Your search keyword '"Domont GB"' showing total 55 results

1. ANALYZING DECELLULARIZED AND RECELLULARIZED LIVER SCAFFOLDS USING PROTEOMICS

Author

Paranhos, BA, primary, Dias, LM, additional, Faccioli, L, additional, Domont, GB, additional, Nogueira, FCS, additional, and Goldenberg, RCS, additional

Published

2021

2. The Interaction of the Antitoxin DM43 with a Snake Venom Metalloproteinase Analyzed by Mass Spectrometry and Surface Plasmon Resonance

Author

Brand, GD, Salbo, R, Jorgensen, TJD, Jr, BC, Erba, EB, Robinson, CV, Tanjoni, I, Moura-da-Silva, AM, Roepstorff, P, Domont, GB, Perales, J, Valente, RH, and Neves-Ferreira, AGC

Abstract

DM43 is a circulating dimeric antitoxin isolated from Didelphis aurita, a South American marsupial naturally immune to snake envenomation. This endogenous inhibitor binds non-covalently to jararhagin, the main hemorrhagic metalloproteinase from Bothrops jararaca snake venom, and efficiently neutralizes its toxicity. The aim of this study was to apply mass spectrometry (MS) and surface plasmon resonance (SPR) to improve the molecular characterization of this heterocomplex. The stoichiometry of the interaction was confirmed by nanoelectrospray ionization-quadrupole-time-of-flight MS; from native solution conditions, the complex showed a molecular mass of ~94 kDa, indicating that one molecule of jararhagin (50 kDa) interacts with one monomer of DM43 (43 kDa). Although readily observed in solution, the dimeric structure of the inhibitor was barely preserved in the gas phase. This result suggests that, in contrast to the toxin-antitoxin complex, hydrophobic interactions are the primary driving force for the inhibitor dimerization. For the real-time interaction analysis, the toxin was captured on a sensor chip derivatized with the anti-jararhagin monoclonal antibody MAJar 2. The sensorgrams obtained after successive injections of DM43 in a concentration series were globally fitted to a simple bimolecular interaction, yielding the following kinetic rates for the DM43/jararhagin interaction: k(a) = 3.54 ± 0.03 × 10(4) M(-1) s(-1) and k(d) = 1.16 ± 0.07 × 10(-5) s(-1), resulting in an equilibrium dissociation constant (K(D) ) of 0.33 ± 0.06 nM. Taken together, MS and SPR results show that DM43 binds to its target toxin with high affinity and constitute the first accurate quantitative study on the extent of the interaction between a natural inhibitor and a metalloproteinase toxin, with unequivocal implications for the use of this kind of molecule as template for the rational development of novel antivenom therapies.

Published

2016

3. Quest for Missing Proteins: Update 2015 on Chromosome-Centric Human Proteome Project

Author

Horvatovich, Peter, Lundberg, Emma K., Chen, Yu Ju, Sung, Ting Yi, He, Fuchu, Nice, Ec, Goode, Robert J, Yu, Simon, Ranganathan, Shoba, Baker, Mark S, Domont, Gb, Velasquez, Erika, Li, Dong, Liu, Siqi, Wang, Quanhui, He, Qing Yu, Menon, Rajasree, Guan, Yuanfang, Corrales, Fj, Segura, Victor, Casal, Ji, Pascual Montano, A, Albar, Jp, Fuentes, Manuel, Gonzalez Gonzalez, M, Diez, Paula, Ibarrola, Nieve, Degano, Rosa M, Mohammed, Yassene And Borcher, Urbani, Andrea, Soggiu, Alessio, Yamamoto, Tadashi, Salekdeh, Ghasem Hosseini, Archakov, Alexander, Ponomarenko, Elena, Lisitsa, Andrey, Lichti, Cheryl F, Mostovenko, Ekaterina, Kroes, Roger A, Rezeli, Melinda, Vegvari, Ako, Fehniger, Thomas E, Bischoff, Rainer, Vizcaino, Juan Antonio, Deutsch, Eric W, Lane, Lydie, Nilsson, Carol L, Marko Varga, Gyorgy, Omenn, Gilbert S, Jeong, Seul Ki, Lim, Jong Sun, Paik, Young Ki, Hancock, William S., Urbani, Andrea (ORCID:0000-0001-9168-3174), Horvatovich, Peter, Lundberg, Emma K., Chen, Yu Ju, Sung, Ting Yi, He, Fuchu, Nice, Ec, Goode, Robert J, Yu, Simon, Ranganathan, Shoba, Baker, Mark S, Domont, Gb, Velasquez, Erika, Li, Dong, Liu, Siqi, Wang, Quanhui, He, Qing Yu, Menon, Rajasree, Guan, Yuanfang, Corrales, Fj, Segura, Victor, Casal, Ji, Pascual Montano, A, Albar, Jp, Fuentes, Manuel, Gonzalez Gonzalez, M, Diez, Paula, Ibarrola, Nieve, Degano, Rosa M, Mohammed, Yassene And Borcher, Urbani, Andrea, Soggiu, Alessio, Yamamoto, Tadashi, Salekdeh, Ghasem Hosseini, Archakov, Alexander, Ponomarenko, Elena, Lisitsa, Andrey, Lichti, Cheryl F, Mostovenko, Ekaterina, Kroes, Roger A, Rezeli, Melinda, Vegvari, Ako, Fehniger, Thomas E, Bischoff, Rainer, Vizcaino, Juan Antonio, Deutsch, Eric W, Lane, Lydie, Nilsson, Carol L, Marko Varga, Gyorgy, Omenn, Gilbert S, Jeong, Seul Ki, Lim, Jong Sun, Paik, Young Ki, Hancock, William S., and Urbani, Andrea (ORCID:0000-0001-9168-3174)

Abstract

This paper summarizes the recent activities of the Chromosome-Centric Human Proteome Project (C-HPP) consortium, which develops new technologies to identify yet-to-be annotated proteins (termed "missing proteins") in biological samples that lack sufficient experimental evidence at the protein level for confident protein identification. The C-HPP also aims to identify new protein forms that may be caused by genetic variability, post-translational modifications, and alternative splicing. Proteogenomic data integration forms the basis of the C-HPP's activities; therefore, we have summarized some of the key approaches and their roles in the project. We present new analytical technologies that improve the chemical space and lower detection limits coupled to bioinformatics tools and some publicly available resources that can be used to improve data analysis or support the development of analytical assays. Most of this paper's content has been compiled from posters, slides, and discussions presented in the series of C-HPP workshops held during 2014. All data (posters, presentations) used are available at the C-HPP Wild (http://c-hpp.webhosting.rug.nl/) and in the Supporting Information.

