protein Niban were upregulated after Tobradex® treatment. Conclusions: Tobradex treatment reversed the expression of plakin proteins in anterior blepharitis. Topical solutions which inhibit the expression of plakin proteins may have the potential to restore the ocular surface integrity in anterior blepharitis and should be explored further. [ABSTRACT FROM AUTHOR]

Published

2024

171. Evaluation of Superoxide Dismutase Isoforms Activity and Defense System-Related Proteins' Expression in Ascochyta Blight-Infected Chickpea Using 2D Electrophoresis Technique.

Author

Shafiei, Y., Golfazani, M. Mohsenzadeh, Mostafaie, A., Taghvaei, M. M., Lahiji, H. Samizadeh, and Raza, A.

Subjects

*SUPEROXIDE dismutase, *CHICKPEA, *METHIONINE sulfoxide reductase, *PROTEOMICS, *ASCOCHYTA rabiei, *PROTEIN expression

Abstract

Fungal diseases are crucial factors in reducing chickpea production. Ascochyta Blight is caused by the necrotrophic fungi Didymella rabiei and is one of the most destructive diseases in most world areas. Therefore, a completely randomized factorial design with five replications was applied to evaluate the effects of Ascochyta Blight disease fungi on the chickpea plant. The chlorophyll index, the activities of superoxide dismutase isoforms, and evolutionary analyses were performed to get further insights. Also, 2D electrophoresis of chickpea leaf proteins, gene ontology, and protein-protein interactions analysis was performed. The results did not show any significant effect of A. rabiei infection on the wet weight of chickpea seedlings. Chlorophyll index levels significantly decreased with A. rabiei infection in both chickpea lines. Electrophoretic analysis of superoxide dismutase on 8% polyacrylamide gel revealed three isoforms. The activities of superoxide dismutase isoforms significantly increased with A. rabiei disease. Identification of proteins was performed according to their isoelectric points and approximate molecular weights. Leaf proteome analysis of chickpea lines showed that the expression of eight reproducible spots changed significantly under A. rabiei disease condition. Candidate proteins were components of defense and regulation systems. High expression of Dual specificity protein, Peptide methionine sulfoxide reductase B2, and chloroplastic phosphatase 1B (the proteins involved in the defense system) reveals their essential functions under A. rabiei infection. Increased activities of superoxide dismutase enzymes and proteins involved in the defense system can reduce A. rabiei infection effects on chickpea seedlings. [ABSTRACT FROM AUTHOR]

Published

2024

172. Welfare Assessment in Pigs Using the Salivary Proteome.

Author

Prims, Sara, Van Ginneken, Chris, Van Ostade, Xaveer, and Casteleyn, Christophe

Subjects

*SALIVARY proteins, *SALIVARY glands, *ODORANT-binding proteins, *HEAT shock proteins, *NASAL mucosa, *ANIMAL welfare, *PIGLETS, *SWINE

Abstract

Simple Summary: Piglets raised at a farm for meat production experience stress that affects their welfare. Recently, it has been demonstrated that several salivary proteins are up- or down-regulated in stressful situations. These could, therefore, be used as biomarkers for stress. This review revisits the definition of stress and defines the protein composition of porcine saliva to finally propose a panel of six salivary stress biomarkers. Identifying the potential presence of stress at the pig farm is fundamental since it affects pig welfare. As a result, a reliable and straightforward tool to monitor stress could record the welfare status of the animals. Although numerous methods to assess the welfare of pigs have been developed in the past, no gold standard has been established yet. Recently, the value of saliva as a tool to identify chronic stress in piglets was explored, as it can be collected fast and non-invasively. Since the protein composition, i.e., the proteome of porcine saliva, responds to stress, the affected proteins could be used as salivary stress biomarkers. The present review first defines stress and its relationship with welfare. Next, the porcine gland-specific salivary proteome is characterized. Finally, six potential salivary biomarkers for stress are proposed, i.e., odorant-binding protein, vomeromodulin-like protein, chitinase, lipocalin-1, long palate lung and nasal epithelium protein, and alpha-2-HS-glycoprotein. [ABSTRACT FROM AUTHOR]

Published

2024

173. Effect of Hydroxyurea on Morphology, Proliferation, and Protein Expression on Taenia crassiceps WFU Strain.

Author

Rios-Valencia, Diana G., Estrada, Karel, Calderón-Gallegos, Arturo, Tirado-Mendoza, Rocío, Bobes, Raúl J., Laclette, Juan P., and Cabrera-Bravo, Margarita

Subjects

*PROTEIN expression, *TAENIA, *HYDROXYUREA, *MORPHOLOGY, *SKELETAL muscle, *DNA damage

Abstract

Flatworms are known for their remarkable regenerative ability, one which depends on totipotent cells known as germinative cells in cestodes. Depletion of germinative cells with hydroxyurea (HU) affects the regeneration of the parasite. Here, we studied the reduction and recovery of germinative cells in T. crassiceps cysticerci after HU treatment (25 mM and 40 mM of HU for 6 days) through in vitro assays. Viability and morphological changes were evaluated. The recovery of cysticerci's mobility and morphology was evaluated at 3 and 6 days, after 6 days of treatment. The number of proliferative cells was evaluated using EdU. Our results show morphological changes in the size, shape, and number of evaginated cysticerci at the 40 mM dose. The mobility of cysticerci was lower after 6 days of HU treatment at both concentrations. On days 3 and 6 of recovery after 25 mM of HU treatment, a partial recovery of the proliferative cells was observed. Proteomic and Gene Ontology analyses identified modifications in protein groups related to DNA binding, DNA damage, glycolytic enzymes, cytoskeleton, skeletal muscle, and RNA binding. [ABSTRACT FROM AUTHOR]

Published

2024

174. How does ionizing radiation affect amyloidogenesis in plants?

Author

Kryvokhyzha, Maryna, Litvinov, Sergii, Danchenko, Maksym, Khudolieieva, Lidiia, Kutsokon, Nataliia, Baráth, Peter, and Rashydov, Namik

Subjects

*IONIZING radiation, *LIQUID chromatography-mass spectrometry, *DOSE-response relationship (Radiation), *CELL sheets (Biology), *AMINO acid metabolism, *PLANT proteins, *BABY foods

