Your search keyword '"Proteome analysis"' showing total 12,050 results

1. Proteomic analysis reveals molecular changes following genetic engineering in Chlamydomonas reinhardtii.

Author

Barolo, Lorenzo, Abbriano, Raffaela M., Commault, Audrey S., Padula, Matthew P., and Pernice, Mathieu

Abstract

Background: Chlamydomonas reinhardtii is gaining recognition as a promising expression system for the production of recombinant proteins. However, its performance as a cellular biofactory remains suboptimal, especially with respect to consistent expression of heterologous genes. Gene silencing mechanisms, position effect, and low nuclear transgene expression are major drawbacks for recombinant protein production in this model system. To unveil the molecular changes following transgene insertion, retention, and expression in this species, we genetically engineered C. reinhardtii wild type strain 137c (strain cc-125 mt+) to express the fluorescent protein mVenus and subsequently analysed its intracellular proteome. Results: The obtained transgenic cell lines showed differences in abundance in more than 400 proteins, with multiple pathways altered post-transformation. Proteins involved in chromatin remodelling, translation initiation and elongation, and protein quality control and transport were found in lower abundance. On the other hand, ribosomal proteins showed higher abundance, a signal of ribosomal stress response. Conclusions: These results provide new insights into the modifications of C. reinhardtii proteome after transformation, highlighting possible pathways involved in gene silencing. Moreover, this study identifies multiple protein targets for future genetic engineering approaches to improve the prospective use of C. reinhardtii as cell biofactory for industrial applications. [ABSTRACT FROM AUTHOR]

Published

2024

2. Phosphorus uptake 1 (Pup1) QTL performs major regulatory functions under phosphorus starvation/deficiency stress in rice (Oryza sativa L.).

Author

Seem, Karishma, Selvan, Tamil S., Vinod, K. K., Kumar, Suresh, and Mohapatra, Trilochan

Subjects

*PHOSPHORUS, *PHOTOSYNTHESIS, *CARBOHYDRATE metabolism, *NUCLEIC acids, *HOMEOSTASIS

Abstract

Phosphorus (P) is an essential macronutrient required for respiration, photosynthesis/carbohydrate metabolism, redox homeostasis, signaling, and synthesis/function of nucleic acids, cellular membranes, enzymes, etc. To cope with P-deficiency, plants reprogram gene expression for necessary alterations in metabolic/signaling pathways. To attain P homeostasis, plants readjust metabolism through transcriptional, post-transcriptional, and/or post-translational machinery involving biochemical, physiological, genomic, epigenomic, proteomic, and metabolomic functions. However, the underlying molecular mechanisms/pathways/genes for P-deficiency tolerance in crop plants remain elusive. To decipher the mechanisms/pathways adopted by rice under P-starvation/deficiency stress, a pair of contrasting rice [Pusa-44 (high-yielding, P-deficiency sensitive) and its near-isogenic line (NIL)-23, P-deficiency tolerant) for Pup1 QTL] genotype was used for comparative analyses. Omics analyses of shoot and root tissues from 45-day-old plants grown hydroponically in P-sufficient (16 ppm Pi), P-deficient (4 ppm Pi) or P-starved (0 ppm Pi) medium revealed important roles of P transporters, transcription factors (TFs), Transposable elements (TEs), auxin-responsive proteins, cell wall modulation, fatty acid metabolism, and chromatin architecture/epigenetic modifications in making NIL-23 tolerant to stress. The proteins involved in photosynthesis, sucrose-/starch-/energy-metabolism, transcription factors, and phytohormone signaling were observed to be differentially expressed in NIL-23. Since only a few coding genes are located on the QTL, modulations in morpho-physio-biochemical and molecular parameters under P-starvation/deficiency stress were attributed to the regulatory functions of Pup1 through TFs, TEs, epigenetic/chromatin architectural changes, etc. introgressed in Pusa-44 genetic background. Thus, the study provides new insights into molecular/regulatory functions of Pup1 under P-starvation/deficiency stress in rice, which might be useful to improve P-use efficiency in rice for better productivity in P-deficient soils. [ABSTRACT FROM AUTHOR]

Published

2024

3. Proteomic analysis reveals molecular changes following genetic engineering in Chlamydomonas reinhardtii

Author

Lorenzo Barolo, Raffaela M. Abbriano, Audrey S. Commault, Matthew P. Padula, and Mathieu Pernice

Subjects

Chlamydomonas reinhardtii, Transgene, Recombinant protein, Microalgae, Proteome analysis, Genetic engineering, Microbiology, QR1-502

Abstract

Abstract Background Chlamydomonas reinhardtii is gaining recognition as a promising expression system for the production of recombinant proteins. However, its performance as a cellular biofactory remains suboptimal, especially with respect to consistent expression of heterologous genes. Gene silencing mechanisms, position effect, and low nuclear transgene expression are major drawbacks for recombinant protein production in this model system. To unveil the molecular changes following transgene insertion, retention, and expression in this species, we genetically engineered C. reinhardtii wild type strain 137c (strain cc-125 mt+) to express the fluorescent protein mVenus and subsequently analysed its intracellular proteome. Results The obtained transgenic cell lines showed differences in abundance in more than 400 proteins, with multiple pathways altered post-transformation. Proteins involved in chromatin remodelling, translation initiation and elongation, and protein quality control and transport were found in lower abundance. On the other hand, ribosomal proteins showed higher abundance, a signal of ribosomal stress response. Conclusions These results provide new insights into the modifications of C. reinhardtii proteome after transformation, highlighting possible pathways involved in gene silencing. Moreover, this study identifies multiple protein targets for future genetic engineering approaches to improve the prospective use of C. reinhardtii as cell biofactory for industrial applications.

Published

2024

4. Phosphorus uptake 1 (Pup1) QTL performs major regulatory functions under phosphorus starvation/deficiency stress in rice (Oryza sativa L.)

Author

Karishma Seem, Tamil S. Selvan, K. K. Vinod, Suresh Kumar, and Trilochan Mohapatra

Subjects

Near isogenic line, Phosphorus deficiency, Phosphorus transporter, Proteome analysis, Transcriptome analysis, Transposable element, Agriculture (General), S1-972, Environmental sciences, GE1-350

Abstract

Abstract Phosphorus (P) is an essential macronutrient required for respiration, photosynthesis/carbohydrate metabolism, redox homeostasis, signaling, and synthesis/function of nucleic acids, cellular membranes, enzymes, etc. To cope with P-deficiency, plants reprogram gene expression for necessary alterations in metabolic/signaling pathways. To attain P homeostasis, plants readjust metabolism through transcriptional, post-transcriptional, and/or post-translational machinery involving biochemical, physiological, genomic, epigenomic, proteomic, and metabolomic functions. However, the underlying molecular mechanisms/pathways/genes for P-deficiency tolerance in crop plants remain elusive. To decipher the mechanisms/pathways adopted by rice under P-starvation/deficiency stress, a pair of contrasting rice [Pusa-44 (high-yielding, P-deficiency sensitive) and its near-isogenic line (NIL)-23, P-deficiency tolerant) for Pup1 QTL] genotype was used for comparative analyses. Omics analyses of shoot and root tissues from 45-day-old plants grown hydroponically in P-sufficient (16 ppm Pi), P-deficient (4 ppm Pi) or P-starved (0 ppm Pi) medium revealed important roles of P transporters, transcription factors (TFs), Transposable elements (TEs), auxin-responsive proteins, cell wall modulation, fatty acid metabolism, and chromatin architecture/epigenetic modifications in making NIL-23 tolerant to stress. The proteins involved in photosynthesis, sucrose-/starch-/energy-metabolism, transcription factors, and phytohormone signaling were observed to be differentially expressed in NIL-23. Since only a few coding genes are located on the QTL, modulations in morpho-physio-biochemical and molecular parameters under P-starvation/deficiency stress were attributed to the regulatory functions of Pup1 through TFs, TEs, epigenetic/chromatin architectural changes, etc. introgressed in Pusa-44 genetic background. Thus, the study provides new insights into molecular/regulatory functions of Pup1 under P-starvation/deficiency stress in rice, which might be useful to improve P-use efficiency in rice for better productivity in P-deficient soils.

Published

2024

5. Integrative analysis of the transcriptome and proteome reveals the molecular responses of tobacco to boron deficiency

Author

Jinbin Lin, Xiangli Zheng, Jing Xia, Rongrong Xie, Jingjuan Gao, Rongrong Ye, Tingmin Liang, Mengyu Qu, Yaxin Luo, Yuemin Wang, Yuqin Ke, Chunying Li, Jinping Guo, Jianjun Lu, Weiqi Tang, Wenqing Li, and Songbiao Chen

Subjects

Tobacco, Boron, Transcriptome analysis, Proteome analysis, NIP, BOR, Botany, QK1-989

Abstract

Abstract Background Boron (B) is an essential micronutrient for plants. Inappropriate B supply detrimentally affects the productivity of numerous crops. Understanding of the molecular responses of plants to different B supply levels would be of significance in crop improvement and cultivation practices to deal with the problem. Results We conducted a comprehensive analysis of the transcriptome and proteome of tobacco seedlings to investigate the expression changes of genes/proteins in response to different B supply levels, with a particular focus on B deficiency. The global gene and protein expression profiles revealed the potential mechanisms involved in the responses of tobacco to B deficiency, including up-regulation of the NIP5;1-BORs module, complex regulation of genes/proteins related to cell wall metabolism, and up-regulation of the antioxidant machinery. Conclusion Our results demonstrated that B deficiency caused severe morphological and physiological disorders in tobacco seedlings, and revealed dynamic expression changes of tobacco genes/proteins in response to different B supply levels, especially to B deficiency, thus offering valuable insights into the molecular responses of tobacco to B deficiency.

Published

2024

6. Proteomic-miRNA Biomics Profile Reveals 2D Cultures of Human iPSC-Derived Neural Progenitor Cells More Sensitive than 3D Spheroid System Against the Experimental Exposure to Arsenic.

Author

Negi, R., Srivastava, A., Srivastava, A. K., Vatsa, P., Ansari, U. A., Khan, B., Singh, H., Pandeya, A., and Pant, AB

Abstract

The iPSC-derived 3D models are considered to be a connective link between 2D culture and in vivo studies. However, the sensitivity of such 3D models is yet to be established. We assessed the sensitivity of the hiPSC-derived 3D spheroids against 2D cultures of neural progenitor cells. The sub-toxic dose of Sodium Arsenite (SA) was used to investigate the alterations in miRNA-proteins in both systems. Though SA exposure induced significant alterations in the proteins in both 2D and 3D systems, these proteins were uncommon except for 20 proteins. The number and magnitude of altered proteins were higher in the 2D system compared to 3D. The association of dysregulated miRNAs with the target proteins showed their involvement primarily in mitochondrial bioenergetics, oxidative and ER stress, transcription and translation mechanism, cytostructure, etc., in both culture systems. Further, the impact of dysregulated miRNAs and associated proteins on these functions and ultrastructural changes was compared in both culture systems. The ultrastructural studies revealed a similar pattern of mitochondrial damage, while the cellular bioenergetics studies confirm a significantly higher energy failure in the 2D system than to 3D. Such a higher magnitude of changes could be correlated with a higher amount of internalization of SA in 2D cultures than in 3D spheroids. Our findings demonstrate that a 2D culture system seems better responsive than a 3D spheroid system against SA exposure. [ABSTRACT FROM AUTHOR]

Published

2024

7. Integrative analysis of the transcriptome and proteome reveals the molecular responses of tobacco to boron deficiency.