Published

2015

4. Mitochondrial dysfunction and immune suppression in BRAF V600E-mutated metastatic melanoma.

Author

Pinto de Almeida N, Jánosi ÁJ, Hong R, Rajeh A, Nogueira F, Szadai L, Szeitz B, Pla Parada I, Doma V, Woldmar N, Guedes J, Újfaludi Z, Bartha A, Kim Y, Welinder C, Baldetorp B, Kemény LV, Pahi Z, Wan G, Nguyen N, Pankotai T, Győrffy B, Pawłowski K, Horvatovich P, Szasz AM, Sanchez A, Kuras M, Rodriguez Murillo J, Betancourt L, Domont GB, Semenov YR, Yu KH, Kwon HJ, Németh IB, Fenyő D, Wieslander E, Marko-Varga G, and Gil J

Subjects

Humans, Mutation, Mitochondria genetics, Male, Female, Middle Aged, Neoplasm Metastasis genetics, Melanoma genetics, Melanoma drug therapy, Melanoma immunology, Proto-Oncogene Proteins B-raf genetics

Published

2024

5. β-1,3-Glucan recognition by Acanthamoeba castellanii as a putative mechanism of amoeba-fungal interactions.

Author

Ferreira MdS, Gonçalves DdS, Mendoza SR, de Oliveira GA, Pontes B, la Noval CR-d, Honorato L, Ramos LFC, Nogueira FCS, Domont GB, Casadevall A, Nimrichter L, Peralta JM, and Guimaraes AJ

Subjects

Mannose metabolism, Proteomics, Glucans metabolism, Histoplasma metabolism, Acanthamoeba castellanii, Amoeba metabolism, beta-Glucans metabolism

Abstract

In this study, we conducted an in-depth analysis to characterize potential Acanthamoeba castellanii ( Ac ) proteins capable of recognizing fungal β-1,3-glucans. Ac specifically anchors curdlan or laminarin, indicating the presence of surface β-1,3-glucan-binding molecules. Using optical tweezers, strong adhesion of laminarin- or curdlan-coated beads to Ac was observed, highlighting their adhesive properties compared to controls (characteristic time τ of 46.9 and 43.9 s, respectively). Furthermore, Histoplasma capsulatum ( Hc ) G217B, possessing a β-1,3-glucan outer layer, showed significant adhesion to Ac compared to a Hc G186 strain with an α-1,3-glucan outer layer (τ of 5.3 s vs τ 83.6 s). The addition of soluble β-1,3-glucan substantially inhibited this adhesion, indicating the involvement of β-1,3-glucan recognition. Biotinylated β-1,3-glucan-binding proteins from Ac exhibited higher binding to Hc G217B, suggesting distinct recognition mechanisms for laminarin and curdlan, akin to macrophages. These observations hinted at the β-1,3-glucan recognition pathway's role in fungal entrance and survival within phagocytes, supported by decreased fungal viability upon laminarin or curdlan addition in both phagocytes. Proteomic analysis identified several Ac proteins capable of binding β-1,3-glucans, including those with lectin/glucanase superfamily domains, carbohydrate-binding domains, and glycosyl transferase and glycosyl hydrolase domains. Notably, some identified proteins were overexpressed upon curdlan/laminarin challenge and also demonstrated high affinity to β-1,3-glucans. These findings underscore the complexity of binding via β-1,3-glucan and suggest the existence of alternative fungal recognition pathways in Ac .IMPORTANCE Acanthamoeba castellanii ( Ac ) and macrophages both exhibit the remarkable ability to phagocytose various extracellular microorganisms in their respective environments. While substantial knowledge exists on this phenomenon for macrophages, the understanding of Ac 's phagocytic mechanisms remains elusive. Recently, our group identified mannose-binding receptors on the surface of Ac that exhibit the capacity to bind/recognize fungi. However, the process was not entirely inhibited by soluble mannose, suggesting the possibility of other interactions. Herein, we describe the mechanism of β-1,3-glucan binding by A. castellanii and its role in fungal phagocytosis and survival within trophozoites, also using macrophages as a model for comparison, as they possess a well-established mechanism involving the Dectin-1 receptor for β-1,3-glucan recognition. These shed light on a potential parallel evolution of pathways involved in the recognition of fungal surface polysaccharides., Competing Interests: The authors declare no conflict of interest.

Published

2024

6. Mitochondrial and immune response dysregulation in melanoma recurrence.

Author

Szadai L, Guedes JS, Woldmar N, de Almeida NP, Jánosi ÁJ, Rajeh A, Kovács F, Kriston A, Migh E, Wan G, Nguyen N, Oskolás H, Appelqvist R, Nogueira FC, Domont GB, Yu KH, Semenov ER, Malm J, Rezeli M, Wieslander E, Fenyö D, Kemény L, Horvath P, Németh IB, Marko-Varga G, and Gil J

Subjects

Humans, Mitochondria, Immunity, Melanoma

Published

2023

7. Proteomic analysis of brain metastatic lung adenocarcinoma reveals intertumoral heterogeneity and specific alterations associated with the timing of brain metastases.

Author

Woldmar N, Schwendenwein A, Kuras M, Szeitz B, Boettiger K, Tisza A, László V, Reiniger L, Bagó AG, Szállási Z, Moldvay J, Szász AM, Malm J, Horvatovich P, Pizzatti L, Domont GB, Rényi-Vámos F, Hoetzenecker K, Hoda MA, Marko-Varga G, Schelch K, Megyesfalvi Z, Rezeli M, and Döme B

Subjects

Humans, Proteomics, Biomarkers, Tumor, Brain metabolism, Brain pathology, Lung Neoplasms pathology, Adenocarcinoma of Lung, Brain Neoplasms secondary