Abstract

Ionizing radiation is a harsh environmental factor that could induce plant senescence. We hypothesized that radiation-related senescence remodels proteome, particularly by triggering the accumulation of prion-like proteins in plant tissues. The object of this study, pea (Pisum sativum L.), is an agriculturally important legume. Research on the functional importance of amyloidogenic proteins was never performed on this species. Pea seeds were irradiated in the dose range 5–50 Gy of X-rays. Afterward, Fourier-transform infrared spectroscopy (FTIR) was used to investigate changes in the secondary structure of proteins in germinated 3-day-old seedlings. Specifically, we evaluated the ratio between the amide I and II peaks. Next, we performed protein staining with Congo red to compare the presence of amyloids in the samples. In parallel, we profiled the detergent-resistant proteome fraction by ultrahigh-performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS). Differentially accumulated proteins were functionally analyzed in MapMan software, and the PLAAC tool was used to predict putative prion-like proteins. We showed a reduced germination rate but higher plant height and faster appearance of reproductive organs in the irradiated at dose of 50 Gy group compared with the control; furthermore, we demonstrated more β-sheets and amyloid aggregates in the roots of stressed plants. We detected 531 proteins in detergent-resistant fraction extracted from roots, and 45 were annotated as putative prion-like proteins. Notably, 29 proteins were significantly differentially abundant between the irradiated and the control groups. These proteins belong to several functional categories: amino acid metabolism, carbohydrate metabolism, cytoskeleton organization, regulatory processes, protein biosynthesis, and RNA processing. Thus, the discovery proteomics provided deep data on novel aspects of plant stress biology. Our data hinted that protein accumulation stimulated seedlings' growth as well as accelerated ontogenesis and, eventually, senescence, primarily through translation and RNA processing. The increased abundance of primary metabolism-related proteins indicates more intensive metabolic processes triggered in germinating pea seeds upon X-ray exposure. The functional role of detected putative amyloidogenic proteins should be validated in overexpression or knockout follow-up studies. [ABSTRACT FROM AUTHOR]

Published

2024

175. Neuroprotective mushrooms.

Author

Abdelmoaty, Mai M., Kadry, Rana, Mosley, R. Lee, and Gendelman, Howard E.

Subjects

*TERPENES, *UNFOLDED protein response, *EDIBLE mushrooms, *MUSHROOMS, *MITOCHONDRIAL proteins, *NEUROPROTECTIVE agents

Abstract

Alternative medicines commonly supplement or, at times, replace standard medical treatment. One area of increasing attention is disease-modifying medicines for neurodegenerative diseases. However, few such alternatives have been investigated thoroughly with an eye towards understanding mechanisms of action for clinical use. Medicinal mushrooms have important health benefits and pharmacological activities with anti-inflammatory, antioxidant, antibacterial, antiviral, immunomodulatory, digestive, cytoprotective, homeostatic, and neuroprotective activities. Edible mushrooms are known to play roles in preventing age-related diseases. Several studies have revealed that polysaccharides, terpenes, and phenolic compounds are chemical components derived from mushrooms with pharmacological activities. Due to limited effective protocols for mushroom protein extraction for proteomic studies, information about these medicinally related proteins and their biological functions remains enigmatic. Herein, we have performed proteomic studies of two mushroom species Laricifomes officinalis (agarikon) and Grifola frondosa (maitake). These studies serve to uncover a foundation for putative proteome-associated neuroprotective processes. The recovered proteins from both species show multiple cell-specific signaling pathways including unfolded protein response, and mitochondrial protein import as well as those linked to BAG2, ubiquitination, apoptosis, microautophagy, glycolysis, SNARE, and immunogenic cell signaling pathways. This study uncovered mushroom proteome-associated proteins which serve to better understand the structural and functional properties of mushrooms used as alternative medicines for broad potential health benefits. [ABSTRACT FROM AUTHOR]

Published

2024

176. Comprehensive Transcriptome and Proteome Analyses Reveal the Drought Responsive Gene Network in Potato Roots.

Author

Qin, Tianyuan, Wang, Yihao, Pu, Zhuanfang, Shi, Ningfan, Dormatey, Richard, Wang, Huiqiong, and Sun, Chao

Subjects

DROUGHT tolerance, PROTEOMICS, GENE regulatory networks, KREBS cycle, DROUGHTS, ROOT development, POTATOES

Abstract

The root system plays a decisive role in the growth and development of plants. The water requirement of a root system depends strongly on the plant species. Potatoes are an important food and vegetable crop grown worldwide, especially under irrigation in arid and semi-arid regions. However, the expected impact of global warming on potato yields calls for an investigation of genes related to root development and drought resistance signaling pathways in potatoes. In this study, we investigated the molecular mechanisms of different drought-tolerant potato root systems in response to drought stress under controlled water conditions, using potato as a model. We analyzed the transcriptome and proteome of the drought-sensitive potato cultivar Atlantic (Atl) and the drought-tolerant cultivar Qingshu 9 (Q9) under normal irrigation (CK) and weekly drought stress (D). The results showed that a total of 14,113 differentially expressed genes (DEGs) and 5596 differentially expressed proteins (DEPs) were identified in the cultivars. A heat map analysis of DEGs and DEPs showed that the same genes and proteins in Atl and Q9 exhibited different expression patterns under drought stress. Weighted gene correlation network analysis (WGCNA) showed that in Atl, Gene Ontology (GO) terms and Kyoto Encyclopedia of Genes and Genomes (KEGG)-enriched pathways were related to pyruvate metabolism and glycolysis, as well as cellular signaling and ion transmembrane transporter protein activity. However, GO terms and KEGG-enriched pathways related to phytohormone signaling and the tricarboxylic acid cycle were predominantly enriched in Q9. The present study provides a unique genetic resource to effectively explore the functional genes and uncover the molecular regulatory mechanism of the potato root system in response to drought stress. [ABSTRACT FROM AUTHOR]

Published

2024

177. 基于多组学联用的活鱼暂养及运输应激研究进展.

Author

岑剑伟, 陈 琛, 姚世鹏, 黄 卉, 郝淑贤, 魏 涯, 杨少玲, 何静怡, and 王 田

Abstract

Copyright of South China Fisheries Science is the property of South China Fisheries Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

178. Serum proteomics study on cognitive impairment after cardiac valve replacement surgery: a prospective observational study.