Author

Lin, Jinbin, Zheng, Xiangli, Xia, Jing, Xie, Rongrong, Gao, Jingjuan, Ye, Rongrong, Liang, Tingmin, Qu, Mengyu, Luo, Yaxin, Wang, Yuemin, Ke, Yuqin, Li, Chunying, Guo, Jinping, Lu, Jianjun, Tang, Weiqi, Li, Wenqing, and Chen, Songbiao

Subjects

*PROTEOMICS, *TOBACCO, *GENE expression profiling, *BORON, *CROP improvement, *GENETIC regulation

Abstract

Background: Boron (B) is an essential micronutrient for plants. Inappropriate B supply detrimentally affects the productivity of numerous crops. Understanding of the molecular responses of plants to different B supply levels would be of significance in crop improvement and cultivation practices to deal with the problem. Results: We conducted a comprehensive analysis of the transcriptome and proteome of tobacco seedlings to investigate the expression changes of genes/proteins in response to different B supply levels, with a particular focus on B deficiency. The global gene and protein expression profiles revealed the potential mechanisms involved in the responses of tobacco to B deficiency, including up-regulation of the NIP5;1-BORs module, complex regulation of genes/proteins related to cell wall metabolism, and up-regulation of the antioxidant machinery. Conclusion: Our results demonstrated that B deficiency caused severe morphological and physiological disorders in tobacco seedlings, and revealed dynamic expression changes of tobacco genes/proteins in response to different B supply levels, especially to B deficiency, thus offering valuable insights into the molecular responses of tobacco to B deficiency. [ABSTRACT FROM AUTHOR]

Published

2024

8. FungiRegEx: A Tool for Pattern Identification in Fungal Proteomic Sequences Using Regular Expressions.

Author

Terrón-Macias, Victor, Mejia, Jezreel, Canseco-Pérez, Miguel Angel, Muñoz, Mirna, and Terrón-Hernández, Miguel

Subjects

GRAPHICAL user interfaces, PROTEOMICS, IDENTIFICATION, DATABASES, INFORMATION retrieval, FUNGI

Abstract

In the context of proteomic-scale research, it is imperative to automatically analyze numerous species and subspecies to discern distinctive characteristics present in multiple species of the fungi kingdom that contain sequences of interest that could fulfill a specific biological function. To achieve this, complex sequences must be recognized within an organism's entire set of proteomes. Our study presents FungiRegEx, a piece of software that facilitates the identification of regular expressions of proteomes of fungal organisms and uses real-time data retrieval of the different species from the JGI Mycocosm database without the need to download any file. Integrating a graphical user interface that makes it easy to use, the tool offers regular expression searches on 2402 fungal species from the JGI Mycocosm portal. The tool was validated with the AXSXG sequence and the RXRL effector, demonstrating the effectiveness of FungiRegEx in identifying user-defined patterns in the recovered sequences. This tool allows customization and filtering, and it can save results if required, combining speed, adaptability, and ease of use. It provides an experience without a console and programming, displaying the results in a GUI and making them easier to read. Its architecture guarantees optimized use of resources, time consumption, and implementation flexibility, allowing the customization of specific software parameters for resource management. The tool's potential for future research and exploration is emphasized, providing a nuanced perspective on its practical use within the fungal genomics community. The tools are available at the addresses mentioned in the text. [ABSTRACT FROM AUTHOR]

Published

2024

9. Proteome and Dihydrorhodamine Profiling of Bronchoalveolar Lavage in Patients with Chronic Pulmonary Aspergillosis.

Author

Assing, Kristian, Laursen, Christian B., Campbell, Amanda Jessica, Beck, Hans Christian, and Davidsen, Jesper Rømhild

Subjects

*PULMONARY aspergillosis, *NEUTROPHILS, *BRONCHOALVEOLAR lavage, *INTERSTITIAL lung diseases, *PROTEOMICS, *ASPERGILLUS fumigatus

Abstract

Neutrophil and (alveolar) macrophage immunity is considered crucial for eliminating Aspergillus fumigatus. Data derived from bronchoalveloar lavage (BAL) characterizing the human immuno-pulmonary response to Aspergillus fumigatus are non-existent. To obtain a comprehensive picture of the immune pathways involved in chronic pulmonary aspergillosis (CPA), we performed proteome analysis on AL of 9 CPA patients and 17 patients with interstitial lung disease (ILD). The dihydrorhodamine (DHR) test was also performed on BAL and blood neutrophils from CPA patients and compared to blood neutrophils from healthy controls (HCs). BAL from CPA patients primarily contained neutrophils, while ILD BAL was also characterized by a large fraction of lymphocytes; these differences likely reflecting the different immunological etiologies underlying the two disorders. BAL and blood neutrophils from CPA patients displayed the same oxidative burst capacity as HC blood neutrophils. Hence, immune evasion by Aspergillus involves other mechanisms than impaired neutrophil oxidative burst capacity per se. CPA BAL was enriched by proteins associated with innate immunity, as well as, more specifically, with neutrophil degranulation, Toll-like receptor 4 signaling, and neutrophil-mediated iron chelation. Our data provide the first comprehensive target organ-derived immune data on the human pulmonary immune response to Aspergillus fumigatus. [ABSTRACT FROM AUTHOR]

Published

2024

10. Cellular Responses Induced by NCT-503 Treatment on Triple-Negative Breast Cancer Cell Lines: A Proteomics Approach.

Author

Pralea, Ioana-Ecaterina, Moldovan, Radu-Cristian, Țigu, Adrian-Bogdan, Moldovan, Cristian-Silviu, Fischer-Fodor, Eva, and Iuga, Cristina-Adela

Subjects

TRIPLE-negative breast cancer, CELL lines, PROTEOMICS, EXTRACELLULAR matrix proteins, METABOLIC reprogramming, METASTATIC breast cancer

Abstract

Breast cancer (BC) remains one of the leading causes of mortality among women, with triple-negative breast cancer (TNBC) standing out for its aggressive nature and limited treatment options. Metabolic reprogramming, one of cancer's hallmarks, underscores the importance of targeting metabolic vulnerabilities for therapeutic intervention. This study aimed to investigate the impact of de novo serine biosynthetic pathway (SSP) inhibition, specifically targeting phosphoglycerate dehydrogenase (PHGDH) with NCT-503, on three TNBC cell lines: MDA-MB-231, MDA-MB-468 and Hs 578T. First, MS-based proteomics was used to confirm the distinct expression of PHGDH and other SSP enzymes using the intracellular proteome profiles of untreated cells. Furthermore, to characterize the response of the TNBC cell lines to the inhibitor, both in vitro assays and label-free, bottom-up proteomics were employed. NCT-503 exhibited significant cytotoxic effects on all three cell lines, with MDA-MB-468 being the most susceptible (IC50 20.2 ± 2.8 µM), while MDA-MB-231 and Hs 578T showed higher, comparable IC50s. Notably, differentially expressed proteins (DEPs) induced by NCT-503 treatment were mostly cell line-specific, both in terms of the intracellular and secreted proteins. Through overrepresentation and Reactome GSEA analysis, modifications of the intracellular proteins associated with cell cycle pathways were observed in the MDA-MBs following treatment. Distinctive dysregulation of signaling pathways were seen in all TNBC cell lines, while modifications of proteins associated with the extracellular matrix organization characterizing both MDA-MB-231 and Hs 578T cell lines were highlighted through the treatment-induced modifications of the secreted proteins. Lastly, an analysis was conducted on the DEPs that exhibited greater abundance in the NCT-503 treatment groups to evaluate the potential chemo-sensitizing properties of NCT-503 and the druggability of these promising targets. [ABSTRACT FROM AUTHOR]

Published

2024

11. Effects of lysine deacetylase inhibitor treatment on LPS responses of alveolar-like macrophages.

Author

Russo, Sara, Kwiatkowski, Marcel, Wolters, Justina C, Gerding, Albert, Hermans, Jos, Govorukhina, Natalia, Bischoff, Rainer, and Melgert, Barbro N

Subjects

LYSINE, CHRONIC obstructive pulmonary disease, GAS chromatography/Mass spectrometry (GC-MS), TUMOR necrosis factors, HISTONE deacetylase, LIQUID chromatography-mass spectrometry

Abstract

Macrophages are key immune cells that can adapt their metabolic phenotype in response to different stimuli. Lysine deacetylases are important enzymes regulating inflammatory gene expression and lysine deacetylase inhibitors have been shown to exert anti-inflammatory effects in models of chronic obstructive pulmonary disease. We hypothesized that these anti-inflammatory effects may be associated with metabolic changes in macrophages. To validate this hypothesis, we used an unbiased and a targeted proteomic approach to investigate metabolic enzymes, as well as liquid chromatography–mass spectrometry and gas chromatography–mass spectrometry, to quantify metabolites in combination with the measurement of functional parameters in primary murine alveolar-like macrophages after lipopolysaccharide-induced activation in the presence or absence of lysine deacetylase inhibition. We found that lysine deacetylase inhibition resulted in reduced production of inflammatory mediators such as tumor necrosis factor α and interleukin 1β. However, only minor changes in macrophage metabolism were observed, as only one of the lysine deacetylase inhibitors slightly increased mitochondrial respiration while no changes in metabolite levels were seen. However, lysine deacetylase inhibition specifically enhanced expression of proteins involved in ubiquitination, which may be a driver of the anti-inflammatory effects of lysine deacetylase inhibitors. Our data illustrate that a multiomics approach provides novel insights into how macrophages interact with cues from their environment. More detailed studies investigating ubiquitination as a potential driver of lysine deacetylase inhibition will help developing novel anti-inflammatory drugs for difficult-to-treat diseases such as chronic obstructive pulmonary disease. [ABSTRACT FROM AUTHOR]

Published

2024

12. Extensive post-transcriptional regulation revealed by integrative transcriptome and proteome analyses in salicylic acid-induced flowering in duckweed (Lemna gibba).

Author

Lili Fu, Deguan Tan, Xuepiao Sun, Zehong Ding, and Jiaming Zhang

Subjects

PORTULACA oleracea, NUCLEOTIDE synthesis, GENE expression, TRANSCRIPTOMES, HORMONE synthesis, LEMNA minor, PROTEOMICS

Abstract

Duckweed is an aquatic model plant with tremendous potential in industrial and agricultural applications. Duckweed rarely flowers which significantly hinders the resource collection and heterosis utilization. Salicylic acid (SA) can significantly induce duckweed to flower; however, the underlying regulatory mechanisms remain largely unknown. In this work, transcriptome and proteome were conducted in parallel to examine the expression change of genes and proteins in Lemna gibba under SA treatment. A high-quality reference transcriptome was generated using Iso-Seq strategy, yielding 42,281 full-length transcripts. A total of 422, 423, and 417 differentially expressed genes (DEGs), as well as 213, 51, and 92 differentially expressed proteins (DEPs), were identified at flower induction, flower initiation, and flowering stages by ssRNA-seq and iTRAQ methods. Most DEGs and DEPs were only regulated at either the transcriptomic or proteomic level. Additionally, DEPs exhibited low expression correlations with the corresponding mRNAs, suggesting that post-transcriptional regulation plays a pivotal role in SA-induced flowering in L. gibba. Specifically, the genes related to photosynthesis, stress, and hormone metabolism were mainly regulated at the mRNA level, those associated with mitochondrial electron transport / ATP synthesis, nucleotide synthesis, and secondary metabolism were regulated at the protein level, while those related to redox metabolism were regulated at the mRNA and/or protein levels. The post-transcriptional regulation of genes relevant to hormone synthesis, transcription factors, and flowering was also extensively analyzed and discussed. This is the first study of integrative transcriptomic and proteomic analyses in duckweed, providing novel insights of post-transcriptional regulation in SA-induced flowering of L. gibba. [ABSTRACT FROM AUTHOR]

Published

2024

13. Protein profiling of extracellular vesicles from iPSC-derived astrocytes of patients with ALS/PDC in Kii peninsula.

Author

Kobayashi, Hiroya, Ueda, Koji, Morimoto, Satoru, Ishikawa, Mitsuru, Leventoux, Nicolas, Sasaki, Ryogen, Hirokawa, Yoshifumi, Kokubo, Yasumasa, and Okano, Hideyuki