Abstract

Background: Brain metastases are associated with considerable negative effects on patients' outcome in lung adenocarcinoma (LADC). Here, we investigated the proteomic landscape of primary LADCs and their corresponding brain metastases., Materials and Methods: Proteomic profiling was conducted on 20 surgically resected primary and brain metastatic LADC samples via label-free shotgun proteomics. After sample processing, peptides were analyzed using an Ultimate 3000 pump coupled to a QExactive HF-X mass spectrometer. Raw data were searched using PD 2.4. Further data analyses were carried out using Perseus, RStudio and GraphPad Prism. Proteomic data were correlated with clinical and histopathological parameters and the timing of brain metastases. Mass spectrometry-based proteomic data are available via ProteomeXchange with identifier PXD027259., Results: Out of the 6821 proteins identified and quantified, 1496 proteins were differentially expressed between primary LADCs and corresponding brain metastases. Pathways associated with the immune system, cell-cell/matrix interactions and migration were predominantly activated in the primary tumors, whereas pathways related to metabolism, translation or vesicle formation were overrepresented in the metastatic tumors. When comparing fast- versus slow-progressing patients, we found 454 and 298 differentially expressed proteins in the primary tumors and brain metastases, respectively. Metabolic reprogramming and ribosomal activity were prominently up-regulated in the fast-progressing patients (versus slow-progressing individuals), whereas expression of cell-cell interaction- and immune system-related pathways was reduced in these patients and in those with multiple brain metastases., Conclusions: This is the first comprehensive proteomic analysis of paired primary tumors and brain metastases of LADC patients. Our data suggest a malfunction of cellular attachment and an increase in ribosomal activity in LADC tissue, promoting brain metastasis. The current study provides insights into the biology of LADC brain metastases and, moreover, might contribute to the development of personalized follow-up strategies in LADC., Competing Interests: Disclosure The authors have declared no conflicts of interest. Data sharing The mass spectrometry proteomic data have been deposited to the ProteomeXchange Consortium via the PRIDE partner repository with the dataset identifier PXD027259. Ethics approval and consent to participate All samples were collected under informed written consent (ethical approval, 2521-0/2010-1018EKU)., (Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2023

8. Correction: The oldest unvaccinated Covid-19 survivors in South America.

Author

de Castro MV, Silva MVR, Naslavsky MS, Scliar MO, Nunes K, Passos-Bueno MR, Castelli EC, Magawa JY, Adami FL, Moretti AIS, de Oliveira VL, Boscardin SB, Cunha-Neto E, Kalil J, Jouanguy E, Bastard P, Casanova JL, Quiñones-Vega M, Sosa-Acosta P, Guedes JS, de Almeida NP, Nogueira FCS, Domont GB, Santos KS, and Zatz M

Published

2022

9. Modelling premature cardiac aging with induced pluripotent stem cells from a hutchinson-gilford Progeria Syndrome patient.

Author

Monnerat G, Kasai-Brunswick TH, Asensi KD, Silva Dos Santos D, Barbosa RAQ, Cristina Paccola Mesquita F, Calvancanti Albuquerque JP, Raphaela PF, Wendt C, Miranda K, Domont GB, Nogueira FCS, Bastos Carvalho A, and Campos de Carvalho AC

Abstract

Hutchinson-Gilford Progeria Syndrome (HGPS) is a rare genetic disorder that causes accelerated aging and a high risk of cardiovascular complications. However, the underlying mechanisms of cardiac complications of this syndrome are not fully understood. This study modeled HGPS using cardiomyocytes (CM) derived from induced pluripotent stem cells (iPSC) derived from a patient with HGPS and characterized the biophysical, morphological, and molecular changes found in these CM compared to CM derived from a healthy donor. Electrophysiological recordings suggest that the HGPS-CM was functional and had normal electrophysiological properties. Electron tomography showed nuclear morphology alteration, and the 3D reconstruction of electron tomography images suggests structural abnormalities in HGPS-CM mitochondria, however, there was no difference in mitochondrial content as measured by Mitotracker. Immunofluorescence indicates nuclear morphological alteration and confirms the presence of Troponin T. Telomere length was measured using qRT-PCR, and no difference was found in the CM from HGPS when compared to the control. Proteomic analysis was carried out in a high-resolution system using Liquid Chromatography Tandem Mass Spectrometry (LC-MS/MS). The proteomics data show distinct group separations and protein expression differences between HGPS and control-CM, highlighting changes in ribosomal, TCA cycle, and amino acid biosynthesis, among other modifications. Our findings show that iPSC-derived cardiomyocytes from a Progeria Syndrome patient have significant changes in mitochondrial morphology and protein expression, implying novel mechanisms underlying premature cardiac aging., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Monnerat, Kasai-Brunswick, Asensi, Silva dos Santos, Barbosa, Cristina Paccola Mesquita, Calvancanti Albuquerque, Raphaela, Wendt, Miranda, Domont, Nogueira, Bastos Carvalho and Campos de Carvalho.)

Published

2022

10. Extracellular Vesicles from Bothrops jararaca Venom Are Diverse in Structure and Protein Composition and Interact with Mammalian Cells.

Author

Gonçalves-Machado L, Verçoza BRF, Nogueira FCS, Melani RD, Domont GB, Rodrigues SP, Rodrigues JCF, and Zingali RB

Subjects

Animals, Proteomics, Proteins, Snake Venoms, Mammals, Crotalid Venoms chemistry, Bothrops, Extracellular Vesicles

Abstract

Snake venoms are complex cocktails of non-toxic and toxic molecules that work synergistically for the envenoming outcome. Alongside the immediate consequences, chronic manifestations and long-term sequelae can occur. Recently, extracellular vesicles (EVs) were found in snake venom. EVs mediate cellular communication through long distances, delivering proteins and nucleic acids that modulate the recipient cell's function. However, the biological roles of snake venom EVs, including possible cross-organism communication, are still unknown. This knowledge may expand the understanding of envenoming mechanisms. In the present study, we isolated and characterized the EVs from Bothrops jararaca venom (Bj-EVs), giving insights into their biological roles. Fresh venom was submitted to differential centrifugation, resulting in two EV populations with typical morphology and size range. Several conserved EV markers and a subset of venom related EV markers, represented mainly by processing enzymes, were identified by proteomic analysis. The most abundant protein family observed in Bj-EVs was 5'-nucleotidase, known to be immunosuppressive and a low abundant and ubiquitous toxin in snake venoms. Additionally, we demonstrated that mammalian cells efficiently internalize Bj-EVs. The commercial antibothropic antivenom partially recognizes Bj-EVs and inhibits cellular EV uptake. Based on the proteomic results and the in vitro interaction assays using macrophages and muscle cells, we propose that Bj-EVs may be involved not only in venom production and processing but also in host immune modulation and long-term effects of envenoming.