Author

Ma, Huanhuan, Wei, Yiyong, Chen, Wei, Chen, Song, Wang, Yan, Cao, Song, and Wang, Haiying

Subjects

HEART valves, PROPENSITY score matching, NEUROBEHAVIORAL disorders, HEAT shock proteins, CARDIOPULMONARY bypass

Abstract

Objective: The incidence of perioperative neurocognitive disorders (PND) is high, especially after cardiac surgeries, and the underlying mechanisms remain elusive. Here, we conducted a prospective observational study to observe serum proteomics differences in PND patients after cardiac valve replacement surgery. Methods: Two hundred and twenty-six patients who underwent cardiac valve surgery were included. They were categorized based on scoring into non-PND group (group non-P) and PND group (group P'). The risk factors associated with PND were analyzed. These patients were further divided into group C and group P by propensity score matching (PSM) to investigate the serum proteome related to the PND by serum proteomics. Results: The postoperative 6-week incidence of PND was 16.8%. Risk factors for PND include age, chronic illness, sufentanil dosage, and time of cardiopulmonary bypass (CPB). Proteomics identified 31 down-regulated proteins and six up-regulated proteins. Finally, GSTO1, IDH1, CAT, and PFN1 were found to be associated with PND. Conclusion: The occurrence of PND can impact some oxidative stress proteins. This study provided data for future studies about PND to general anaesthesia and surgeries. [ABSTRACT FROM AUTHOR]

Published

2024

179. Proteome Analysis Related to Unsaturated Fatty Acid Synthesis by Interfering with Bovine Adipocyte ACSL1 Gene.

Author

Bai, Yanbin, Li, Jingsheng, Wei, Yali, Chen, Zongchang, Liu, Zhanxin, Guo, Dashan, Jia, Xue, Niu, Yanmei, Shi, Bingang, Zhang, Xiaolan, Zhao, Zhidong, Hu, Jiang, Han, Xiangmin, Wang, Jiqing, Liu, Xiu, and Li, Shaobin

Subjects

UNSATURATED fatty acids, SMALL interfering RNA, RNA interference, LINCRNA, ADIPOGENESIS, BOS, PROTEOMICS

Abstract

Unsaturated fatty acids (UFAs) in beef play a vital role in promoting human health. Long-chain fatty acyl-CoA synthase 1 (ACSL1) is a crucial gene for UFA synthesis in bovine adipocytes. To investigate the protein expression profile during UFA synthesis, we performed a proteomic analysis of bovine adipocytes by RNA interference and non-interference with ACSL1 using label-free techniques. A total of 3558 proteins were identified in both the NC and si-treated groups, of which 1428 were differentially expressed proteins (DEPs; fold change ≥ 1.2 or ≤ 0.83 and p-value < 0.05). The enrichment analysis of the DEPs revealed signaling pathways related to UFA synthesis or metabolism, including cAMP, oxytocin, fatty acid degradation, glycerol metabolism, insulin, and the regulation of lipolysis in adipocytes (p-value < 0.05). Furthermore, based on the enrichment analysis of the DEPs, we screened 50 DEPs that potentially influence the synthesis of UFAs and constructed an interaction network. Moreover, by integrating our previously published transcriptome data, this study established a regulatory network involving differentially expressed long non-coding RNAs (DELs), highlighting 21 DEPs and 13 DELs as key genes involved in UFA synthesis. These findings present potential candidate genes for further investigation into the molecular mechanisms underlying UFA synthesis in bovines, thereby offering insights to enhance the quality of beef and contribute to consumer health in future studies. [ABSTRACT FROM AUTHOR]

Published

2024

180. Pinctada martensii Hydrolysate Modulates the Brain Neuropeptidome and Proteome in Diabetic (db/db) Mice via the Gut–Brain Axis.

Author

Li, Jiayun, Lv, Yijun, Wei, Yuanqing, Wang, Xinzhi, Yan, Shenghan, Zhao, Binyuan, Sun, Jipeng, Liu, Rui, and Lai, Yueyang

Abstract

Pinctada martensii hydrolysate (PMH) has been proved to have the effect of ameliorating disorders of glucose and lipid metabolism in db/db mice, but the mechanism of its hyperglycemia effect is still unclear. Bacterial communities in fecal samples from a normal control group, a diabetic control group, and a PMH-treated diabetes mellitus type 2 (T2DM) group were analyzed by 16S gene sequencing. Nano LC-MS/MS was used to analyze mice neuropeptides and proteomes. The 16S rDNA sequencing results showed that PMH modulated the structure and composition of the gut microbiota and improved the structure and composition of Firmicutes and Bacteroidetes at the phylum level and Desulfovibrionaceae and Erysipelatoclostridiaceae at the family level. Furthermore, the expressions of functional proteins of the central nervous system, immune response-related protein, and proteins related to fatty acid oxidation in the brain disrupted by an abnormal diet were recovered by PMH. PMH regulates the brain neuropeptidome and proteome and further regulates blood glucose in diabetic mice through the gut–brain axis. PMH may be used as a prebiotic agent to attenuate T2DM, and target-specific microbial species may have unique therapeutic promise for metabolic diseases. [ABSTRACT FROM AUTHOR]

Published

2024

181. Blood Proteome Profiling Reveals Biomarkers and Pathway Alterations in Fragile X PM at Risk for Developing FXTAS.

Author

Zafarullah, Marwa, Li, Jie, Salemi, Michelle, Durbin-Johnson, Blythe, Hessl, David, Rivera, Susan, Hagerman, Randi, Tassone, Flora, and Phinney, Brett

Subjects

FXTAS, biomarker, blood proteomic, fragile X-associated tremor/ataxia syndrome, pathways, premutation, protein alterations, Humans, Chromatography, Liquid, Longitudinal Studies, Proteome, Proteomics, Tandem Mass Spectrometry, Tremor, Biomarkers, Fragile X Mental Retardation Protein

Abstract

Fragile X-associated Tremor/Ataxia Syndrome (FXTAS) is a neurodegenerative disorder associated with the FMR1 premutation. Currently, it is not possible to determine when and if individual premutation carriers will develop FXTAS. Thus, with the aim to identify biomarkers for early diagnosis, development, and progression of FXTAS, along with associated dysregulated pathways, we performed blood proteomic profiling of premutation carriers (PM) who, as part of an ongoing longitudinal study, emerged into two distinct groups: those who developed symptoms of FXTAS (converters, CON) over time (at subsequent visits) and those who did not (non-converters, NCON). We compared these groups to age-matched healthy controls (HC). We assessed CGG repeat allele size by Southern blot and PCR analysis. The proteomic profile was obtained by liquid chromatography mass spectrometry (LC-MS/MS). We identified several significantly differentiated proteins between HC and the PM groups at Visit 1 (V1), Visit 2 (V2), and between the visits. We further reported the dysregulated protein pathways, including sphingolipid and amino acid metabolism. Our findings are in agreement with previous studies showing that pathways involved in mitochondrial bioenergetics, as observed in other neurodegenerative disorders, are significantly altered and appear to contribute to the development of FXTAS. Lastly, we compared the blood proteome of the PM who developed FXTAS over time with the CSF proteome of the FXTAS patients recently reported and found eight significantly differentially expressed proteins in common. To our knowledge, this is the first report of longitudinal proteomic profiling and the identification of unique biomarkers and dysregulated protein pathways in FXTAS.