Subjects

*EXTRACELLULAR vesicles, *INDUCED pluripotent stem cells, *ASTROCYTES, *PROTEOMICS, *PENINSULAS

Abstract

Background: Amyotrophic lateral sclerosis/Parkinsonism-dementia complex in Kii peninsula, Japan (Kii ALS/PDC), is an endemic neurodegenerative disease whose causes and pathogenesis remain unknown. However, astrocytes in autopsied cases of Kii ALS/PDC show characteristic lesions. In addition, relationships between extracellular vesicles (EVs) and neurodegenerative diseases are increasingly apparent. Therefore, we focused on proteins in EVs derived from Kii ALS/PDC astrocytes in the present study. Methods: Induced pluripotent stem cells (iPSCs) derived from three healthy controls (HCs) and three patients with Kii ALS/PDC were differentiated into astrocytes. EVs in the culture medium of astrocytes were collected and subjected to quantitative proteome analysis. Results: Our proteome analysis reveals that EV-containing proteins derived from astrocytes of patients with Kii ALS/PDC show distinctive patterns compared with those of HCs. Moreover, EVs derived from Kii ALS/PDC astrocytes display increased proteins related to proteostasis and decreased proteins related to anti-inflammation. Discussion: Proteins contained in EVs from astrocytes unveil protective support to neurons and may reflect the molecular pathomechanism of Kii ALS/PDC; accordingly, they may be potential biomarker candidates of Kii ALS/PDC. [ABSTRACT FROM AUTHOR]

Published

2023

14. Phosphorus Starvation Tolerance in Rice Through Combined Physiological, Biochemical, and Proteome Analyses

Author

V. Prathap, Suresh Kumar, Nand Lal Meena, Chirag Maheshwari, Monika Dalal, and Aruna Tyagi

Subjects

phosphorus deficiency, Pup1 QTL, protein kinase, acid phosphatase, proteome analysis, rice, Plant culture, SB1-1110

Abstract

Phosphorus (P) deficiency limits the growth, development, and productivity of rice. To better understand the underlying mechanisms in P-deficiency tolerance and the role of Pup1 QTL in enhancing P use efficiency (PUE) for the development of P-efficient rice cultivars, a pair of contrasting rice genotypes (Pusa-44 and NIL-23) was applied to investigate the morpho-physio-biochemical and proteomic variation under P-starvation stress. The rice genotypes were grown hydroponically in a PusaRich medium with adequate P (16 mg/kg, +P) or without P (0 mg/kg, -P) for 30 d. P-starvation manifested a significant reductions in root and shoot biomass, shoot length, leaf area, total chlorophyll, and P, nitrogen and starch contents, as well as protein kinase activity. The stress increased root-to-shoot biomass ratio, root length, sucrose content, and acid phosphatase activity, particularly in the P-tolerant genotype (NIL-23). Comparative proteome analysis revealed several P metabolism-associated proteins (including OsCDPKs, OsMAPKs, OsCPKs, OsLecRK2, and OsSAPks) to be expressed in the shoot of NIL-23, indicating that multiple protein kinases were involved in P-starvation/deficiency tolerance. Moreover, the up-regulated expression of OsrbcL, OsABCG32, OsSUS5, OsPolI-like B, and ClpC2 proteins in the shoot, and OsACA9, OsACA8, OsSPS2F, OsPP2C15, and OsBiP3 in the root of NIL-23, indicated their role in P-starvation stress control through the Pup1 QTL. Thus, our findings indicated that -P stress-responsive proteins, in conjunction with morpho-physio-biochemical modulations, improved PUE and made NIL-23 a P-deficiency tolerant genotype due to the introgression of the Pup1 QTL in the Pusa-44 background.

Published

2023

15. Proteomic alterations in the brain and blood–brain barrier during brain Aβ accumulation in an APP knock-in mouse model of Alzheimer’s disease

Author

Shingo Ito, Ryotaro Yagi, Seiryo Ogata, Takeshi Masuda, Takashi Saito, Takaomi Saido, and Sumio Ohtsuki

Subjects

Alzheimer’s disease, Amyloid-β peptide, Blood–brain barrier, Apolipoprotein, Basement membrane, Proteome analysis, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Blood–brain barrier (BBB) dysfunction is supposed to be an early event in the development of Alzheimer’s disease (AD). This study aimed to investigate the relationship between BBB alterations and AD progression in terms of amyloid-β peptide (Aβ) accumulation in the brains of humanized amyloid precursor protein knock-in (APP-KI) mice. Methods Brain Aβ accumulation was examined using immunohistochemical analysis. Alterations in differentially expressed proteins were determined using sequential window acquisition of all theoretical fragment ion mass spectroscopy (SWATH-MS)-based quantitative proteomics, and Metascape, STRING, Gene Ontology, and KEGG were used for network analyses of altered biological pathways and processes. Statistical significance was determined using the unpaired two-tailed Student’s t-test and Welch’s t-test for two groups and one-way analysis of variance followed by Tukey’s test for more than two groups. Correlations between two groups were determined using Pearson’s correlation analysis. Results Brain Aβ accumulation in APP-KI mice was detectable at 2 months, increased significantly at 5 months, and remained elevated at 12 months of age. The levels of differentially expressed proteins in isolated brain capillaries were higher in younger mice, whereas those in the brain were higher in older mice. Network analyses indicated changes in basement membrane-associated and ribosomal proteins in the brain capillaries. There were no significant changes in key proteins involved in drug or Aβ transport at the BBB. In contrast, solute carrier transporter levels in astrocytes, microglia, and neurons were altered in the brain of older mice. Moreover, the levels of the lipid transporters Apoe and Apoj were upregulated in both the brain and isolated brain capillaries after Aβ accumulation. Conclusions Our results suggest that changes in the brain occurred after advanced Aβ accumulation, whereas initial Aβ accumulation was sufficient to cause alterations in the BBB. These findings may help elucidate the role of BBB alterations in AD progression and predict the distribution of drugs across the BBB in the brain of patients with AD.

Published

2023

16. Serum proteomic identification and validation of two novel atherosclerotic aortic aneurysm biomarkers, profilin 1 and complement factor D

Author

Yusuke Murakami, Mitsuhiro Nishigori, Hiroaki Yagi, Tsukasa Osaki, Masaki Wakabayashi, Manabu Shirai, Cheol Son, Yutaka Iba, Kenji Minatoya, Kengo Kusano, Tsutomu Tomita, Hatsue Ishibashi-Ueda, Hitoshi Matsuda, and Naoto Minamino

Subjects

Aortic aneurysm, Biomarker, Proteome analysis, Blood test, Discovery, Validation, Cytology, QH573-671

Abstract

Abstract Background Effective diagnostic biomarkers for aortic aneurysm (AA) that are detectable in blood tests are required because early detection and rupture risk assessment of AA can provide insights into medical therapy and preventive treatments. However, known biomarkers for AA lack specificity and reliability for clinical diagnosis. Methods We performed proteome analysis of serum samples from patients with atherosclerotic thoracic AA (TAA) and healthy control (HC) subjects to identify diagnostic biomarkers for AA. Serum samples were separated into low-density lipoprotein, high-density lipoprotein, and protein fractions, and the major proteins were depleted. From the proteins identified in the three fractions, we narrowed down biomarker candidates to proteins uniformly altered in all fractions between patients with TAA and HC subjects and evaluated their capability to discriminate patients with TAA and those with abdominal AA (AAA) from HC subjects using receiver operating characteristic (ROC) analysis. For the clinical validation, serum concentrations of biomarker candidates were measured in patients with TAA and AAA registered in the biobank of the same institute, and their capability for the diagnosis was evaluated. Results Profilin 1 (PFN1) and complement factor D (CFD) showed the most contrasting profiles in all three fractions between patients with TAA and HC subjects and were selected as biomarker candidates. The PFN1 concentration decreased, whereas the CFD concentration increased in the sera of patients with TAA and AAA when compared with those of HC subjects. The ROC analysis showed that these proteins could discriminate patients with TAA and AAA from HC subjects. In the validation study, these candidates showed significant concentration differences between patients with TAA or AAA and controls. PFN1 and CFD showed sufficient area under the curve (AUC) in the ROC analysis, and their combination further increased the AUC. The serum concentrations of PFN1 and CFD also showed significant differences between patients with aortic dissection and controls in the validation study. Conclusion PFN1 and CFD are potential diagnostic biomarkers for TAA and AAA and measurable in blood samples; their diagnostic performance can be augmented by their combination. These biomarkers may facilitate the development of diagnostic systems to identify patients with AA.

Published

2023

17. Phosphorus Starvation Tolerance in Rice Through Combined Physiological, Biochemical, and Proteome Analyses.

Author

Prathap, V., Kumar, Suresh, Meena, Nand Lal, Maheshwari, Chirag, Dalal, Monika, and Tyagi, Aruna

Subjects

PROTEOMICS, CHLOROPHYLL, ACID phosphatase, PROTEIN kinases, STARVATION, PHOSPHORUS, RICE

Abstract

Phosphorus (P) deficiency limits the growth, development, and productivity of rice. To better understand the underlying mechanisms in P-deficiency tolerance and the role of Pup1 QTL in enhancing P use efficiency (PUE) for the development of P-efficient rice cultivars, a pair of contrasting rice genotypes (Pusa-44 and NIL-23) was applied to investigate the morpho-physio-biochemical and proteomic variation under P-starvation stress. The rice genotypes were grown hydroponically in a PusaRich medium with adequate P (16 mg/kg, +P) or without P (0 mg/kg, -P) for 30 d. P-starvation manifested a significant reductions in root and shoot biomass, shoot length, leaf area, total chlorophyll, and P, nitrogen and starch contents, as well as protein kinase activity. The stress increased root-to-shoot biomass ratio, root length, sucrose content, and acid phosphatase activity, particularly in the P-tolerant genotype (NIL-23). Comparative proteome analysis revealed several P metabolism-associated proteins (including OsCDPKs, OsMAPKs, OsCPKs, OsLecRK2, and OsSAPks) to be expressed in the shoot of NIL-23, indicating that multiple protein kinases were involved in P-starvation/deficiency tolerance. Moreover, the up-regulated expression of OsrbcL, OsABCG32, OsSUS5, OsPolI-like B, and ClpC2 proteins in the shoot, and OsACA9, OsACA8, OsSPS2F, OsPP2C15, and OsBiP3 in the root of NIL-23, indicated their role in P-starvation stress control through the Pup1 QTL. Thus, our findings indicated that -P stress-responsive proteins, in conjunction with morpho-physio-biochemical modulations, improved PUE and made NIL-23 a P-deficiency tolerant genotype due to the introgression of the Pup1 QTL in the Pusa-44 background. [ABSTRACT FROM AUTHOR]

Published

2023

18. Three alginate lyases provide a new gut Bacteroides ovatus isolate with the ability to grow on alginate.

Author

Rønne, Mette E., Tandrup, Tobias, Madsen, Mikkel, Hunt, Cameron J., Myers, Pernille N., Mol, Janne M., Holck, Jesper, Brix, Susanne, Strube, Mikael L., Aachmann, Finn L., Wilkens, Casper, and Svensson, Birte

Subjects

*ALGINATES, *ALGINIC acid, *LYASES, *BACTEROIDES, *POLYSACCHARIDES, *HOMOLOGY (Biology)

Abstract

Humans consume alginate in the form of seaweed, food hydrocolloids, and encapsulations, making the digestion of this mannuronic acid (M) and guluronic acid (G) polymer of key interest for human health. To increase knowledge on alginate degradation in the gut, a gene catalog from human feces was mined for potential alginate lyases (ALs). The predicted ALs were present in nine species of the Bacteroidetes phylum, of which two required supplementation of an endo-acting AL, expected to mimic cross-feeding in the gut. However, only a new isolate grew on alginate. Wholegenome sequencing of this alginate-utilizing isolate suggested that it is a new Bacteroides ovatus strain harboring a polysaccharide utilization locus (PUL) containing three ALs of families: PL6, PL17, and PL38. The BoPL6 degraded polyG to oligosaccharides of DP 1-3, and BoPL17 released 4,5-unsaturated monouronate from polyM. BoPL38 degraded both alginates, polyM, polyG, and polyMG, in endo-mode; hence, it was assumed to deliver oligosaccharide substrates for BoPL6 and BoPL17, corresponding well with synergistic action on alginate. BoPL17 and BoPL38 crystal structures, determined at 1.61 and 2.11 Å, respectively, showed (a/a)6-barrel + anti-parallel ß-sheet and (a/a)7-barrel folds, distinctive for these PL families. BoPL17 had a more open active site than the two homologous structures. BoPL38 was very similar to the structure of an uncharacterized PL38, albeit with a different triad of residues possibly interacting with substrate in the presumed active site tunnel. Altogether, the study provides unique functional and structural insights into alginate-degrading lyases of a PUL in a human gut bacterium. [ABSTRACT FROM AUTHOR]

Published

2023

19. Proteomic alterations in the brain and blood–brain barrier during brain Aβ accumulation in an APP knock-in mouse model of Alzheimer's disease.