Published

2022

11. The oldest unvaccinated Covid-19 survivors in South America.

Author

de Castro MV, Silva MVR, Naslavsky MS, Scliar MO, Nunes K, Passos-Bueno MR, Castelli EC, Magawa JY, Adami FL, Moretti AIS, de Oliveira VL, Boscardin SB, Cunha-Neto E, Kalil J, Jouanguy E, Bastard P, Casanova JL, Quiñones-Vega M, Sosa-Acosta P, Guedes JS, de Almeida NP, Nogueira FCS, Domont GB, Santos KS, and Zatz M

Abstract

Background: Although older adults are at a high risk of severe or critical Covid-19, there are many cases of unvaccinated centenarians who had a silent infection or recovered from mild or moderate Covid-19. We studied three Brazilian supercentenarians, older than 110 years, who survived Covid-19 in 2020 before being vaccinated., Results: Despite their advanced age, humoral immune response analysis showed that these individuals displayed robust levels of IgG and neutralizing antibodies (NAbs) against SARS-CoV-2. Enrichment of plasma proteins and metabolites related to innate immune response and host defense was also observed. None presented autoantibodies (auto-Abs) to type I interferon (IFN). Furthermore, these supercentenarians do not carry rare variants in genes underlying the known inborn errors of immunity, including particular inborn errors of type I IFN., Conclusion: These observations suggest that their Covid-19 resilience might be a combination of their genetic background and their innate and adaptive immunity., (© 2022. The Author(s).)

Published

2022

12. Plasma metabolome study reveals metabolic changes induced by pharmacological castration and testosterone supplementation in healthy young men.

Author

de Siqueira Guedes J, Pla I, Sahlin KB, Monnerat G, Appelqvist R, Marko-Varga G, Giwercman A, Domont GB, Sanchez A, Nogueira FCS, and Malm J

Subjects

Amino Acids metabolism, Carbohydrates, Carnitine, Dietary Supplements, Follicle Stimulating Hormone, Glycerophospholipids, Humans, Indoles, Lipids, Luteinizing Hormone, Male, Sphingolipids, Infertility, Male chemically induced, Metabolome, Testosterone pharmacology

Abstract

Testosterone is a hormone that plays a key role in carbohydrate, fat, and protein metabolism. Testosterone deficiency is associated with multiple comorbidities, e.g., metabolic syndrome and type 2 diabetes. Despite its importance in many metabolic pathways, the mechanisms by which it controls metabolism are not fully understood. The present study investigated the short-term metabolic changes of pharmacologically induced castration and, subsequently, testosterone supplementation in healthy young males. Thirty subjects were submitted to testosterone depletion (TD) followed by testosterone supplementation (TS). Plasma samples were collected three times corresponding to basal, low, and restored testosterone levels. An untargeted metabolomics study was performed by liquid chromatography-high resolution mass spectrometry (UHPLC-HRMS) to monitor the metabolic changes induced by the altered hormone levels. Our results demonstrated that TD was associated with major metabolic changes partially restored by TS. Carnitine and amino acid metabolism were the metabolic pathways most impacted by variations in testosterone. Furthermore, our results also indicated that LH and FSH might strongly alter the plasma levels of indoles and lipids, especially glycerophospholipids and sphingolipids. Our results demonstrated major metabolic changes induced by low testosterone that may be important for understanding the mechanisms behind the association of testosterone deficiency and its comorbidities., (© 2022. The Author(s).)

Published

2022

13. Interspecies Isobaric Labeling-Based Quantitative Proteomics Reveals Protein Changes in the Ovary of Aedes aegypti Coinfected With ZIKV and Wolbachia .

Author

Ramos LFC, Martins M, Murillo JR, Domont GB, de Oliveira DMP, Nogueira FCS, Maciel-de-Freitas R, and Junqueira M

Subjects

Animals, Female, Humans, Infant, Newborn, Mosquito Vectors, Ovary, Proteomics, Aedes microbiology, Coinfection, Wolbachia, Zika Virus, Zika Virus Infection

Abstract

Zika is a vector-borne disease caused by an arbovirus (ZIKV) and overwhelmingly transmitted by Ae. aegypti . This disease is linked to adverse fetal outcomes, mostly microcephaly in newborns, and other clinical aspects such as acute febrile illness and neurologic complications, for example, Guillain-Barré syndrome. One of the most promising strategies to mitigate arbovirus transmission involves releasing Ae. aegypti mosquitoes carrying the maternally inherited endosymbiont bacteria Wolbachia pipientis . The presence of Wolbachia is associated with a reduced susceptibility to arboviruses and a fitness cost in mosquito life-history traits such as fecundity and fertility. However, the mechanisms by which Wolbachia influences metabolic pathways leading to differences in egg production remains poorly known. To investigate the impact of coinfections on the reproductive tract of the mosquito, we applied an isobaric labeling-based quantitative proteomic strategy to investigate the influence of Wolbachia w Mel and ZIKV infection in Ae. aegypti ovaries. To the best of our knowledge, this is the most complete proteome of Ae. aegypti ovaries reported so far, with a total of 3913 proteins identified, were also able to quantify 1044 Wolbachia proteins in complex sample tissue of Ae. aegypti ovary. Furthermore, from a total of 480 mosquito proteins modulated in our study, we discuss proteins and pathways altered in Ae. aegypti during ZIKV infections, Wolbachia infections, coinfection Wolbachia /ZIKV, and compared with no infection, focusing on immune and reproductive aspects of Ae. aegypti . The modified aspects mainly were related to the immune priming enhancement by Wolbachia presence and the modulation of the Juvenile Hormone pathway caused by both microorganism's infection., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ramos, Martins, Murillo, Domont, de Oliveira, Nogueira, Maciel-de-Freitas and Junqueira.)

Published

2022

14. Recognition of Cell Wall Mannosylated Components as a Conserved Feature for Fungal Entrance, Adaptation and Survival Within Trophozoites of Acanthamoeba castellanii and Murine Macrophages.

Author

Ferreira MDS, Mendoza SR, Gonçalves DS, Rodríguez-de la Noval C, Honorato L, Nimrichter L, Ramos LFC, Nogueira FCS, Domont GB, Peralta JM, and Guimarães AJ

Subjects

Animals, Antifungal Agents, Cell Wall metabolism, Macrophages metabolism, Mannose chemistry, Mice, Trophozoites metabolism, Acanthamoeba castellanii microbiology, Amoeba microbiology

Abstract

Acanthamoeba castellanii ( Ac ) is a species of free-living amoebae (FLAs) that has been widely applied as a model for the study of host-parasite interactions and characterization of environmental symbionts. The sharing of niches between Ac and potential pathogens, such as fungi, favors associations between these organisms. Through predatory behavior, Ac enhances fungal survival, dissemination, and virulence in their intracellular milieu, training these pathogens and granting subsequent success in events of infections to more evolved hosts. In recent studies, our group characterized the amoeboid mannose binding proteins (MBPs) as one of the main fungal recognition pathways. Similarly, mannose-binding lectins play a key role in activating antifungal responses by immune cells. Even in the face of similarities, the distinct impacts and degrees of affinity of fungal recognition for mannose receptors in amoeboid and animal hosts are poorly understood. In this work, we have identified high-affinity ligands for mannosylated fungal cell wall residues expressed on the surface of amoebas and macrophages and determined the relative importance of these pathways in the antifungal responses comparing both phagocytic models. Mannose-purified surface proteins (MPPs) from both phagocytes showed binding to isolated mannose/mannans and mannosylated fungal cell wall targets. Although macrophage MPPs had more intense binding when compared to the amoeba receptors, the inhibition of this pathway affects fungal internalization and survival in both phagocytes. Mass spectrometry identified several MPPs in both models, and in silico alignment showed highly conserved regions between spotted amoeboid receptors (MBP and MBP1) and immune receptors (Mrc1 and Mrc2) and potential molecular mimicry, pointing to a possible convergent evolution of pathogen recognition mechanisms., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ferreira, Mendoza, Gonçalves, Rodríguez-de la Noval, Honorato, Nimrichter, Ramos, Nogueira, Domont, Peralta and Guimarães.)