Published

2023

182. mTOR inhibition reprograms cellular proteostasis by regulating eIF3D-mediated selective mRNA translation and promotes cell phenotype switching.

Author

Shin, Sejeong, Han, Min-Joon, Jedrychowski, Mark, Zhang, Ziyang, Plas, David, Dephoure, Noah, Yoon, Sang-Oh, and Shokat, Kevan

Subjects

CP: Cell biology, CP: Molecular biology, eIF3D, eIF4E, mRNA translation, mTOR, proteome, proteostasis, RNA, Messenger, Proteostasis, Receptor, Insulin, TOR Serine-Threonine Kinases, Sirolimus, Protein Biosynthesis

Abstract

Cells maintain and dynamically change their proteomes according to the environment and their needs. Mechanistic target of rapamycin (mTOR) is a key regulator of proteostasis, homeostasis of the proteome. Thus, dysregulation of mTOR leads to changes in proteostasis and the consequent progression of diseases, including cancer. Based on the physiological and clinical importance of mTOR signaling, we investigated mTOR feedback signaling, proteostasis, and cell fate. Here, we reveal that mTOR targeting inhibits eIF4E-mediated cap-dependent translation, but feedback signaling activates a translation initiation factor, eukaryotic translation initiation factor 3D (eIF3D), to sustain alternative non-canonical translation mechanisms. Importantly, eIF3D-mediated protein synthesis enables cell phenotype switching from proliferative to more migratory. eIF3D cooperates with mRNA-binding proteins such as heterogeneous nuclear ribonucleoprotein F (hnRNPF), heterogeneous nuclear ribonucleoprotein K (hnRNPK), and Sjogren syndrome antigen B (SSB) to support selective mRNA translation following mTOR inhibition, which upregulates and activates proteins involved in insulin receptor (INSR)/insulin-like growth factor 1 receptor (IGF1R)/insulin receptor substrate (IRS) and interleukin 6 signal transducer (IL-6ST)/Janus kinase (JAK)/signal transducer and activator of transcription (STAT) signaling. Our study highlights the mechanisms by which cells establish the dynamic change of proteostasis and the resulting phenotype switch.

Published

2023

183. Cross-protein transfer learning substantially improves disease variant prediction.

Author

Jagota, Milind, Ye, Chengzhong, Albors, Carlos, Rastogi, Ruchir, Koehl, Antoine, Ioannidis, Nilah, and Song, Yun

Subjects

Humans, Proteome, Amino Acid Sequence, Mutation, Machine Learning, Mutation, Missense, Computational Biology

Abstract

BACKGROUND: Genetic variation in the human genome is a major determinant of individual disease risk, but the vast majority of missense variants have unknown etiological effects. Here, we present a robust learning framework for leveraging saturation mutagenesis experiments to construct accurate computational predictors of proteome-wide missense variant pathogenicity. RESULTS: We train cross-protein transfer (CPT) models using deep mutational scanning (DMS) data from only five proteins and achieve state-of-the-art performance on clinical variant interpretation for unseen proteins across the human proteome. We also improve predictive accuracy on DMS data from held-out proteins. High sensitivity is crucial for clinical applications and our model CPT-1 particularly excels in this regime. For instance, at 95% sensitivity of detecting human disease variants annotated in ClinVar, CPT-1 improves specificity to 68%, from 27% for ESM-1v and 55% for EVE. Furthermore, for genes not used to train REVEL, a supervised method widely used by clinicians, we show that CPT-1 compares favorably with REVEL. Our framework combines predictive features derived from general protein sequence models, vertebrate sequence alignments, and AlphaFold structures, and it is adaptable to the future inclusion of other sources of information. We find that vertebrate alignments, albeit rather shallow with only 100 genomes, provide a strong signal for variant pathogenicity prediction that is complementary to recent deep learning-based models trained on massive amounts of protein sequence data. We release predictions for all possible missense variants in 90% of human genes. CONCLUSIONS: Our results demonstrate the utility of mutational scanning data for learning properties of variants that transfer to unseen proteins.

Published

2023

184. Proteomic analyses of primary human villous trophoblasts exposed to flame retardant BDE-47 using SWATH-MS

Author

Chen, Hao, Williams, Katherine E, Kwan, Elaine Y, Kapidzic, Mirhan, Puckett, Kenisha A, San, Ali, Fisher, Susan J, and Robinson, Joshua F

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Clinical Research, Endocrine Disruptors, Women's Health, Social Determinants of Health, Biotechnology, Contraception/Reproduction, Pediatric, Perinatal Period - Conditions Originating in Perinatal Period, 2.1 Biological and endogenous factors, Generic health relevance, Reproductive health and childbirth, Humans, Pregnancy, Female, Placenta, Halogenated Diphenyl Ethers, Trophoblasts, Flame Retardants, Proteome, Proteomics, Flame retardants, Cytotrophoblasts, Pharmacology and Pharmaceutical Sciences, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

Polybrominated diphenyl ethers (PBDEs) are a class of brominated flame retardants and recognized developmental toxicants that are detectable in placental tissues. Higher levels of in utero PBDE exposure have been associated with an increased risk of adverse birth outcomes. During pregnancy, cytotrophoblasts (CTBs) from the placenta play critical roles in the formation of the maternal-fetal interface via uterine invasion and vascular remodeling. The differentiation of these cells towards an invasive phenotype is crucial for proper placental development. We previously have shown that BDE-47 can impact CTB viability and hinder the ability of these cells to migrate and invade. To expand on potential toxicological mechanisms, we utilized quantitative proteomic approaches to identify changes in the global proteome of mid-gestation primary human CTBs after exposure to BDE-47. Using sequential window acquisition of all theoretical fragment-ion spectra (SWATH), we identified 3024 proteins in our CTB model of differentiation/invasion. Over 200 proteins were impacted as a function of BDE-47 exposure (1 μM and 5 μM) across the treatment period (15, 24, and 39 h). The differentially expressed molecules displayed time- and concentration-dependent changes in expression and were enriched in pathways associated with aggregatory and adhesive processes. Network analysis identified CYFIP1, a molecule previously unexplored in a placental context, to be dysregulated at BDE-47 concentrations previously seen to impact CTB migration/invasion. Our SWATH-MS dataset thus demonstrates BDE-47 impacts the global proteome of differentiating CTBs and serves as a valuable resource for further understanding of the relationship between environmental chemical exposures and placental development and function. AVAILABILITY OF DATA AND MATERIAL: Raw chromatograms are deposited on the MassIVE proteomic database (https://massive.ucsd.edu) under accession number MSV000087870. Normalized relative abundances are also available as Table S1.