Author

Ito, Shingo, Yagi, Ryotaro, Ogata, Seiryo, Masuda, Takeshi, Saito, Takashi, Saido, Takaomi, and Ohtsuki, Sumio

Subjects

*ALZHEIMER'S disease, *BLOOD-brain barrier, *PEARSON correlation (Statistics), *AMYLOID beta-protein precursor, *PROTEOMICS

Abstract

Background: Blood–brain barrier (BBB) dysfunction is supposed to be an early event in the development of Alzheimer's disease (AD). This study aimed to investigate the relationship between BBB alterations and AD progression in terms of amyloid-β peptide (Aβ) accumulation in the brains of humanized amyloid precursor protein knock-in (APP-KI) mice. Methods: Brain Aβ accumulation was examined using immunohistochemical analysis. Alterations in differentially expressed proteins were determined using sequential window acquisition of all theoretical fragment ion mass spectroscopy (SWATH-MS)-based quantitative proteomics, and Metascape, STRING, Gene Ontology, and KEGG were used for network analyses of altered biological pathways and processes. Statistical significance was determined using the unpaired two-tailed Student's t-test and Welch's t-test for two groups and one-way analysis of variance followed by Tukey's test for more than two groups. Correlations between two groups were determined using Pearson's correlation analysis. Results: Brain Aβ accumulation in APP-KI mice was detectable at 2 months, increased significantly at 5 months, and remained elevated at 12 months of age. The levels of differentially expressed proteins in isolated brain capillaries were higher in younger mice, whereas those in the brain were higher in older mice. Network analyses indicated changes in basement membrane-associated and ribosomal proteins in the brain capillaries. There were no significant changes in key proteins involved in drug or Aβ transport at the BBB. In contrast, solute carrier transporter levels in astrocytes, microglia, and neurons were altered in the brain of older mice. Moreover, the levels of the lipid transporters Apoe and Apoj were upregulated in both the brain and isolated brain capillaries after Aβ accumulation. Conclusions: Our results suggest that changes in the brain occurred after advanced Aβ accumulation, whereas initial Aβ accumulation was sufficient to cause alterations in the BBB. These findings may help elucidate the role of BBB alterations in AD progression and predict the distribution of drugs across the BBB in the brain of patients with AD. [ABSTRACT FROM AUTHOR]

Published

2023

20. Obesity impacts hypoxia adaptation of the lung.

Author

Pankoke, Sophia, Schweitzer, Theresa, Bikker, Rolf, Pich, Andreas, Pfarrer, Christiane, Mühlfeld, Christian, and Schipke, Julia

Subjects

*OBESITY paradox, *LUNGS, *EXTRACELLULAR matrix proteins, *LUNG volume, *CHRONIC obstructive pulmonary disease, *PULMONARY hypertension, *RIGHT ventricular hypertrophy

Abstract

Obesity is mostly associated with adverse health consequences, but may also elicit favorable effects under chronic conditions. This “obesity paradox” is under debate for pulmonary diseases. As confounding factors complicate conclusions from human studies, this study used a controlled animal model combining diet-induced obesity and chronic hypoxia as a model for pulmonary hypertension and chronic obstructive pulmonary disease. Male C57BL/6 mice were fed control or high-fat diet for 30 wk, and half of the animals were exposed to chronic hypoxia (13% O2) for 3 wk. Hypoxia induced right ventricular hypertrophy, thickening of pulmonary arterial and capillary walls, higher lung volumes, and increased hemoglobin concentrations irrespective of the body weight. In contrast, lung proteomes differed substantially between lean- and obese-hypoxic mice. Many of the observed changes were linked to vascular and extracellular matrix (ECM) proteins. In lean-hypoxic animals, circulating platelets were reduced and abundances of various clotting-related proteins were altered, indicating a hypercoagulable phenotype. Moreover, the septal ECM composition was changed, and airspaces were significantly distended pointing to lung hyperinflation. These differences were mostly absent in the obese-hypoxic group. However, the obesity-hypoxia combination induced the lowest blood CO2 concentrations, indicating hyperventilation for sufficient oxygen supply. Moreover, endothelial surface areas were increased in obese-hypoxic mice. Thus, obesity exerts differential effects on lung adaptation to hypoxia, which paradoxically include not only adverse but also rather protective changes. These differences have a molecular basis in the lung proteome and may influence the pathogenesis of lung diseases. This should be taken into account for future individualized prevention and therapy. NEW & NOTEWORTHY An “obesity paradox” is discussed for pulmonary diseases. By linking lung proteome analyses to pulmonary structure and function, we demonstrate that diet-induced obesity affects lung adaptation to chronic hypoxia in various ways. The observed changes include not only adverse but also protective effects and are associated with altered abundances of vascular and extracellular matrix proteins. These results highlight the existence of relevant differences in individuals with obesity that may influence the pathogenesis of lung diseases. [ABSTRACT FROM AUTHOR]

Published

2023

21. Mutant Bisexual and Wild Male Flowers Were Compared by Integrated Proteome and Transcriptome Analyses to Provide Insight into the Sex Conversion of Idesia polycarpa Maxim.

Author

Wang, Huimin, Li, Zhi, Cai, Qifei, Wang, Yanmei, Geng, Xiaodong, Li, Shunfu, Fang, Lisha, Yao, Shunyang, Li, Huiyun, and Liu, Zhen

Subjects

WILD flowers, METABOLITES, MESSENGER RNA, TRANSCRIPTOMES, FLAVONOIDS, SECONDARY metabolism, PROTEOMICS, POLLINATION, SEXING of animals

Abstract

Idesia polycarpa is a dioecious tree; in field surveys, there are rare sex conversions in I. polycarpa individuals with bisexual flowers. To identify the molecular mechanisms underlying sex conversion in this species, an integrative analysis of the proteome and transcriptome profiles of I. polycarpa male and bisexual flowers at key developmental stages was conducted in this study using isobaric tags for relative and absolute quantification and RNA-seq technology. A total of 15,003 proteins were identified; the differentially expressed proteins (DEPs) were enriched in metabolic pathways, biosynthesis of secondary metabolites, and flavonoid metabolism pathways in all comparison groups. A total of 290,442 unigenes were obtained; these were compared with seven databases, revealing 196,366 annotated unigenes. In general, the expression of proteins and genes tended to be positively correlated, with Spearman correlation coefficients in the ranges of 0.152–0.262 (all genes and all proteins) and 0.497–0.778 (DEPs and DEGs). The integrative analysis of DEPs and DEGs between male and bisexual flowers revealed that the most significantly enriched pathways were flavonoid pathways, metabolic pathways, and the biosynthesis of secondary metabolites. Finally, four co-expressed proteins and transcripts and one gene associated with the flavonoid biosynthesis pathway were screened out. The proteins identified were p-coumaroyl shikimate 3′-hydroxylase, and shikimate/quinate hydroxycinnamoyl transferase, and the gene was caffeoyl-CoA O-methyltransferase. The analysis has revealed key potential proteins and genes involved in sex conversion at the molecular level and has provided a basis for future investigations of artificial regulation of sex differentiation in I. polycarpa. [ABSTRACT FROM AUTHOR]

Published

2023

22. FungiRegEx: A Tool for Pattern Identification in Fungal Proteomic Sequences Using Regular Expressions

Author

Victor Terrón-Macias, Jezreel Mejia, Miguel Angel Canseco-Pérez, Mirna Muñoz, and Miguel Terrón-Hernández

Subjects

proteome analysis, FungiRegEx, regular expressions finding, bioinformatics, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

In the context of proteomic-scale research, it is imperative to automatically analyze numerous species and subspecies to discern distinctive characteristics present in multiple species of the fungi kingdom that contain sequences of interest that could fulfill a specific biological function. To achieve this, complex sequences must be recognized within an organism’s entire set of proteomes. Our study presents FungiRegEx, a piece of software that facilitates the identification of regular expressions of proteomes of fungal organisms and uses real-time data retrieval of the different species from the JGI Mycocosm database without the need to download any file. Integrating a graphical user interface that makes it easy to use, the tool offers regular expression searches on 2402 fungal species from the JGI Mycocosm portal. The tool was validated with the AXSXG sequence and the RXRL effector, demonstrating the effectiveness of FungiRegEx in identifying user-defined patterns in the recovered sequences. This tool allows customization and filtering, and it can save results if required, combining speed, adaptability, and ease of use. It provides an experience without a console and programming, displaying the results in a GUI and making them easier to read. Its architecture guarantees optimized use of resources, time consumption, and implementation flexibility, allowing the customization of specific software parameters for resource management. The tool’s potential for future research and exploration is emphasized, providing a nuanced perspective on its practical use within the fungal genomics community. The tools are available at the addresses mentioned in the text.

Published

2024

23. Cellular Responses Induced by NCT-503 Treatment on Triple-Negative Breast Cancer Cell Lines: A Proteomics Approach

Author

Ioana-Ecaterina Pralea, Radu-Cristian Moldovan, Adrian-Bogdan Țigu, Cristian-Silviu Moldovan, Eva Fischer-Fodor, and Cristina-Adela Iuga

Subjects

TNBC, PHGDH inhibitor, NCT-503, proteome analysis, GSEA, targetable proteins, Biology (General), QH301-705.5

Abstract

Breast cancer (BC) remains one of the leading causes of mortality among women, with triple-negative breast cancer (TNBC) standing out for its aggressive nature and limited treatment options. Metabolic reprogramming, one of cancer’s hallmarks, underscores the importance of targeting metabolic vulnerabilities for therapeutic intervention. This study aimed to investigate the impact of de novo serine biosynthetic pathway (SSP) inhibition, specifically targeting phosphoglycerate dehydrogenase (PHGDH) with NCT-503, on three TNBC cell lines: MDA-MB-231, MDA-MB-468 and Hs 578T. First, MS-based proteomics was used to confirm the distinct expression of PHGDH and other SSP enzymes using the intracellular proteome profiles of untreated cells. Furthermore, to characterize the response of the TNBC cell lines to the inhibitor, both in vitro assays and label-free, bottom-up proteomics were employed. NCT-503 exhibited significant cytotoxic effects on all three cell lines, with MDA-MB-468 being the most susceptible (IC50 20.2 ± 2.8 µM), while MDA-MB-231 and Hs 578T showed higher, comparable IC50s. Notably, differentially expressed proteins (DEPs) induced by NCT-503 treatment were mostly cell line-specific, both in terms of the intracellular and secreted proteins. Through overrepresentation and Reactome GSEA analysis, modifications of the intracellular proteins associated with cell cycle pathways were observed in the MDA-MBs following treatment. Distinctive dysregulation of signaling pathways were seen in all TNBC cell lines, while modifications of proteins associated with the extracellular matrix organization characterizing both MDA-MB-231 and Hs 578T cell lines were highlighted through the treatment-induced modifications of the secreted proteins. Lastly, an analysis was conducted on the DEPs that exhibited greater abundance in the NCT-503 treatment groups to evaluate the potential chemo-sensitizing properties of NCT-503 and the druggability of these promising targets.