Published

2022

15. Proteomic Analysis of Embryo Isolated From Mature Jatropha curcas L. Seeds.

Author

Ramzan A, Shah M, Ullah N, Sheheryar, Nascimento JRS, Campos FAP, Domont GB, Nogueira FCS, and Abdellattif MH

Abstract

Jatropha curcas L. is a non-edible oilseed containing almost 40% of seed oil and is famous as the best source of raw material for biofuel production. J. curcas seeds contain three main tissues, such as inner integument, endosperm, and embryo. To best understand the physiological events related to specific tissues, it is important to perform the proteome analysis of these tissues. Previously we have explored the pattern of reserves deposition and tissue-specific biological pathways by analyzing the proteome of the inner integument and endosperm and organelles, such as plastids and gerontoplasts isolated from these tissues. The focus of the present study was to perform the proteomic analysis of embryo isolated from the mature seeds of J. curcas. This analysis resulted in the identification of 564 proteins of which 206 are not identified previously from any other tissue of this plant. The identified proteins were functionally classified using the MapMan classification system revealing various proteins involved in different functionalities. The proteins involved in transport functions and those with proteolytic activity were determined through the Transporter Classification Database (TCDB) and MEROPS database, respectively. In addition to identify a large number of proteins participating in various metabolic processes, we found several proteins involved in defense functions, such as the members of chaperones and the ubiquitin-proteasome system. Similarly, members of the legumin and vicilin family of seed storage proteins (SSPs) were identified which in addition to their storage function, are involved in defense. In addition, we have reported that proteases belonging to different mechanistic classes and are involved in diverse physiological functions. Last but not the least, several classes of transport-related proteins were identified that are discussed concerning their function in the transportation of different nutrients across the embryo. To the best of our knowledge, this study reported the highest number of proteins identified from the embryo of mature J. curcas seeds, most of which are essential for seed germination, reflecting the fact that many proteins required for germination are already present in the mature embryo., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ramzan, Shah, Ullah, Sheheryar, Nascimento, Campos, Domont, Nogueira and Abdellattif.)

Published

2022

16. Short-Term Effect of Induced Alterations in Testosterone Levels on Fasting Plasma Amino Acid Levels in Healthy Young Men.

Author

Sahlin KB, Pla I, de Siqueira Guedes J, Pawłowski K, Appelqvist R, Marko-Varga G, Domont GB, César Sousa Nogueira F, Giwercman A, Sanchez A, and Malm J

Abstract

Long term effect of testosterone (T) deficiency impairs metabolism and is associated with muscle degradation and metabolic disease. The association seems to have a bidirectional nature and is not well understood. The present study aims to investigate the early and unidirectional metabolic effect of induced T changes by measuring fasting amino acid (AA) levels in a human model, in which short-term T alterations were induced. We designed a human model of 30 healthy young males with pharmacologically induced T changes, which resulted in three time points for blood collection: (A) baseline, (B) low T (3 weeks post administration of gonadotropin releasing hormone antagonist) and (C) restored T (2 weeks after injection of T undecanoate). The influence of T on AAs was analyzed by spectrophotometry on plasma samples. Levels of 9 out of 23 AAs, of which 7 were essential AAs, were significantly increased at low T and are restored upon T supplementation. Levels of tyrosine and phenylalanine were most strongly associated to T changes. Short-term effect of T changes suggests an increased protein breakdown that is restored upon T supplementation. Fasting AA levels are able to monitor the early metabolic changes induced by the T fluctuations.

Published

2021

17. Topological Dissection of Proteomic Changes Linked to the Limbic Stage of Alzheimer's Disease.

Author

Velásquez E, Szeitz B, Gil J, Rodriguez J, Palkovits M, Renner É, Hortobágyi T, Döme P, Nogueira FC, Marko-Varga G, Domont GB, and Rezeli M

Subjects

Acetylation, Aged, Aged, 80 and over, Antimicrobial Peptides metabolism, Disease Progression, Encephalitis metabolism, Female, Humans, Male, Middle Aged, Peptides metabolism, Phosphorylation, Proteomics, Alzheimer Disease metabolism, Brain metabolism, Proteome metabolism

Abstract

Alzheimer's disease (AD) is a neurodegenerative disorder and the most common cause of dementia worldwide. In AD, neurodegeneration spreads throughout different areas of the central nervous system (CNS) in a gradual and predictable pattern, causing progressive memory decline and cognitive impairment. Deposition of neurofibrillary tangles (NFTs) in specific CNS regions correlates with the severity of AD and constitutes the basis for disease classification into different Braak stages (I-VI). Early clinical symptoms are typically associated with stages III-IV (i.e., limbic stages) when the involvement of the hippocampus begins. Histopathological changes in AD have been linked to brain proteome alterations, including aberrant posttranslational modifications (PTMs) such as the hyperphosphorylation of Tau. Most proteomic studies to date have focused on AD progression across different stages of the disease, by targeting one specific brain area at a time. However, in AD vulnerable regions, stage-specific proteomic alterations, including changes in PTM status occur in parallel and remain poorly characterized. Here, we conducted proteomic, phosphoproteomic, and acetylomic analyses of human postmortem tissue samples from AD (Braak stage III-IV, n=11) and control brains (n=12), covering all anatomical areas affected during the limbic stage of the disease (total hippocampus, CA1, entorhinal and perirhinal cortices). Overall, ~6000 proteins, ~9000 unique phosphopeptides and 221 acetylated peptides were accurately quantified across all tissues. Our results reveal significant proteome changes in AD brains compared to controls. Among others, we have observed the dysregulation of pathways related to the adaptive and innate immune responses, including several altered antimicrobial peptides (AMPs). Notably, some of these changes were restricted to specific anatomical areas, while others altered according to disease progression across the regions studied. Our data highlights the molecular heterogeneity of AD and the relevance of neuroinflammation as a major player in AD pathology. Data are available via ProteomeXchange with identifier PXD027173., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Velásquez, Szeitz, Gil, Rodriguez, Palkovits, Renner, Hortobágyi, Döme, Nogueira, Marko-Varga, Domont and Rezeli.)