Published

2023

185. Considerations for reproducible omics in aging research.

Author

Benayoun, Bérénice and Singh, Param Priya

Subjects

Geroscience, Reproducibility of Results, Transcriptome, Metabolome, Proteome

Abstract

Technical advancements over the past two decades have enabled the measurement of the panoply of molecules of cells and tissues including transcriptomes, epigenomes, metabolomes and proteomes at unprecedented resolution. Unbiased profiling of these molecular landscapes in the context of aging can reveal important details about mechanisms underlying age-related functional decline and age-related diseases. However, the high-throughput nature of these experiments creates unique analytical and design demands for robustness and reproducibility. In addition, omic experiments are generally onerous, making it crucial to effectively design them to eliminate as many spurious sources of variation as possible as well as account for any biological or technical parameter that may influence such measures. In this Perspective, we provide general guidelines on best practices in the design and analysis of omic experiments in aging research from experimental design to data analysis and considerations for long-term reproducibility and validation of such studies.

Published

2023

186. Cellular Exposure to Chloroacetanilide Herbicides Induces Distinct Protein Destabilization Profiles.

Author

Quanrud, Guy, Lyu, Ziqi, Balamurugan, Sunil, Canizal, Carolina, Wu, Hoi-Ting, and Genereux, Joseph

Subjects

Humans, Proteome, Cysteine, HEK293 Cells, Herbicides, Nerve Tissue Proteins, Molecular Chaperones, HSP40 Heat-Shock Proteins

Abstract

Herbicides in the widely used chloroacetanilide class harbor a potent electrophilic moiety, which can damage proteins through nucleophilic substitution. In general, damaged proteins are subject to misfolding. Accumulation of misfolded proteins compromises cellular integrity by disrupting cellular proteostasis networks, which can further destabilize the cellular proteome. While direct conjugation targets can be discovered through affinity-based protein profiling, there are few approaches to probe how cellular exposure to toxicants impacts the stability of the proteome. We apply a quantitative proteomics methodology to identify chloroacetanilide-destabilized proteins in HEK293T cells based on their binding to the H31Q mutant of the human Hsp40 chaperone DNAJB8. We find that a brief cellular exposure to the chloroacetanilides acetochlor, alachlor, and propachlor induces misfolding of dozens of cellular proteins. These herbicides feature distinct but overlapping profiles of protein destabilization, highly concentrated in proteins with reactive cysteine residues. Consistent with the recent literature from the pharmacology field, reactivity is driven by neither inherent nucleophilic nor electrophilic reactivity but is idiosyncratic. We discover that propachlor induces a general increase in protein aggregation and selectively targets GAPDH and PARK7, leading to a decrease in their cellular activities. Hsp40 affinity profiling identifies a majority of propachlor targets identified by competitive activity-based protein profiling (ABPP), but ABPP can only identify about 10% of protein targets identified by Hsp40 affinity profiling. GAPDH is primarily modified by the direct conjugation of propachlor at a catalytic cysteine residue, leading to global destabilization of the protein. The Hsp40 affinity strategy is an effective technique to profile cellular proteins that are destabilized by cellular toxin exposure. Raw proteomics data is available through the PRIDE Archive at PXD030635.

Published

2023

187. General features of transmembrane beta barrels from a large database.

Author

Montezano, Daniel, Bernstein, Rebecca, Copeland, Matthew, and Slusky, Joanna

Subjects

contact map, database, outer membrane protein, transmembrane β-barrel, β-signal, Humans, Proteome, Algorithms, Bacterial Proteins, Biological Evolution, Consensus Sequence

Abstract

Large datasets contribute new insights to subjects formerly investigated by exemplars. We used coevolution data to create a large, high-quality database of transmembrane β-barrels (TMBB). By applying simple feature detection on generated evolutionary contact maps, our method (IsItABarrel) achieves 95.88% balanced accuracy when discriminating among protein classes. Moreover, comparison with IsItABarrel revealed a high rate of false positives in previous TMBB algorithms. In addition to being more accurate than previous datasets, our database (available online) contains 1,938,936 bacterial TMBB proteins from 38 phyla, respectively, 17 and 2.2 times larger than the previous sets TMBB-DB and OMPdb. We anticipate that due to its quality and size, the database will serve as a useful resource where high-quality TMBB sequence data are required. We found that TMBBs can be divided into 11 types, three of which have not been previously reported. We find tremendous variance in proteome percentage among TMBB-containing organisms with some using 6.79% of their proteome for TMBBs and others using as little as 0.27% of their proteome. The distribution of the lengths of the TMBBs is suggestive of previously hypothesized duplication events. In addition, we find that the C-terminal β-signal varies among different classes of bacteria though its consensus sequence is LGLGYRF. However, this β-signal is only characteristic of prototypical TMBBs. The ten non-prototypical barrel types have other C-terminal motifs, and it remains to be determined if these alternative motifs facilitate TMBB insertion or perform any other signaling function.

Published

2023

188. Proximity-labeling chemoproteomics defines the subcellular cysteinome and inflammation-responsive mitochondrial redoxome

Author

Yan, Tianyang, Julio, Ashley R, Villanueva, Miranda, Jones, Anthony E, Ball, Andréa B, Boatner, Lisa M, Turmon, Alexandra C, Nguyễn, Kaitlyn B, Yen, Stephanie L, Desai, Heta S, Divakaruni, Ajit S, and Backus, Keriann M

Subjects

Biochemistry and Cell Biology, Biological Sciences, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Generic health relevance, Animals, Mice, Cysteine, Proteomics, Mitochondria, Proteome, Oxidation-Reduction, TurboID, chemoproteomics, cysteine, cysteine oxidation, lipopolysaccharide, macrophages, mitochondria, proximity labeling

Abstract

Proteinaceous cysteines function as essential sensors of cellular redox state. Consequently, defining the cysteine redoxome is a key challenge for functional proteomic studies. While proteome-wide inventories of cysteine oxidation state are readily achieved using established, widely adopted proteomic methods such as OxICAT, Biotin Switch, and SP3-Rox, these methods typically assay bulk proteomes and therefore fail to capture protein localization-dependent oxidative modifications. Here we establish the local cysteine capture (Cys-LoC) and local cysteine oxidation (Cys-LOx) methods, which together yield compartment-specific cysteine capture and quantitation of cysteine oxidation state. Benchmarking of the Cys-LoC method across a panel of subcellular compartments revealed more than 3,500 cysteines not previously captured by whole-cell proteomic analysis. Application of the Cys-LOx method to LPS-stimulated immortalized murine bone marrow-derived macrophages (iBMDM), revealed previously unidentified, mitochondrially localized cysteine oxidative modifications upon pro-inflammatory activation, including those associated with oxidative mitochondrial metabolism.