Published

2024

24. Proteome and Dihydrorhodamine Profiling of Bronchoalveolar Lavage in Patients with Chronic Pulmonary Aspergillosis

Author

Kristian Assing, Christian B. Laursen, Amanda Jessica Campbell, Hans Christian Beck, and Jesper Rømhild Davidsen

Subjects

chronic pulmonary aspergillosis, bronchoalveolar lavage, proteome analysis, neutrophil degranulation, neutrophil oxidative burst, iron chelation, Biology (General), QH301-705.5

Abstract

Neutrophil and (alveolar) macrophage immunity is considered crucial for eliminating Aspergillus fumigatus. Data derived from bronchoalveloar lavage (BAL) characterizing the human immuno-pulmonary response to Aspergillus fumigatus are non-existent. To obtain a comprehensive picture of the immune pathways involved in chronic pulmonary aspergillosis (CPA), we performed proteome analysis on AL of 9 CPA patients and 17 patients with interstitial lung disease (ILD). The dihydrorhodamine (DHR) test was also performed on BAL and blood neutrophils from CPA patients and compared to blood neutrophils from healthy controls (HCs). BAL from CPA patients primarily contained neutrophils, while ILD BAL was also characterized by a large fraction of lymphocytes; these differences likely reflecting the different immunological etiologies underlying the two disorders. BAL and blood neutrophils from CPA patients displayed the same oxidative burst capacity as HC blood neutrophils. Hence, immune evasion by Aspergillus involves other mechanisms than impaired neutrophil oxidative burst capacity per se. CPA BAL was enriched by proteins associated with innate immunity, as well as, more specifically, with neutrophil degranulation, Toll-like receptor 4 signaling, and neutrophil-mediated iron chelation. Our data provide the first comprehensive target organ-derived immune data on the human pulmonary immune response to Aspergillus fumigatus.

Published

2024

25. Serum proteomic identification and validation of two novel atherosclerotic aortic aneurysm biomarkers, profilin 1 and complement factor D.

Author

Murakami, Yusuke, Nishigori, Mitsuhiro, Yagi, Hiroaki, Osaki, Tsukasa, Wakabayashi, Masaki, Shirai, Manabu, Son, Cheol, Iba, Yutaka, Minatoya, Kenji, Kusano, Kengo, Tomita, Tsutomu, Ishibashi-Ueda, Hatsue, Matsuda, Hitoshi, and Minamino, Naoto

Subjects

*AORTIC aneurysms, *PROFILIN, *PROTEOMICS, *RECEIVER operating characteristic curves, *AORTIC dissection, *SERUM

Abstract

Background: Effective diagnostic biomarkers for aortic aneurysm (AA) that are detectable in blood tests are required because early detection and rupture risk assessment of AA can provide insights into medical therapy and preventive treatments. However, known biomarkers for AA lack specificity and reliability for clinical diagnosis. Methods: We performed proteome analysis of serum samples from patients with atherosclerotic thoracic AA (TAA) and healthy control (HC) subjects to identify diagnostic biomarkers for AA. Serum samples were separated into low-density lipoprotein, high-density lipoprotein, and protein fractions, and the major proteins were depleted. From the proteins identified in the three fractions, we narrowed down biomarker candidates to proteins uniformly altered in all fractions between patients with TAA and HC subjects and evaluated their capability to discriminate patients with TAA and those with abdominal AA (AAA) from HC subjects using receiver operating characteristic (ROC) analysis. For the clinical validation, serum concentrations of biomarker candidates were measured in patients with TAA and AAA registered in the biobank of the same institute, and their capability for the diagnosis was evaluated. Results: Profilin 1 (PFN1) and complement factor D (CFD) showed the most contrasting profiles in all three fractions between patients with TAA and HC subjects and were selected as biomarker candidates. The PFN1 concentration decreased, whereas the CFD concentration increased in the sera of patients with TAA and AAA when compared with those of HC subjects. The ROC analysis showed that these proteins could discriminate patients with TAA and AAA from HC subjects. In the validation study, these candidates showed significant concentration differences between patients with TAA or AAA and controls. PFN1 and CFD showed sufficient area under the curve (AUC) in the ROC analysis, and their combination further increased the AUC. The serum concentrations of PFN1 and CFD also showed significant differences between patients with aortic dissection and controls in the validation study. Conclusion: PFN1 and CFD are potential diagnostic biomarkers for TAA and AAA and measurable in blood samples; their diagnostic performance can be augmented by their combination. These biomarkers may facilitate the development of diagnostic systems to identify patients with AA. [ABSTRACT FROM AUTHOR]

Published

2023

26. Inner nuclear membrane proteins Lem2 and Bqt4 interact with different lipid synthesis enzymes in fission yeast.

Author

Hirano, Yasuhiro, Kinugasa, Yasuha, Kubota, Yoshino, Obuse, Chikashi, Haraguchi, Tokuko, and Hiraoka, Yasushi

Subjects

*NUCLEAR membranes, *NUCLEAR proteins, *MEMBRANE proteins, *LIPID synthesis, *ENZYMES, *CARRIER proteins

Abstract

The nuclear envelope (NE) is a double-membrane structure consisting of inner and outer membranes that spatially separate the nucleus from the cytoplasm, and its function is critical for cellular functions such as genome maintenance. In the fission yeast, Schizosaccharomyces pombe , the inner nuclear membrane proteins, Lem2 and Bqt4, play pivotal roles in maintaining the NE structure. We previously found that the double deletion of lem2 + and bqt4 + causes a synthetic lethal defect associated with severe NE rupture, and overexpression of Elo2, a solo very-long-chain fatty acid elongase, suppresses this defect by restoring the NE. However, the molecular basis of this restoration remains elusive. To address this, we identified Lem2- and Bqt4-binding proteins via immunoprecipitation and mass spectrometry in this study. Forty-five and 23 proteins were identified as Lem2- and Bqt4-binding proteins, respectively. Although these binding proteins partially overlapped, Lem2 and Bqt4 interacted with different types of lipid metabolic enzymes: Cho2, Ole1 and Erg11 for Lem2 and Cwh43 for Bqt4. These enzymes are known to be involved in various lipid synthesis processes, suggesting that Lem2 and Bqt4 may contribute to the regulation of lipid synthesis by binding to these enzymes. [ABSTRACT FROM AUTHOR]

Published

2023

27. The Interplay Between the Transcriptomics and Proteomics Profiles

Author

Teibo, John Oluwafemi, Silvestrini, Virgínia Campos, Vargas, Alessandra P., Lanfredi, Guilherme Pauperio, Faça, Vítor Marcel, and Passos, Geraldo A., editor

Published

2022

28. Effect of salinity stress on the root proteome pattern of spring bread wheat.

Author

Shahbazi, Somayeh, Toorchi, Mahmoud, Moghaddam, Mohammad, Aharizad, Saeid, and Bandehagh, Ali

Subjects

WHEAT breeding, WHEAT, PROTEOMICS, POLYACRYLAMIDE gel electrophoresis, SALINITY, MALATE dehydrogenase

Abstract

In this experiment, the effect of salt stress on the root proteome pattern of Arg (tolerant to salinity) and Moghan3 (sensitive to salinity) cultivars of wheat was investigated by two-dimensional polyacrylamide gel electrophoresis. Salinity was applied at two levels of 0 and 150 mM in the third-leaf stage for three weeks under greenhouse conditions. The proteome analysis of the roots revealed 120 reproducible protein spots, among which 15 spots showed significant changes in expression. In Moghan3, four protein spots with a significant reduction in expression were identified. In the tolerant cultivar of Arg, 11 protein spots showed significant changes in expression, among which five protein spots had an increased expression and six protein spots had a decreased expression. These proteins were classified based on their function into several groups such as the proteins involved in metabolism and energy, reactive oxygen species scavenging and detoxification, the proteins associated with cell walls, and the proteins involved in folding and degradation. Probably, the tolerance to salt stress in the Arg cultivar was related to the increased expression of pyruvate dehydrogenase, phosphoglycerate mutase, catalase, and malate dehydrogenase proteins. While in the sensitive variety of Moghan3, the decrease in the expression of enolase, peroxidase, and glutathione peroxidase proteins under salinity stress conditions probably caused oxidative stress in the plants due to increased production of reactive oxygen species. These findings can be useful for improving the salt tolerance in the breeding programs of wheat. [ABSTRACT FROM AUTHOR]

Published

2023

29. Comparative proteome analysis of the ligamentum flavum of patients with lumbar spinal canal stenosis.

Author

Yabe, Yutaka, Hagiwara, Yoshihiro, Tsuchiya, Masahiro, Minowa, Takashi, Takemura, Taro, Hattori, Shinya, Yoshida, Shinichirou, Onoki, Takahiro, and Ishikawa, Keisuke

Subjects

PROTEOMICS, SPINAL stenosis, AMYLOID plaque, PROTEIN expression, REGULATION of growth

Abstract

Background: Thickening of the ligamentum flavum is considered to be the main factor for lumbar spinal canal stenosis (LSCS). Although some mechanisms have been speculated in the thickening of the ligamentum flavum, there are only a few comprehensive approaches to investigate its pathology. The objective of this study was to investigate the pathology of thickened ligamentum flavum in patients with LSCS based on protein expression levels using shotgun proteome analysis. Methods: Ligamentum flavum samples were collected from four patients with LSCS (LSCS group) and four patients with lumbar disc herniation (LDH) as controls (LDH group). Protein mixtures were digested and analyzed by liquid chromatography/mass spectrometry analysis. To compare protein expression levels between the LSCS and LDH groups, the mean Mascot score was compared. Biological processes were assessed using Gene Ontology analysis. Results: A total of 1151 proteins were identified in some samples of ligamentum flavum. Among these, 145 proteins were detected only in the LSCS group, 315 in the LDH group, and 691 in both groups. The demonstrated biological processes occurring in the LSCS group included: extracellular matrix organization, regulation of peptidase activity, extracellular matrix disassembly, and negative regulation of cell growth. Proteins related to fibrosis, chondrometaplasia, and amyloid deposition were found highly expressed in the LSCS group compared with those in the LDH group. Conclusions: Tissue repair via fibrosis, chondrometaplasia, and amyloid deposits may be important pathologies that occur in the thickened ligamentum flavum of patients with LSCS. [ABSTRACT FROM AUTHOR]

Published

2022

30. Comparative Proteomic Analysis of Two Commonly Used Laboratory Yeast Strains: W303 and BY4742

Author

Valentina Rossio, Xinyue Liu, and Joao A. Paulo

Subjects

TMTpro, yeast, genetic background, stationary phase, proteome analysis, Microbiology, QR1-502

Abstract

The yeast Saccharomyces cerevisiae is a powerful model system that is often used to expand our understanding of cellular processes and biological functions. Although many genetically well-characterized laboratory strains of S. cerevisiae are available, they may have different genetic backgrounds which can confound data interpretation. Here, we report a comparative whole-proteome analysis of two common laboratory yeast background strains, W303 and BY4742, in both exponential and stationary growth phases using isobaric-tag-based mass spectrometry to highlight differences in proteome complexity. We quantified over 4400 proteins, hundreds of which showed differences in abundance between strains and/or growth phases. Moreover, we used proteome-wide protein abundance to profile the mating type of the strains used in the experiment, the auxotrophic markers, and associated metabolic pathways, as well as to investigate differences in particular classes of proteins, such as the pleiotropic drug resistance (PDR) proteins. This study is a valuable resource that offers insight into mechanistic differences between two common yeast background strains and can be used as a guide to select a background that is best suited for addressing a particular biological question.