Published

2021

18. The Human Melanoma Proteome Atlas-Complementing the melanoma transcriptome.

Author

Betancourt LH, Gil J, Sanchez A, Doma V, Kuras M, Murillo JR, Velasquez E, Çakır U, Kim Y, Sugihara Y, Parada IP, Szeitz B, Appelqvist R, Wieslander E, Welinder C, de Almeida NP, Woldmar N, Marko-Varga M, Eriksson J, Pawłowski K, Baldetorp B, Ingvar C, Olsson H, Lundgren L, Lindberg H, Oskolas H, Lee B, Berge E, Sjögren M, Eriksson C, Kim D, Kwon HJ, Knudsen B, Rezeli M, Malm J, Hong R, Horvath P, Szász AM, Tímár J, Kárpáti S, Horvatovich P, Miliotis T, Nishimura T, Kato H, Steinfelder E, Oppermann M, Miller K, Florindi F, Zhou Q, Domont GB, Pizzatti L, Nogueira FCS, Szadai L, Németh IB, Ekedahl H, Fenyö D, and Marko-Varga G

Subjects

Antineoplastic Agents therapeutic use, Blood Proteins metabolism, Cell Line, Chromatography, High Pressure Liquid, Databases, Factual, Humans, Melanoma drug therapy, Melanoma metabolism, Mutation, Protein Processing, Post-Translational genetics, Proto-Oncogene Proteins B-raf genetics, Proto-Oncogene Proteins B-raf metabolism, Tandem Mass Spectrometry, Melanoma pathology, Proteome metabolism, Proteomics methods, Transcriptome

Abstract

The MM500 meta-study aims to establish a knowledge basis of the tumor proteome to serve as a complement to genome and transcriptome studies. Somatic mutations and their effect on the transcriptome have been extensively characterized in melanoma. However, the effects of these genetic changes on the proteomic landscape and the impact on cellular processes in melanoma remain poorly understood. In this study, the quantitative mass-spectrometry-based proteomic analysis is interfaced with pathological tumor characterization, and associated with clinical data. The melanoma proteome landscape, obtained by the analysis of 505 well-annotated melanoma tumor samples, is defined based on almost 16 000 proteins, including mutated proteoforms of driver genes. More than 50 million MS/MS spectra were analyzed, resulting in approximately 13,6 million peptide spectrum matches (PSMs). Altogether 13 176 protein-coding genes, represented by 366 172 peptides, in addition to 52 000 phosphorylation sites, and 4 400 acetylation sites were successfully annotated. This data covers 65% and 74% of the predicted and identified human proteome, respectively. A high degree of correlation (Pearson, up to 0.54) with the melanoma transcriptome of the TCGA repository, with an overlap of 12 751 gene products, was found. Mapping of the expressed proteins with quantitation, spatiotemporal localization, mutations, splice isoforms, and PTM variants was proven not to be predicted by genome sequencing alone. The melanoma tumor molecular map was complemented by analysis of blood protein expression, including data on proteins regulated after immunotherapy. By adding these key proteomic pillars, the MM500 study expands the knowledge on melanoma disease., (© 2021 The Authors. Clinical and Translational Medicine published by John Wiley & Sons Australia, Ltd on behalf of Shanghai Institute of Clinical Bioinformatics.)

Published

2021

19. The human melanoma proteome atlas-Defining the molecular pathology.

Author

Betancourt LH, Gil J, Kim Y, Doma V, Çakır U, Sanchez A, Murillo JR, Kuras M, Parada IP, Sugihara Y, Appelqvist R, Wieslander E, Welinder C, Velasquez E, de Almeida NP, Woldmar N, Marko-Varga M, Pawłowski K, Eriksson J, Szeitz B, Baldetorp B, Ingvar C, Olsson H, Lundgren L, Lindberg H, Oskolas H, Lee B, Berge E, Sjögren M, Eriksson C, Kim D, Kwon HJ, Knudsen B, Rezeli M, Hong R, Horvatovich P, Miliotis T, Nishimura T, Kato H, Steinfelder E, Oppermann M, Miller K, Florindi F, Zhou Q, Domont GB, Pizzatti L, Nogueira FCS, Horvath P, Szadai L, Tímár J, Kárpáti S, Szász AM, Malm J, Fenyö D, Ekedahl H, Németh IB, and Marko-Varga G

Subjects

Adult, Aged, Aged, 80 and over, Cell Line, Tumor, Chromatography, High Pressure Liquid, Female, Humans, Male, Melanoma metabolism, Middle Aged, Skin Neoplasms metabolism, Tandem Mass Spectrometry, Young Adult, Melanoma, Cutaneous Malignant, Melanoma pathology, Proteome analysis, Proteomics methods, Skin Neoplasms pathology

Abstract

The MM500 study is an initiative to map the protein levels in malignant melanoma tumor samples, focused on in-depth histopathology coupled to proteome characterization. The protein levels and localization were determined for a broad spectrum of diverse, surgically isolated melanoma tumors originating from multiple body locations. More than 15,500 proteoforms were identified by mass spectrometry, from which chromosomal and subcellular localization was annotated within both primary and metastatic melanoma. The data generated by global proteomic experiments covered 72% of the proteins identified in the recently reported high stringency blueprint of the human proteome. This study contributes to the NIH Cancer Moonshot initiative combining detailed histopathological presentation with the molecular characterization for 505 melanoma tumor samples, localized in 26 organs from 232 patients., (© 2021 The Authors. Clinical and Translational Medicine published by John Wiley & Sons Australia, Ltd on behalf of Shanghai Institute of Clinical Bioinformatics.)

Published

2021

20. Comprehensive Quantitative Proteome Analysis of Aedes aegypti Identifies Proteins and Pathways Involved in Wolbachia pipientis and Zika Virus Interference Phenomenon.