Published

2023

189. CysDB: a human cysteine database based on experimental quantitative chemoproteomics.

Author

Boatner, Lisa, Palafox, Maria, Schweppe, Devin, and Backus, Keriann

Subjects

Cysteine, chemoproteomics, covalent probes, cysteinome, database, electrophilic fragments, ligandability, multi-omics, Humans, Cysteine, Proteome

Abstract

Cysteine chemoproteomics provides proteome-wide portraits of the ligandability or potential druggability for thousands of cysteine residues. Consequently, these studies are facilitating resources for closing the druggability gap, namely, achieving pharmacological manipulation of ∼96% of the human proteome that remains untargeted by U.S. Food and Drug Administration (FDA) approved small molecules. Recent interactive datasets have enabled users to interface more readily with cysteine chemoproteomics datasets. However, these resources remain limited to single studies and therefore do not provide a mechanism to perform cross-study analyses. Here we report CysDB as a curated community-wide repository of human cysteine chemoproteomics data derived from nine high-coverage studies. CysDB is publicly available at https://backuslab.shinyapps.io/cysdb/ and features measures of identification for 62,888 cysteines (24% of the cysteinome), as well as annotations of functionality, druggability, disease relevance, genetic variation, and structural features. Most importantly, we have designed CysDB to incorporate new datasets to further support the continued growth of the druggable cysteinome.

Published

2023

190. Surveying the global landscape of post-transcriptional regulators.

Author

Reynaud, Kendra, McGeachy, Anna, Noble, David, Meacham, Zuriah, and Ingolia, Nick

Subjects

Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Proteome, RNA, Messenger, RNA Processing, Post-Transcriptional, Gene Expression Regulation, RNA Stability, RNA-Binding Proteins

Abstract

Numerous proteins regulate gene expression by modulating mRNA translation and decay. To uncover the full scope of these post-transcriptional regulators, we conducted an unbiased survey that quantifies regulatory activity across the budding yeast proteome and delineates the protein domains responsible for these effects. Our approach couples a tethered function assay with quantitative single-cell fluorescence measurements to analyze ~50,000 protein fragments and determine their effects on a tethered mRNA. We characterize hundreds of strong regulators, which are enriched for canonical and unconventional mRNA-binding proteins. Regulatory activity typically maps outside the RNA-binding domains themselves, highlighting a modular architecture that separates mRNA targeting from post-transcriptional regulation. Activity often aligns with intrinsically disordered regions that can interact with other proteins, even in core mRNA translation and degradation factors. Our results thus reveal networks of interacting proteins that control mRNA fate and illuminate the molecular basis for post-transcriptional gene regulation.

Published

2023

191. Genetic architecture of heart mitochondrial proteome influencing cardiac hypertrophy.

Author

Chella Krishnan, Karthickeyan, El Hachem, Elie-Julien, Keller, Mark P, Patel, Sanjeet G, Carroll, Luke, Vegas, Alexis Diaz, Gerdes Gyuricza, Isabela, Light, Christine, Cao, Yang, Pan, Calvin, Kaczor-Urbanowicz, Karolina Elżbieta, Shravah, Varun, Anum, Diana, Pellegrini, Matteo, Lee, Chi Fung, Seldin, Marcus M, Rosenthal, Nadia A, Churchill, Gary A, Attie, Alan D, Parker, Benjamin, James, David E, and Lusis, Aldons J

Subjects

Mitochondria, Animals, Mice, Inbred Strains, Mice, Cardiomegaly, Electron Transport Complex I, Mitochondrial Proteins, Proteome, DNA, Mitochondrial, Heart Failure, computational biology, genetic, association studies, genetics, genomics, heart failure, hypertrophy, metabolic syndrome, mitochondria, mouse, proteomics, systems biology, Human Genome, Heart Disease, Biotechnology, Genetics, Cardiovascular, Underpinning research, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Aetiology, Biochemistry and Cell Biology

Abstract

Mitochondria play an important role in both normal heart function and disease etiology. We report analysis of common genetic variations contributing to mitochondrial and heart functions using an integrative proteomics approach in a panel of inbred mouse strains called the Hybrid Mouse Diversity Panel (HMDP). We performed a whole heart proteome study in the HMDP (72 strains, n=2-3 mice) and retrieved 848 mitochondrial proteins (quantified in ≥50 strains). High-resolution association mapping on their relative abundance levels revealed three trans-acting genetic loci on chromosomes (chr) 7, 13 and 17 that regulate distinct classes of mitochondrial proteins as well as cardiac hypertrophy. DAVID enrichment analyses of genes regulated by each of the loci revealed that the chr13 locus was highly enriched for complex-I proteins (24 proteins, P=2.2E-61), the chr17 locus for mitochondrial ribonucleoprotein complex (17 proteins, P=3.1E-25) and the chr7 locus for ubiquinone biosynthesis (3 proteins, P=6.9E-05). Follow-up high resolution regional mapping identified NDUFS4, LRPPRC and COQ7 as the candidate genes for chr13, chr17 and chr7 loci, respectively, and both experimental and statistical analyses supported their causal roles. Furthermore, a large cohort of Diversity Outbred mice was used to corroborate Lrpprc gene as a driver of mitochondrial DNA (mtDNA)-encoded gene regulation, and to show that the chr17 locus is specific to heart. Variations in all three loci were associated with heart mass in at least one of two independent heart stress models, namely, isoproterenol-induced heart failure and diet-induced obesity. These findings suggest that common variations in certain mitochondrial proteins can act in trans to influence tissue-specific mitochondrial functions and contribute to heart hypertrophy, elucidating mechanisms that may underlie genetic susceptibility to heart failure in human populations.