Published

2023

31. Comparison of the Proteomes and Phosphoproteomes of S. cerevisiae Cells Harvested with Different Strategies

Author

Valentina Rossio and Joao A. Paulo

Subjects

TMTpro, yeast, proteome analysis, phosphoproteome analysis, stress, Microbiology, QR1-502

Abstract

The budding yeast Saccharomyces cerevisiae is a powerful model system that is widely used to investigate many cellular processes. The harvesting of yeast cells is the first step in almost every experimental procedure. Here, yeast cells are isolated from their growth medium, collected, and used for successive experiments or analysis. The two most common methods to harvest S. cerevisiae are centrifugation and filtration. Understanding if and how centrifugation and filtration affect yeast physiology is essential with respect to downstream data interpretation. Here, we profile and compare the proteomes and the phosphoproteomes, using isobaric label-based quantitative mass spectrometry, of three common methods used to harvest S. cerevisiae cells: low-speed centrifugation, high-speed centrifugation, and filtration. Our data suggest that, while the proteome was stable across the tested conditions, hundreds of phosphorylation events were different between centrifugation and filtration. Our analysis shows that, under our experimental conditions, filtration may cause both cell wall and osmotic stress at higher levels compared to centrifugation, implying harvesting-method-specific stresses. Thus, considering that the basal activation levels of specific stresses may differ under certain harvesting conditions is an important, but often overlooked, aspect of experimental design.

Published

2023

32. Techniques for Molecular Resistance molecular Mechanism Host resistance mechanisms of Host Resistance

Author

Saharan, Govind Singh, Mehta, Naresh K., Meena, Prabhu Dayal, Saharan, Govind Singh, Mehta, Naresh K., and Meena, Prabhu Dayal

Published

2021

33. Comparative proteome analysis of the ligamentum flavum of patients with lumbar spinal canal stenosis

Author

Yutaka Yabe, Yoshihiro Hagiwara, Masahiro Tsuchiya, Takashi Minowa, Taro Takemura, Shinya Hattori, Shinichirou Yoshida, Takahiro Onoki, and Keisuke Ishikawa

Subjects

amyloid, chondrometaplasia, fibrosis, ligamentum flavum, lumbar spinal canal stenosis, proteome analysis, Orthopedic surgery, RD701-811

Abstract

Abstract Background Thickening of the ligamentum flavum is considered to be the main factor for lumbar spinal canal stenosis (LSCS). Although some mechanisms have been speculated in the thickening of the ligamentum flavum, there are only a few comprehensive approaches to investigate its pathology. The objective of this study was to investigate the pathology of thickened ligamentum flavum in patients with LSCS based on protein expression levels using shotgun proteome analysis. Methods Ligamentum flavum samples were collected from four patients with LSCS (LSCS group) and four patients with lumbar disc herniation (LDH) as controls (LDH group). Protein mixtures were digested and analyzed by liquid chromatography/mass spectrometry analysis. To compare protein expression levels between the LSCS and LDH groups, the mean Mascot score was compared. Biological processes were assessed using Gene Ontology analysis. Results A total of 1151 proteins were identified in some samples of ligamentum flavum. Among these, 145 proteins were detected only in the LSCS group, 315 in the LDH group, and 691 in both groups. The demonstrated biological processes occurring in the LSCS group included: extracellular matrix organization, regulation of peptidase activity, extracellular matrix disassembly, and negative regulation of cell growth. Proteins related to fibrosis, chondrometaplasia, and amyloid deposition were found highly expressed in the LSCS group compared with those in the LDH group. Conclusions Tissue repair via fibrosis, chondrometaplasia, and amyloid deposits may be important pathologies that occur in the thickened ligamentum flavum of patients with LSCS.

Published

2022

34. The Role of Type VI Collagen in Alveolar Bone.

Author

Komori, Taishi, Pham, Hai, Jani, Priyam, Perry, Sienna, Wang, Yan, Kilts, Tina M., Li, Li, and Young, Marian F.

Subjects

*ALVEOLAR process, *PROTEOMICS, *BONE resorption, *BONE density, *COLLAGEN, *DENTAL pulp

Abstract

Many studies have been conducted to elucidate the role of Type VI collagen in muscle and tendon, however, its role in oral tissues remains unclear. In this study, an α2(VI) deficient mouse (Col6α2-KO) model was used to examine the role of Type VI collagen in oral tissues. Tissue volume and mineral density were measured in oral tissues by µCT. Proteome analysis was performed using protein extracted from alveolar bone. In addition, alveolar bone was evaluated with a periodontitis induced model. µCT analysis showed the Col6α2-KO mice had less volume of alveolar bone, dentin and dental pulp, while the width of periodontal ligament (PDL) was greater than WT. The mineral density in alveolar bone and dentin were elevated in Col6α2-KO mice compared with WT. Our proteome analysis showed significant changes in proteins related to ECM organization and elevation of proteins associated with biomineralization in the Col6α2-KO mice. In induced periodontitis, Col6α2-KO mice had greater alveolar bone loss compared with WT. In conclusion, Type VI collagen has a role in controlling biomineralization in alveolar bone and that changes in the ECM of alveolar bone could be associated with greater bone loss due to periodontitis. [ABSTRACT FROM AUTHOR]

Published

2022

35. Transcriptome and Proteome Co-Profiling Offers an Understanding of Pre-Harvest Sprouting (PHS) Molecular Mechanisms in Wheat (Triticum aestivum).

Author

Park, Sang Yong, Jung, Woo Joo, Bang, Geul, Hwang, Heeyoun, and Kim, Jae Yoon

Subjects

ALTERNATIVE RNA splicing, SEED dormancy, GERMINATION, TRANSCRIPTOMES, PROTEOMICS, WHEAT

Abstract

While wheat (Triticum aestivum L.) is a widely grown and enjoyed crop, the diverse and complex global situation and climate are exacerbating the instability of its supply. In particular, pre-harvest sprouting (PHS) is one of the major abiotic stresses that frequently occurs due to irregular climate conditions, causing serious damage to wheat and its quality. In this study, transcriptomic analysis with RNA-seq and proteomic analysis with LC-MS/MS were performed in PHS-treated spikes from two wheat cultivars presenting PHS sensitivity and tolerance, respectively. A total of 13,154 differentially expressed genes (DEGs) and 706 differentially expressed proteins (DEPs) were identified in four comparison groups between the susceptible/tolerant cultivars. Gene function and correlation analysis were performed to determine the co-profiled genes and proteins affected by PHS treatment. In the functional annotation of each comparative group, similar functions were confirmed in each cultivar under PHS treatment; however, in Keumgang PHS+7 (K7) vs. Woori PHS+7 (W7), functional annotations presented clear differences in the "spliceosome" and "proteasome" pathways. In addition, our results indicate that alternative splicing and ubiquitin–proteasome support the regulation of germination and seed dormancy. This study provides an advanced understanding of the functions involved in transcription and translation related to PHS mechanisms, thus enabling specific proposals for the further analysis of germination and seed dormancy mechanisms and pathways in wheat. [ABSTRACT FROM AUTHOR]

Published

2022

36. Proteome profiling of enzalutamide‐resistant cell lines and serum analysis identified ALCAM as marker of resistance in castration‐resistant prostate cancer.

Author

Csizmarik, Anita, Keresztes, Dávid, Nagy, Nikolett, Bracht, Thilo, Sitek, Barbara, Witzke, Kathrin, Puhr, Martin, Tornyi, Ilona, Lázár, József, Takács, László, Kramer, Gero, Sevcenco, Sabina, Maj‐Hes, Agnieszka, Jurányi, Zsolt, Hadaschik, Boris, Nyirády, Péter, and Szarvas, Tibor

Subjects

CASTRATION-resistant prostate cancer, LIQUID chromatography-mass spectrometry, BLOOD serum analysis, CELL lines, PROTEOMICS

Abstract

Enzalutamide (ENZA) is a frequently used therapy in metastatic castration‐resistant prostate cancer (mCRPC). Baseline or acquired resistance to ENZA have been observed, but the molecular mechanisms of resistance are poorly understood. We aimed to identify proteins involved in ENZA resistance and to find therapy‐predictive serum markers. We performed comparative proteome analyses on ENZA‐sensitive parental (LAPC4, DuCaP) and ‐resistant prostate cancer cell lines (LAPC4‐ENZA, DuCaP‐ENZA) using liquid chromatography tandem mass spectrometry (LC‐MS/MS). The top four most promising candidate markers were selected using bioinformatic approaches. Serum concentrations of selected markers (ALCAM, AGR2, NDRG1, IDH1) were measured in pretreatment samples of 72 ENZA‐treated mCRPC patients using ELISA. In addition, ALCAM serum levels were measured in 101 Abiraterone (ABI) and 100 Docetaxel (DOC)‐treated mCRPC patients' baseline samples. Results were correlated with clinical and follow‐up data. The functional role of ALCAM in ENZA resistance was assessed in vitro using siRNA. Our proteome analyses revealed 731 significantly differentially abundant proteins between ENZA‐sensitive and ‐resistant cells and our filtering methods identified four biomarker candidates. Serum analyses of these proteins revealed only ALCAM to be associated with poor patient survival. Furthermore, higher baseline ALCAM levels were associated with poor survival in ABI‐ but not in DOC‐treated patients. In LAPC4‐ENZA resistant cells, ALCAM silencing by siRNA knockdown resulted in significantly enhanced ENZA sensitivity. Our analyses revealed that ALCAM serum levels may help to identify ENZA‐ and ABI‐resistant patients and may thereby help to optimize future clinical decision‐making. Our functional analyses suggest the possible involvement of ALCAM in ENZA resistance. [ABSTRACT FROM AUTHOR]

Published

2022

37. Effect of alcohol on productivity and quality of adeno-associated virus 2 in HEK293 cells.

Author

Shiina, Shunsuke, Nagao, Nobuyoshi, Hasegawa, Junichi, Sato, Tori, Mori, Chinatsu, Ohtaki, Kaya, Kubodera, Kiyomi, Yamashita, Yuri, Tanabe, Kana, Kawano, Yasuhiro, and Aoyagi, Hideki

Subjects

*ADENO-associated virus, *PROTEOMICS, *GENETIC vectors, *CELL morphology, *GENE therapy, *PROTEIN analysis, *ETHANOL

Abstract

Investigation of enhancers to improve recombinant adeno-associated virus 2 (rAAV2) productivity by human embryonic kidney 293 cells (HEK293) suspension culture showed that the addition of ethanol improved the productivity and packaged genome integrity of rAAV2. Further optimization showed that adding ethanol in the range of 0.09%–1.11% (v/v) during rAAV2 production effectively improved rAAV2 productivity and quality. In addition, ethanol addition improved cell viability. Furthermore, proteome and pathway analysis of the cells during rAAV2 production showed that the addition of ethanol resulted in the upregulation of pathways related to intercellular signaling, gene expression, cell morphology, intercellular maintenance, and others. In contrast, pathways related to cell death, immunity, and reactions to infection were downregulated. These changes in pathway regulation were responsible for the improvement in rAAV2 productivity, packaged genome integrity, and cell viability during rAAV2 production. The results of this study can be applied to the production of viral vectors for in vivo gene therapy in an inexpensive and safe manner. • VPA in ethanol increases the productivity and genomic integrity of rAAV2 produced by HEK293 cells. • Effect is due to ethanol; VPA itself has a inhibitory effect • Ethanol also increases producer cell viability. • Low concentrations of ethanol (<1.11% (v/v)) more potent. • Pathway and protein analyses reveal several candidates that might be responsible for the ethanol effect [ABSTRACT FROM AUTHOR]

Published

2022

38. Anti-histone and anti-nucleosome rather than anti-dsDNA antibodies associate with IFN-induced biomarkers in Sudanese and Swedish Systemic Lupus Erythematosus patients.