Author

Martins M, Ramos LFC, Murillo JR, Torres A, de Carvalho SS, Domont GB, de Oliveira DMP, Mesquita RD, Nogueira FCS, Maciel-de-Freitas R, and Junqueira M

Abstract

Zika virus (ZIKV) is a global public health emergency due to its association with microcephaly, Guillain-Barré syndrome, neuropathy, and myelitis in children and adults. A total of 87 countries have had evidence of autochthonous mosquito-borne transmission of ZIKV, distributed across four continents, and no antivirus therapy or vaccines are available. Therefore, several strategies have been developed to target the main mosquito vector, Aedes aegypti , to reduce the burden of different arboviruses. Among such strategies, the use of the maternally-inherited endosymbiont Wolbachia pipientis has been applied successfully to reduce virus susceptibility and decrease transmission. However, the mechanisms by which Wolbachia orchestrate resistance to ZIKV infection remain to be elucidated. In this study, we apply isobaric labeling quantitative mass spectrometry (MS)-based proteomics to quantify proteins and identify pathways altered during ZIKV infection; Wolbachia infection; co-infection with Wolbachia/ ZIKV in the A. aegypti heads and salivary glands. We show that Wolbachia regulates proteins involved in reactive oxygen species production, regulates humoral immune response, and antioxidant production. The reduction of ZIKV polyprotein in the presence of Wolbachia in mosquitoes was determined by MS and corroborates the idea that Wolbachia helps to block ZIKV infections in A. aegypti. The present study offers a rich resource of data that may help to elucidate mechanisms by which Wolbachia orchestrate resistance to ZIKV infection in A. aegypti , and represents a step further on the development of new targeted methods to detect and quantify ZIKV and Wolbachia directly in complex tissues., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Martins, Ramos, Murillo, Torres, de Carvalho, Domont, de Oliveira, Mesquita, Nogueira, Maciel-de-Freitas and Junqueira.)

Published

2021

21. Monitoring casbene synthase in Jatropha curcas tissues using targeted proteomics.

Author

de Almeida NP, Neto DFM, Carneiro GRA, de Farias ARB, Domont GB, de Paiva Campos FA, and Nogueira FCS

Abstract

Background: Casbene synthase (CS) is responsible for the first committed step in the biosynthesis of phorbol esters (PE) in the Euphorbiaceae. PE are abundant in the seeds of the biofuel crop Jatropha curcas and its toxicity precludes the use of the protein-rich cake obtained after oil extraction as an animal feed and the toxicity of the fumes derived from burning PE containing biofuel is also a matter of concern. This toxicity is a major hindrance to exploit the potential of this crop as a source of raw material to produce biodiesel. For this reason, the current research on J. curcas is mainly focused on the understanding of the biosynthesis and site of synthesis of PE, as an avenue for the development of genotypes unable to synthesize PE in its seeds., Results: Here, we present targeted proteomics assays (SRM and PRM) to detect and quantify CS in leaves, endosperm, and roots of two J. curcas genotypes with contrasting levels of PE. These assays were based on the use of reference isotopic labeled synthetic peptides (ILSP) predicted from 12 gene models of CS from the J. curcas genome., Conclusion: Our targeted proteomics methods were able to detect and quantify, for the first time, CS gene products and demonstrate the distribution of CS isoforms only in roots from J. curcas genotypes with a high and low concentration of PE. These methods can be expanded to monitor CS, at the protein level, in different tissues and genotypes of J. curcas.

Published

2021

22. A high-stringency blueprint of the human proteome.

Author

Adhikari S, Nice EC, Deutsch EW, Lane L, Omenn GS, Pennington SR, Paik YK, Overall CM, Corrales FJ, Cristea IM, Van Eyk JE, Uhlén M, Lindskog C, Chan DW, Bairoch A, Waddington JC, Justice JL, LaBaer J, Rodriguez H, He F, Kostrzewa M, Ping P, Gundry RL, Stewart P, Srivastava S, Srivastava S, Nogueira FCS, Domont GB, Vandenbrouck Y, Lam MPY, Wennersten S, Vizcaino JA, Wilkins M, Schwenk JM, Lundberg E, Bandeira N, Marko-Varga G, Weintraub ST, Pineau C, Kusebauch U, Moritz RL, Ahn SB, Palmblad M, Snyder MP, Aebersold R, and Baker MS

Subjects

Human Genome Project, Humans, Proteome chemistry, Proteome metabolism, Proteomics, Disease genetics, Proteome genetics

Abstract

The Human Proteome Organization (HUPO) launched the Human Proteome Project (HPP) in 2010, creating an international framework for global collaboration, data sharing, quality assurance and enhancing accurate annotation of the genome-encoded proteome. During the subsequent decade, the HPP established collaborations, developed guidelines and metrics, and undertook reanalysis of previously deposited community data, continuously increasing the coverage of the human proteome. On the occasion of the HPP's tenth anniversary, we here report a 90.4% complete high-stringency human proteome blueprint. This knowledge is essential for discerning molecular processes in health and disease, as we demonstrate by highlighting potential roles the human proteome plays in our understanding, diagnosis and treatment of cancers, cardiovascular and infectious diseases.

Published

2020

23. Identification of soybean trans-factors associated with plastid RNA editing sites.

Author

Rodrigues NF, Nogueira FCS, Domont GB, and Margis R

Abstract

RNA editing is a posttranscriptional process that changes nucleotide sequences, among which cytosine-to-uracil by a deamination reaction can revert non-neutral codon mutations. Pentatricopeptide repeat (PPR) proteins comprise a family of RNA-binding proteins, with members acting as editing trans-factors that recognize specific RNA cis-elements and perform the deamination reaction. PPR proteins are classified into P and PLS subfamilies. In this work, we have designed RNA biotinylated probes based in soybean plastid RNA editing sites to perform trans-factor specific protein isolation. Soybean cis-elements from these three different RNA probes show differences in respect to other species. Pulldown samples were submitted to mass spectrometry for protein identification. Among detected proteins, five corresponded to PPR proteins. More than one PPR protein, with distinct functional domains, was pulled down with each one of the RNA probes. Comparison of the soybean PPR proteins to Arabidopsis allowed identification of the closest homologous. Differential gene expression analysis demonstrated that the PPR locus Glyma.02G174500 doubled its expression under salt stress, which correlates with the increase of its potential rps14 editing. The present study represents the first identification of RNA editing trans-factors in soybean. Data also indicated that potential multiple trans-factors should interact with RNA cis-elements to perform the RNA editing.

Published

2020

24. Corrigendum: Proteomic Analysis and Functional Validation of a Brassica oleracea Endochitinase Involved in Resistance to Xanthomonas campestris .

Author

Santos C, Nogueira FCS, Domont GB, Fontes W, Prado GS, Habibi P, Santos VO, Oliveira-Neto OB, Grossi-de-Sá MF, Jorrín-Novo JV, Franco OL, and Mehta A

Abstract

[This corrects the article DOI: 10.3389/fpls.2019.00414.]., (Copyright © 2020 Santos, Nogueira, Domont, Fontes, Prado, Habibi, Santos, Oliveira-Neto, Grossi-de-Sá, Jorrín-Novo, Franco and Mehta.)