Published

2023

192. Lipidome and proteome analyses provide insights into Mariana Trench Snailfish (Pseudoliparis swirei) adaptation to the hadal zone

Author

Han Xu, Chengchi Fang, Cheng Wang, Xiaoni Gan, and Shunping He

Subjects

Deep sea, Fish, Hadal zone, Lipidome, Proteome, Environmental sciences, GE1-350, Biology (General), QH301-705.5

Abstract

The hadal zone environment, characterized by extreme hydrostatic pressure, low temperatures, and limited food availability, presents substantial survival challenges for deep-sea fish species. In this study, we captured five deep-sea fish species (Bathysaurus mollis, Coryphaenoides rudis, Ilyophis sp., I. brunneus and Pseudoliparis swirei) from the Mariana Trench at depths ranging from 2027 to 7125 ​m, by employing China's “Exploration I and Exploration II”. By combining lipidomic and proteomic analyses, we aimed to explore the genetic basis of adaptive evolution to the hadal zone in fish. The results indicate several key findings: (1) P. swirei (Mariana hadal snailfish, MHS) may enhance energy storage and utilization during prolonged fasting periods by significantly increasing liver tissue levels of cholesterol ester (CE), ether-linked triacylglycerol (TG-O), coenzyme Q (CoQ), and ATPase content; (2) MHS could maintain membrane fluidity under high pressure by increasing the proportion of unsaturated fatty acids while reducing levels of cholesterol and phosphatidylethanolamine (PE) content. (3) The regulation of lipid types and ratios could increase the risk of lipid peroxidation. To counter oxidative stress, MHS likely elevates monounsaturated fatty acid content and enhances antioxidants such as transferrin and heat shock proteins. Overall, this study provides new insights into the adaptive mechanisms of MHS to deep-sea conditions through the lipidome and proteome analyses, thus broadening our understanding of its resilience in the hadal zone.

Published

2024

193. Unveiling the proteome of the fasting heart: Insights into HIF-1 pathway regulation

Author

Daniel Benak, Kristyna Holzerova, Frantisek Kolar, Miloslava Chalupova, and Marketa Hlavackova

Subjects

heart, fasting, proteome, HIF-1, PHD3, Physiology, QP1-981

Abstract

Fasting is a common dietary intervention known for its protective effects against metabolic and cardiovascular diseases. While its effects are mostly systemic, understanding tissue-specific changes in the heart is crucial for the identification of the mechanisms underlying fasting-induced cardioprotection. In this study, we performed a proteomic analysis of the fasting heart and attempted to clarify the molecular basis of fasting-induced cardioprotection. Our investigation identified a total of 4,652 proteins, with 127 exhibiting downregulation and 118 showing upregulation after fasting. Annotation analysis highlighted significant changes in processes such as lipid metabolism, the peroxisome pathway, and reactive oxygen species metabolism. Notably, the HIF-1 signaling pathway emerged as one of the focal points, with various HIF-1 targets exhibiting differential responses to fasting. Further experiments demonstrated downregulation of HIF-1α at both transcript and protein levels. Intriguingly, while gene expression of Egln3 decreased, its protein product PHD3 remained unaffected by fasting. The unchanged levels of pro-inflammatory cytokines indicated that the observed reduction in Hif1a expression did not stem from a decrease in basal inflammation. These findings underscore the complex regulation of the well-established cardioprotective HIF-1 signaling within the heart during 3-day fasting.

Published

2024

194. Mouse liver sinusoidal endothelial cell responses to the glucocorticoid receptor agonist dexamethasone

Author

Sabin Bhandari, Ingelin Kyrrestad, Jaione Simón-Santamaría, Ruomei Li, Karolina Joanna Szafranska, Gianina Dumitriu, Javier Sánchez Romano, Bård Smedsrød, and Karen Kristine Sørensen

Subjects

liver sinusoidal endothelial cell(s), dexamethasone, glucocorticoids, tandem mass tag (TMT), proteome, fenestration, Therapeutics. Pharmacology, RM1-950

Abstract

Liver sinusoidal endothelial cells (LSECs) which make up the fenestrated wall of the hepatic sinusoids, are active scavenger cells involved in blood waste clearance and liver immune functions. Dexamethasone is a synthetic glucocorticoid commonly used in the clinic and as cell culture supplement. However, the response is dependent on tissue, cell type, and cell state. The aim of this study was to investigate the effect of dexamethasone on primary mouse LSECs (C57BL/6J); their viability (live-dead, LDH release, caspase 3/7 assays), morphology (scanning electron microscopy), release of inflammatory markers (ELISA), and scavenging functions (endocytosis assays), and associated biological processes and pathways. We have characterized and catalogued the proteome of LSECs cultured for 1, 10, or 48 h to elucidate time-dependent and dexamethasone-specific cell responses. More than 6,000 protein IDs were quantified using tandem mass tag technology and advanced mass spectrometry (synchronous precursor selection multi-notch MS3). Enrichment analysis showed a culture-induced upregulation of stress and inflammatory markers, and a significant shift in cell metabolism already at 10 h, with enhancement of glycolysis and concomitant repression of oxidative phosphorylation. At 48 h, changes in metabolic pathways were more pronounced with dexamethasone compared to time-matched controls. Dexamethasone repressed the activation of inflammatory pathways (IFN-gamma response, TNF-alpha signaling via NF-kB, Cell adhesion molecules), and culture-induced release of interleukin-6, VCAM-1, and ICAM-1, and improved cell viability partly through inhibition of apoptosis. The mouse LSECs did not proliferate in culture. Dexamethasone treated cells showed upregulation of xanthine dehydrogenase/oxidase (Xdh), and the transcription regulator Foxo1. The drug further delayed but did not block the culture-induced loss of LSEC fenestration. The LSEC capacity for endocytosis was significantly reduced at 48 h, independent of dexamethasone, which correlated with diminished expression of several scavenger receptors and C-type lectins and altered expression of proteins in the endocytic machinery. The glucocorticoid receptor (NR3C1) was suppressed by dexamethasone at 48 h, suggesting limited effect of the drug in prolonged LSEC culture. Conclusion: The study presents a detailed overview of biological processes and pathways affected by dexamethasone in mouse LSECs in vitro.