Author

Elbagir, Sahwa, Mohammed, NasrEldeen A, Oke, Vilija, Larsson, Anders, Nilsson, Jan, Elshafie, Amir, Elagib, Elnour M, Nur, Musa A M, Gunnarsson, Iva, Svenungsson, Elisabet, Rönnelid, Johan, Elbagir, Sahwa, Mohammed, NasrEldeen A, Oke, Vilija, Larsson, Anders, Nilsson, Jan, Elshafie, Amir, Elagib, Elnour M, Nur, Musa A M, Gunnarsson, Iva, Svenungsson, Elisabet, and Rönnelid, Johan

Abstract

OBJECTIVES: In SLE, anti-dsDNA can co-occur with autoantibodies against other chromatin components, like histones and nucleosomes. These antibodies induce type-1 interferon production, a hallmark of SLE. We measured antinuclear antibody (ANA) sub-specificities and investigated their associations to inflammatory biomarkers including interferon-regulated chemokines. METHODS: We included 93 Sudanese and 480 Swedish SLE patients and matched controls (N = 104 + 192). Autoantibodies targeting ANA-subspecificites: dsDNA, Sm, Sm/U1RNPcomplex, U1RNP, SSA/Ro52, SSA/Ro60, SSB/La, ribosomal P, PCNA and histones were quantified in all subjects, anti-nucleosome only in the Swedish patients, with a bead-based multiplex immunoassay. Levels of 72 plasma biomarkers were determined with Proximity Extension Assay technique or ELISA. RESULTS: Among Sudanese patients, the investigated antibodies significantly associated with 9/72 biomarkers. Anti-histone antibodies showed the strongest positive correlations with MCP-3 and S100A12 as well as with interferon I-inducible factors MCP-1 and CXCL10. Anti-dsDNA antibodies associated with CXCL10 and S100A12, but in multivariate analyses, unlike anti-histone, associations lost significance.Among Swedish patients, MCP-1, CXCL10, SA100A12 also demonstrated stronger associations to anti-histone and anti-nucleosome antibodies, compared with anti-dsDNA and other ANA sub-specificities. In multiple regression models, anti-histone/nucleosome retained the strongest associations. When excluding anti-histone or anti-nucleosome positive patients, the associations between MCP-1/CXCL10 and anti-dsDNA were lost. In contrast, when excluding anti-dsDNA positive patients, associations with anti-histone and anti-nucleosome remained significant. CONCLUSION: In two cohorts of different ethnical origin, autoantibodies targeting chromatin correlate stronger with IFN-induced inflammatory biomarkers than anti-dsDNA or other ANA sub-specificities. Our results suggest that

Published

2024

39. Native Proteomics by Capillary Zone Electrophoresis-Mass Spectrometry.

Author

Wang Q, Wang Q, Qi Z, Moeller W, Wysocki VH, and Sun L

Subjects

Escherichia coli metabolism, Escherichia coli chemistry, Proteome analysis, Proteome chemistry, Electrophoresis, Capillary, Proteomics methods, Mass Spectrometry methods

Abstract

Native proteomics measures endogenous proteoforms and protein complexes under a near physiological condition using native mass spectrometry (nMS) coupled with liquid-phase separations. Native proteomics should provide the most accurate bird's-eye view of proteome dynamics within cells, which is fundamental for understanding almost all biological processes. nMS has been widely employed to characterize well-purified protein complexes. However, there are only very few trials of utilizing nMS to measure proteoforms and protein complexes in a complex sample (i.e., a whole cell lysate). Here, we pioneer the native proteomics measurement of large proteoforms or protein complexes up to 400 kDa from a complex proteome via online coupling of native capillary zone electrophoresis (nCZE) to an ultra-high mass range (UHMR) Orbitrap mass spectrometer. The nCZE-MS technique enabled the measurement of a 115-kDa standard protein complex while consuming only about 0.1 ng of protein material. nCZE-MS analysis of an E.coli cell lysate detected 72 proteoforms or protein complexes in a mass range of 30-400 kDa in a single run while consuming only 50-ng protein material. The mass distribution of detected proteoforms or protein complexes agreed well with that from mass photometry measurement. This work represents a technical breakthrough in native proteomics for measuring complex proteomes., (© 2024 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2024

40. Insights into the nutritional value of honeybee drone larvae (Apis mellifera) through proteomic profiling.

Author

Matuszewska-Mach E, Packi K, Rzetecka N, Wieliński W, Kokot ZJ, Kowalczyk D, and Matysiak J

Subjects

Animals, Bees metabolism, Allergens, Larva metabolism, Proteomics methods, Insect Proteins metabolism, Proteome analysis, Proteome metabolism, Nutritive Value

Abstract

There is a growing interest and demand for insect-based foods. Edible insects are rich in protein and other nutrients, making them valuable in the daily diet. However, their composition is not yet fully characterised. Therefore, this study aimed to analyse for the first time the qualitative proteome of honeybee (Apis mellifera) drone larvae using sophisticated sample preparation techniques and mass spectrometry. A total of 109 proteins were identified in the larvae. Of these, the largest plurality (38%) were enzymes. In addition, we identified proteins considered to be allergens - the cause of potentially dangerous effects after insect consumption. The results of the analyses may suggest that honeybee larvae are a protein-rich product, with over 100 unique proteins identified based on 1080 peptides. Enzymes indicate intensive development of the larvae. However, as well as nutritious compounds, honeybee larvae contain dangerous allergens. The composition of bee larvae needs to be further tested to make them safe for consumption., Competing Interests: Declarations Competing interests The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

41. Tunable Activated Esters Enable Lysine-Selective Protein Labeling and Profiling.

Author

Wan C, Yang D, An Y, Kong L, Zhou Z, Tang L, Zhang Z, Dai Y, and Wang R

Subjects

Humans, Staining and Labeling, Proteomics methods, Proteome analysis, Proteome chemistry, Proteome metabolism, Lysine chemistry, Lysine metabolism, Esters chemistry, Esters metabolism, Proteins metabolism, Proteins chemistry, Proteins analysis

Abstract

Lysine residues on protein surfaces are abundant and often found in enzyme active sites, making them critical targets for studying undruggable proteins. However, the varied microenvironment surrounding lysine residues results in a wide range of p K a values, complicating site-specific covalent binding. In this study, we address the challenges posed by the diverse reactivity of amino side chains by modulating the amide reaction activity of heteroaromatic activated esters. By fine-tuning the type, position, and number of heteroatoms, we successfully rationalized the regulation of their amide reaction activity, leading to the design of probes for selective lysine labeling within the proteome for profiling purposes. Systematic optimization of these esters' reactivity and selectivity has yielded a series of effective probes suitable for both in vitro and cellular applications. These findings significantly enhance our understanding of protein functions and mechanisms, facilitated by the precise identification and analysis of protein labeling and profiling.

Published

2024

42. The regulation mechanism of ethephon-mediated delaying of postharvest physiological deterioration in cassava storage roots based on quantitative acetylproteomes analysis.

Author

Yan Y, Li M, Ding Z, Yang J, Xie Z, Ye X, Tie W, Tao X, Chen G, Huo K, Ma J, Ye J, and Hu W

Subjects

Ethylenes metabolism, Ethylenes pharmacology, Acetylation, Reactive Oxygen Species metabolism, Antioxidants metabolism, Malondialdehyde metabolism, Proteome metabolism, Proteome drug effects, Proteome analysis, Plant Growth Regulators pharmacology, Plant Growth Regulators metabolism, Hydrogen Peroxide metabolism, Manihot metabolism, Manihot chemistry, Organophosphorus Compounds pharmacology, Organophosphorus Compounds metabolism, Plant Roots metabolism, Plant Roots drug effects, Plant Roots growth & development, Plant Roots chemistry, Plant Proteins metabolism, Plant Proteins genetics

Abstract

Ethylene plays diverse roles in post-harvest processes of horticultural crops. However, its impact and regulation mechanism on the postharvest physiological deterioration (PPD) of cassava storage roots is unknown. In this study, a notable delay in PPD of cassava storage roots was observed when ethephon was utilized as an ethylene source. Physiological analyses and quantitative acetylproteomes were employed to investigate the regulation mechanism regulating cassava PPD under ethephon treatment. Ethephon was found to enhance the reactive oxygen species (ROS) scavenging system, resulting in a significant decrease in H 2 O 2 and malondialdehyde (MDA) content. The comprehensive acetylome analysis identified 12,095 acetylation sites on 4403 proteins. Subsequent analysis demonstrated that ethephon can regulate the acetylation levels of antioxidant enzymes and members of the energy metabolism pathways. In summary, ethephon could enhance the antioxidant properties and regulate energy metabolism pathways, leading to the delayed PPD of cassava., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2024

43. Proteomic analysis of human Wharton's jelly mesenchymal stem/stromal cells and human amniotic epithelial stem cells: a comparison of therapeutic potential.

Author

Ge Z, Qiu C, Zhou J, Yang Z, Jiang T, Yuan W, Yu L, and Li J

Subjects

Humans, Cells, Cultured, Proteome metabolism, Proteome analysis, Cell Differentiation, Extracellular Matrix metabolism, Mesenchymal Stem Cells metabolism, Mesenchymal Stem Cells cytology, Wharton Jelly cytology, Amnion cytology, Amnion metabolism, Proteomics methods, Epithelial Cells metabolism, Epithelial Cells cytology

Abstract

Perinatal stem cells have prominent applications in cell therapy and regenerative medicine. Among them, human Wharton's jelly mesenchymal stem/stromal cells (hWJMSCs) and human amniotic epithelial stem cells (hAESCs) have been widely used. However, the distinction in the therapeutic potential of hWJMSCs and hAESCs is poorly understood. In this study, we reported the phenotypic differences between these two distinct cell types and provided the first systematic comparison of their therapeutic potential in terms of immunomodulation, extracellular matrix (ECM) remodelling, angiogenesis and antioxidative stress using proteomics. The results revealed that the two cell types presented different protein expression profiles and were both promising candidates for cell therapy. Both types of cells demonstrated angiogenic and antifibrotic potential, whereas hAESCs presented superior immunological tolerance and antioxidant properties, which were supported by a series of relevant in vitro assays. Our study provides clues for the selection of appropriate cell types for diverse indications in cell therapy, which contributes to the advancement of their clinical translation and application., Competing Interests: Declarations Competing interests The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

44. Plasma proteome profiling in giant cell arteritis.

Author

Cunningham KY, Hur B, Gupta VK, Koster MJ, Weyand CM, Cuthbertson D, Khalidi NA, Koening CL, Langford CA, McAlear CA, Monach PA, Moreland LW, Pagnoux C, Rhee RL, Seo P, Merkel PA, Warrington KJ, and Sung J

Subjects

Humans, Female, Male, Aged, Prospective Studies, Case-Control Studies, Biomarkers blood, Proteomics methods, Longitudinal Studies, Aged, 80 and over, Middle Aged, Giant Cell Arteritis blood, Proteome analysis, Blood Proteins analysis

Abstract

Objectives: This study aimed to identify plasma proteomic signatures that differentiate active and inactive giant cell arteritis (GCA) from non-disease controls. By comprehensively profiling the plasma proteome of both patients with GCA and controls, we aimed to identify plasma proteins that (1) distinguish patients from controls and (2) associate with disease activity in GCA., Methods: Plasma samples were obtained from 30 patients with GCA in a multi-institutional, prospective longitudinal study: one captured during active disease and another while in clinical remission. Samples from 30 age-matched/sex-matched/race-matched non-disease controls were also collected. A high-throughput, aptamer-based proteomics assay, which examines over 7000 protein features, was used to generate plasma proteome profiles from study participants., Results: After adjusting for potential confounders, we identified 537 proteins differentially abundant between active GCA and controls, and 781 between inactive GCA and controls. These proteins suggest distinct immune responses, metabolic pathways and potentially novel physiological processes involved in each disease state. Additionally, we found 16 proteins associated with disease activity in patients with active GCA. Random forest models trained on the plasma proteome profiles accurately differentiated active and inactive GCA groups from controls (95.0% and 98.3% in 10-fold cross-validation, respectively). However, plasma proteins alone provided limited ability to distinguish between active and inactive disease states within the same patients., Conclusions: This comprehensive analysis of the plasma proteome in GCA suggests that blood protein signatures integrated with machine learning hold promise for discovering multiplex biomarkers for GCA., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2024. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ on behalf of EULAR.)