Published

2024

195. Regulatory mechanisms of Capillaria hepatica infection on Brandt's Vole (Lasiopodomys brandtii) population

Author

Bin Hu, Jiamin Wang, Ning Zhao, Shengyong Feng, Rashidin Abdugheni, Gaojian Li, Wei Liu, Sichao Gao, Xing An, Shuyi Han, and Hongxuan He

Subjects

Capillaria hepatica, Brandt's vole, Semi-natural enclosures, Transcriptome, Proteome, Reproduction, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Parasite infection not only triggers the immune response of the host but also potentially affects the reproductive status, thereby influencing the population size. Therefore, understanding the impact of parasite infection on host immune and reproductive systems has long been an important issue in ecological research. To address this, we conducted field surveys (2021–2023) to investigate Capillaria hepatica infection status in Brandt's vole (Lasiopodomys brandtii) and performed controlled experiments in semi-natural enclosures and indoor laboratories. The results showed a negative correlation between the population size of Brandt's vole and the infection rate. To further explore the regulatory mechanisms, transcriptomic and proteomic analyses were performed on the infected BALB/c mice. The study found that post-infection with Capillaria hepatica, up-regulated genes and proteins in the mice liver were primarily associated with immune functions, while down-regulated genes and proteins were related to metabolic functions such as retinol metabolism. Through validation experiments supplementing retinol to the host infected with Capillaria hepatica, it was found that infection with Capillaria hepatica leads to a decrease in systemic available retinol levels, disrupting the expression of the hypothalamic-pituitary-gonadal (HPG) axis hormones, affecting the expression of CYP17A1, thereby regulating testosterone secretion related to spermatogenesis. This process results in abnormal spermatogenesis in the testes, thereby impacting the reproductive capacity of mice. This suggests that Capillaria hepatica regulates resource allocation in hosts, striking a “trade-off” between reproduction and survival, thereby exerting control over population size. These discoveries are crucial for comprehending the interaction between Capillaria hepatica and hosts, as well as their impacts on host reproduction and immune systems, and provide a scientific basis for controlling the transmission of Capillaria hepatica.

Published

2024

196. In-utero transfer of decidualized endometrial stromal cells increases the frequency of regulatory T cells and normalizes the abortion rate in the CBA/J × DBA/2 abortion model

Author

Kayhan Zarnani, Kimia Zarnani, Nasim Maslehat-Lay, Bahman Zeynali, Sedigheh Vafaei, Mohammad-Reza Shokri, Negar Vanaki, Haleh Soltanghoraee, Ebrahim Mirzadegan, Haleh Edalatkhah, Mohammad-Mehdi Naderi, Ali Sarvari, Farnoosh Attari, Mahmood Jeddi-Tehrani, and Amir-Hassan Zarnani

Subjects

abortion, CBA/J x DBA/2, decidualization, regulatory T cells, proteome, immune system, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionFailure to adequate decidualization leads to adverse pregnancy outcomes including pregnancy loss. Although there are plenty of reports underscoring immune dysfunction as the main cause of abortion in CBA/J females mated with DBA/2 males (CBA/J × DBA/2), little is known about the potential role of impaired endometrial decidualization.MethodsEndometrial stromal cells (ESCs) from CBA/J mice were in-vitro decidualized, and the proteome profile of the secretome was investigated by membrane-based array. CBA/J mice were perfused In-utero with either decidualized ESCs (C×D/D), undecidualized ESCs (C×D/ND), or PBS (C×D/P) 12 days before mating with DBA/2 males. Control mice were not manipulated and were mated with male DBA/2 (C×D) or Balb/c (C×B) mice. On day 13.5 of pregnancy, reproductive parameters were measured. In-vivo tracking of EdU-labeled ESCs was performed using fluorescence microscopy. The frequency of regulatory T cells (Tregs) in paraaortic/renal and inguinal lymph nodes was measured by flow cytometry. The proliferation of pregnant CBA/J splenocytes in response to stimulation with DBA/2 splenocytes was assessed by 5,6-carboxyfluorescein diacetate succinimidyl ester (CFSE) flow cytometry.ResultsIn C×D/D mice, the resorption rate was reduced to match that seen in the C×B group. Intrauterine perfused ESCs appeared in uterine stroma after 2 days, which remained there for at least 12 days. There was no difference in the number of implantation sites and embryo weight across all groups. The frequency of Tregs in the inguinal lymph nodes was similar across all groups, but it increased in the paraaortic/renal lymph nodes of C×D/D mice to the level found in C×B mice. No significant changes were observed in the proliferation of splenocytes from pregnant C×D/D compared to those of the C×D group in response to stimulation with DBA/2 splenocytes. Decidualization of ESCs was associated with a profound alteration in ESC secretome exemplified by alteration in proteins involved in extracellular matrix (ECM) remodeling, response to inflammation, senescence, and immune cell trafficking.DiscussionOur results showed that the deficiency of Tregs is not the primary driver of abortion in the CBA/J × DBA/2 model and provided evidence that impaired endometrial decidualization probably triggers endometrial immune dysfunction and abortion in this model.

Published

2024

197. Epigenome–proteome integration in aged skeletal muscle after exercise training.

Author

Sharples, Adam P.

Subjects

*PHYSICAL activity, *SKELETAL muscle, *TRANSCRIPTION factors, *HIGH-intensity interval training, *HOMEOBOX genes

Abstract

This article discusses a study that examines the relationship between the epigenome and proteome in aged skeletal muscle after exercise training. The researchers used a mouse model to investigate how exercise affects DNA methylation and protein expression in skeletal muscle. They found that exercise training led to changes in DNA methylation and protein expression, particularly in genes related to energy metabolism and protein translation. The study emphasizes the importance of epigenetic regulation in skeletal muscle adaptation to exercise. The given document is a list of references for various scientific studies that explore the role of epigenetics and exercise in skeletal muscle adaptation. These studies suggest that exercise can have a significant impact on the epigenetic landscape of skeletal muscle, potentially leading to changes in gene expression and protein synthesis. These findings have implications for understanding the molecular mechanisms behind exercise-induced muscle growth and aging. [Extracted from the article]

Published

2024

198. Proteomik und Biomarker zur Diagnose von Nierenerkrankungen

Author

Tungsanga, Somkanya, Thongsricome, Thana, Pisitkun, Trairak, Leelahavanichkul, Asada, Bezerra da Silva Junior, Geraldo, editor, and Nangaku, Masaomi, editor

Published

2024

199. Biochemistry, Pathogenesis, and Parasitism of Beauveria

Author

Figueroa, Lisseth Bibiana Puentes, Ferreira, Juliana Marques, Mamani, Ruth Celestina Condori, de Freitas Soares, Filippe Elias, Deshmukh, Sunil Kumar, editor, and Sridhar, Kandikere Ramaiah, editor

Published

2024

200. Nutrigenomics and Nutri-informatics

Author

Yaradoddi, Jayachandra S., Chetan, D. M., Meti, Bharati S., Virupakshaiah, D. B. M., Injaganeri, S. S., Yaradoddi, Jayachandra S., editor, Meti, Bharati S., editor, Mudgulkar, Sulochana B., editor, and Agsar, Dayanand, editor

Published

2024