Published

2024

45. Comparative Analysis of Skim Milk and Milk Fat Globule Membrane Proteomes between Human and Farm Animal Milk for Infant Formula Production.

Author

Zhang W, Chen B, Zhu H, Hettinga K, Pang X, Zhang S, Li K, Jiang S, and Lyu J

Subjects

Animals, Humans, Equidae, Proteome analysis, Proteome metabolism, Cattle metabolism, Infant, Lipid Droplets metabolism, Glycoproteins metabolism, Glycoproteins chemistry, Glycoproteins analysis, Goats, Glycolipids metabolism, Glycolipids chemistry, Infant Formula chemistry, Milk chemistry, Milk metabolism, Milk, Human chemistry, Milk, Human metabolism, Camelus, Milk Proteins metabolism, Milk Proteins chemistry, Milk Proteins analysis

Abstract

Human and animal milk contain a rich variety of milk proteins that meet the needs of their newborns. In total, 1263 skim milk proteins and 1754 MFGM proteins were identified in human milk and six types of animal milk, respectively. Both similarities and differences were observed among the species. Human milk contained more immunoglobulins involved in the adaptive immune response, playing a crucial role in mucosal defense in newborn babies. In contrast, ruminant milk contained higher amounts of antimicrobial proteins, which protect newborns from bacterial infections. The most dominant difference in MFGM proteins between human and animal milk was related to protein processing in the endoplasmic reticulum. Goat milk and camel milk were more similar to human milk in terms of skim milk and MFGM proteins compared to the other five types of animal milk. Moreover, immunoglobulins and complement and coagulation cascade proteins in goat milk were most similar to those in human milk. A higher content of immunoglobulin A was observed in donkey milk, which could be considered as a source of IgA in infant formula. These results provide more comprehensive and novel insights into protein variation among animal milk, which may support improving dairy products such as infant formula.

Published

2024

46. Comparison of the protein composition of isolated extracellular vesicles from mouse brain and dissociated brain cell culture medium.

Author

Xu Z, Foster JB, Lashley R, Wang X, Muhleman AJ, Masters CE, and Lin CG

Subjects

Animals, Mice, Proteome metabolism, Proteome analysis, Proteomics methods, Mice, Inbred C57BL, Cells, Cultured, Prosencephalon metabolism, Prosencephalon cytology, Extracellular Vesicles metabolism, Brain metabolism, Brain cytology, Culture Media chemistry

Abstract

Extracellular vesicles (EVs) play a crucial role in intercellular communication. Characterizing EV protein composition is essential to understand EV function(s). Isolating EVs from cell culture medium is a common approach to study EVs, but it remains unclear whether EVs isolated from in vitro conditions accurately reflect physiological conditions of the same source in vivo tissues. Here, we analyzed the protein composition of EVs isolated from freshly dissected mouse forebrain and primary dissociated mouse forebrain culture medium. In total, 3,204 and 3,583 proteins were identified in EVs isolated in vivo and in vitro, respectively. Among the proteins identified from both EV sources, there was substantial overlap (~86%). While the overall proteome compositions were very similar, in vitro EVs were relatively enriched with transmembrane/GPI-anchored membrane and cytosolic proteins (MISEV2023 category 1 and 2) typically associated with EVs. Conversely, while both in vivo and in vitro EVs express likely non-EV proteins (MISEV2023 category 3), the in vivo samples were significantly more enriched with these probable contaminants, specifically ribosomal proteins. Our findings highlight that in vitro EVs may be representative of in vivo EVs when isolated from the same source tissue using similar methodology; however, each population of EVs have differences in both total and, primarily, relative protein expression likely due to differing levels of co-eluting contaminants. Therefore, these points must be considered when interpreting results of EV studies further suggesting that improved methods of isolation to reduce non-EV contaminants should be further investigated., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Xu et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

47. Effective enrichment of glycated proteome using ultrasmall gold nanoclusters functionalized with boronic acid.

Author

Heo H, Cho S, Kim Y, Ahn S, Mok JH, Lee H, and Lee D

Subjects

Humans, Glycosylation, Glutathione chemistry, Glycopeptides chemistry, Gold chemistry, Boronic Acids chemistry, Metal Nanoparticles chemistry, Proteome analysis, Proteome chemistry

Abstract

Glycated proteins play a crucial role in various biological pathways and the pathogenesis of human diseases. A comprehensive analysis of glycated proteins is essential for understanding their biological significance. However, their low abundance and heterogeneity in complex biological samples necessitate an enrichment procedure prior to their detection. Current enrichment strategies primarily rely on the boronic acid (BA) affinity method combined with functional nanoparticles; however, the effectiveness of these approaches is often suboptimal. In this study, a novel nanocluster (NC)-based enrichment material was synthesized for the first time, characterized as Au 22 SG 18 functionalized with 24 BA groups, in which SG is glutathione. The functionalized BA established a reversible covalent bond with the cis -dihydroxy group through pH adjustment, enabling selective enrichment of glycated peptides. After the optimization of the enrichment protocol, we demonstrated highly sensitive and selective enrichment of standard glycopeptides using the NC-based enrichment material, exhibiting excellent reusability. Efficient enrichment was also demonstrated for the glycated proteome from human serum. These results highlight the potential of the atomically well-defined ultrasmall Au NCs as a powerful tool for high-throughput analysis of glycated peptides.

Published

2024

48. Evaluation of Serum Proteome Sample Preparation Methods to Support Clinical Proteomics Applications.

Author

Twigg CAI, Perez JM, Ryu J, Hanson BK, Barrera Estrada VJ, and Thomas SN

Subjects

Humans, Female, Trypsin chemistry, Trypsin metabolism, Reproducibility of Results, Biomarkers, Tumor blood, Specimen Handling methods, Tandem Mass Spectrometry methods, Proteomics methods, Ovarian Neoplasms blood, Ovarian Neoplasms chemistry, Proteome analysis, Blood Proteins analysis, Blood Proteins chemistry

Abstract

Serum contains several proteins that are associated with disease-related processes. Mass spectrometry (MS)-based proteomics approaches greatly facilitate serum protein biomarker development. However, the serum proteome complexity presents a technical challenge for the accurate, sensitive, and reproducible quantification of proteins by MS. Thus, efficient sample preparation methods are of critical importance for serum proteome analyses. In this study, we evaluated the technical performance of two serum proteome sample preparation methods using sera from patients with high-grade serous ovarian cancer and patients with benign nongynecological conditions with a goal of providing insight into their compatibility with clinical proteomics workflows. One method entailed the use of immobilized trypsin (SMART Digest Trypsin) with RapiGest SF, an acid-labile surfactant designed to enhance the in-solution enzymatic digestion of proteins. The other method incorporated a commercially available sample preparation kit, iST-BCT, which contains standardized reagents. Significantly higher protein sequence coverage, albeit with lower digestion efficiency, was obtained with the immobilized trypsin + RapiGest SF workflow, whereas the iST-BCT workflow was quicker and had marginally better reproducibility. Protein relative abundance analysis revealed that the serum proteomes clustered primarily by the sample processing workflow and secondarily by disease state. We conducted a time course study to determine whether differences in the relative abundance of diagnostic high-grade serous ovarian cancer serum protein biomarker candidates were biased according to the duration of enzymatic digestion. Our results highlight the importance of optimizing enzymatic digestion kinetics according to the peptide targets of interest while considering the sensitivity of the downstream analytical method utilized in clinical proteomics workflows designed to measure biomarkers.

Published

2024

49. IS-PRM-Based Peptide Targeting Informed by Long-Read Sequencing for Alternative Proteome Detection.

Author

Korchak JA, Jeffery ED, Bandyopadhyay S, Jordan BT, Lehe MD, Watts EF, Fenix A, Wilhelm M, and Sheynkman GM

Subjects

Humans, Tandem Mass Spectrometry methods, Cell Line, Proteogenomics methods, Sequence Analysis, RNA methods, Proteome analysis, Protein Isoforms analysis, Alternative Splicing, Peptides chemistry, Peptides analysis

Abstract

Alternative splicing is a major contributor of transcriptomic complexity, but the extent to which transcript isoforms are translated into stable, functional protein isoforms is unclear. Furthermore, detection of relatively scarce isoform-specific peptides is challenging, with many protein isoforms remaining uncharted due to technical limitations. Recently, a family of advanced targeted MS strategies, termed internal standard parallel reaction monitoring (IS-PRM), have demonstrated multiplexed, sensitive detection of predefined peptides of interest. Such approaches have not yet been used to confirm existence of novel peptides. Here, we present a targeted proteogenomic approach that leverages sample-matched long-read RNA sequencing (lrRNA-seq) data to predict potential protein isoforms with prior transcript evidence. Predicted tryptic isoform-specific peptides, which are specific to individual gene product isoforms, serve as "triggers" and "targets" in the IS-PRM method, Tomahto. Using the model human stem cell line WTC11, LR RNaseq data were generated and used to inform the generation of synthetic standards for 192 isoform-specific peptides (114 isoforms from 55 genes). These synthetic "trigger" peptides were labeled with super heavy tandem mass tags (TMT) and spiked into TMT-labeled WTC11 tryptic digest, predicted to contain corresponding endogenous "target" peptides. Compared to DDA mode, Tomahto increased detectability of isoforms by 3.6-fold, resulting in the identification of five previously unannotated isoforms. Our method detected protein isoform expression for 43 out of 55 genes corresponding to 54 resolved isoforms. This lrRNA-seq-informed Tomahto targeted approach is a new modality for generating protein-level evidence of alternative isoforms─a critical first step in designing functional studies and eventually clinical assays.

Published

2024

50. Microalgae and cyanobacteria as microbial substrate and their influence on the potential postbiotic capability of a bacterial probiotic.

Author

Domínguez-Maqueda M, Pérez-Gómez O, García-Márquez J, Espinosa-Ruíz C, Cuesta A, Esteban MÁ, Alarcón-López FJ, Cárdenas C, Tapia-Paniagua ST, Balebona MC, and Moriñigo MÁ

Subjects

Animals, Cell Line, Fishes microbiology, Culture Media chemistry, Proteome analysis, Cell Survival drug effects, Temperature, Probiotics metabolism, Microalgae metabolism, Shewanella putrefaciens metabolism

Abstract

Postbiotics are metabolic by-products from microorganisms that provide health benefits to the host. Their secretion can be influenced by various conditions affecting bacterial metabolism. This study presents a novel approach for producing potential postbiotics, specifically extracellular products (ECPs), from the probiotic strain Shewanella putrefaciens SpPdp11, grown under different culture conditions. These conditions include aquafeed media, with partial or total microalgae/cyanobacteria replacement as the microbial substrate, as well as variations in temperature and growth phase. The use of microalgae/cyanobacteria as substrates may represent a valuable strategy for generating novel postbiotics with unique properties. The ECPs assessed were evaluated for their in vitro cytotoxic, hydrolytic and antimicrobial activities. Three conditions (ECPs derived from aquafeed media with partial (FM2324 and FM1548) or total (M2324) microalgae/cyanobacteria replacement) were non-cytotoxic to various fish cell lines and hydrolysed key nutritional compounds (casein, lipids, amylase and gelatin). Proteomic analysis of these ECP conditions revealed common structural and regulatory DNA-associated proteins, while differentially expressed proteins were associated with amino acid metabolism and antioxidant system (FM2324 and FM1548) and chemotaxis system (M2324). The results highlight the potential of the selected postbiotics as feed additives for future in vivo studies, aligning with sustainable development for aquaculture., (© 2024 The Author(s). Microbial Biotechnology published by John Wiley & Sons Ltd.)

Published

2024