Published

2020

25. Fire Ant Venom Alkaloids Inhibit Biofilm Formation.

Author

Carvalho DB, Fox EGP, Santos DGD, Sousa JS, Freire DMG, Nogueira FCS, Domont GB, Castilho LVA, and Machado EA

Subjects

Animals, Ants, Bacterial Adhesion drug effects, Biofilms growth & development, Polystyrenes, Pseudomonas fluorescens physiology, Stainless Steel, Alkaloids pharmacology, Ant Venoms pharmacology, Anti-Bacterial Agents pharmacology, Biofilms drug effects, Pseudomonas fluorescens drug effects

Abstract

Biofilm formation on exposed surfaces is a serious issue for the food industry and medical health facilities. There are many proposed strategies to delay, reduce, or even eliminate biofilm formation on surfaces. The present study focuses on the applicability of fire ant venom alkaloids (aka 'solenopsins', from Solenopsis invicta ) tested on polystyrene and stainless steel surfaces relative to the adhesion and biofilm-formation by the bacterium Pseudomonas fluorescens . Conditioning with solenopsins demonstrates significant reduction of bacterial adhesion. Inhibition rates were 62.7% on polystyrene and 59.0% on stainless steel surfaces. In addition, solenopsins drastically reduced cell populations already growing on conditioned surfaces. Contrary to assumptions by previous authors, solenopsins tested negative for amphipathic properties, thus understanding the mechanisms behind the observed effects still relies on further investigation.

Published

2019

26. Understanding xylose isomerase from Burkholderia cenocepacia: insights into structure and functionality for ethanol production.

Author

Vieira IPV, Cordeiro GT, Gomes DEB, Melani RD, Vilela LF, Domont GB, Mesquita RD, Eleutherio ECA, and Neves BC

Abstract

The inability of the yeast Saccharomyces cerevisiae to produce ethanol from xylose has hampered the biofuel production from lignocellulosic biomass. However, prior studies reveal that functional expression of xylose isomerase (XI) from Burkholderia cenocepacia (XylA Bc ) in S. cerevisiae has remarkably improved xylose consumption and ethanol productivity. Yet, little is known about kinetic and structural properties of this enzyme. Hereby, a purified recombinant XylA was assayed in vitro, showing optimal enzyme activity at 37 °C and pH 7.2. The K m of XylA for D-xylose was at least threefold lower than the K m results for any XI published to date (e.g. XylA from Piromyces sp.). In addition, oligomerization behavior as a tetramer was observed for XylA in solution. Functional and structural comparative analyses amongst three microbial XIs were further performed as theoretical models, showing that xylose orientation at the active site was highly conserved among the XIs. Mg 2+ ions anchor the sugar and guide its pyranoside oxygen towards a histidine residue present at the active site, allowing an acid-base reaction, linearizing xylose. Electrostatic surface analyses showed that small variations in the net charge distribution and dipole moment could directly affect the way the substrate interacts with the protein, thus altering its kinetic properties. Accordingly, in silico modeling suggested the tetramer may be the major functional form. These analyses and the resulting model promote a better understanding of this protein family and pave the way to further protein engineering and application of XylA in the ethanol industry.

Published

2019

27. Proteomic Analysis and Functional Validation of a Brassica oleracea Endochitinase Involved in Resistance to Xanthomonas campestris .

Author

Santos C, Nogueira FCS, Domont GB, Fontes W, Prado GS, Habibi P, Santos VO, Oliveira-Neto OB, Grossi-de-Sá MF, Jorrín-Novo JV, Franco OL, and Mehta A

Abstract

Black rot is a severe disease caused by the bacterium Xanthomonas campestris pv. campestris (Xcc), which can lead to substantial losses in cruciferous vegetable production worldwide. Although the use of resistant cultivars is the main strategy to control this disease, there are limited sources of resistance. In this study, we used the LC-MS/MS technique to analyze young cabbage leaves and chloroplast-enriched samples at 24 h after infection by Xcc, using both susceptible (Veloce) and resistant (Astrus) cultivars. A comparison between susceptible Xcc-inoculated plants and the control condition, as well as between resistant Xcc-inoculated plants with the control was performed and more than 300 differentially abundant proteins were identified in each comparison. The chloroplast enriched samples contributed with the identification of 600 additional protein species in the resistant interaction and 900 in the susceptible one, which were not detected in total leaf sample. We further determined the expression levels for 30 genes encoding the identified differential proteins by qRT-PCR. CHI-B4 like gene, encoding an endochitinase showing a high increased abundance in resistant Xcc-inoculated leaves, was selected for functional validation by overexpression in Arabidopsis thaliana. Compared to the wild type (Col-0), transgenic plants were highly resistant to Xcc indicating that CHI-B4 like gene could be an interesting candidate to be used in genetic breeding programs aiming at black rot resistance.

Published

2019

28. Computational fluid dynamic analysis of physical forces playing a role in brain organoid cultures in two different multiplex platforms.

Author

Goto-Silva L, Ayad NME, Herzog IL, Silva NP, Lamien B, Orlande HRB, da Costa Souza A, Ribeiro S, Martins M, Domont GB, Junqueira M, Tovar-Moll F, and Rehen SK

Subjects

Cell Line, Humans, Hydrodynamics, Organoids cytology, Shear Strength physiology, Brain cytology, Brain growth & development, Organ Culture Techniques methods, Organoids growth & development, Stress, Physiological physiology

Abstract

Background: Organoid cultivation in suspension culture requires agitation at low shear stress to allow for nutrient diffusion, which preserves tissue structure. Multiplex systems for organoid cultivation have been proposed, but whether they meet similar shear stress parameters as the regularly used spinner flask and its correlation with the successful generation of brain organoids has not been determined., Results: Here we used computational fluid dynamics (CFD) to simulate two multiplex culture conditions: steering plates on an orbital shaker and the use of a previously described bioreactor. The bioreactor had low speed and high shear stress regions that may affect cell aggregate growth, depending on volume, whereas the computed variables of the steering plates were closer to those of the spinning flask., Conclusion: Our protocol improves the initial steps of the standard brain organoid formation, and the produced organoids displayed regionalized brain structures, including retinal pigmented cells. Overall, we conclude that suspension culture on orbital steering plates is a cost-effective practical alternative to previously described platforms for the cultivation of brain organoids for research and multiplex testing.

Published

2019

29. Extracellular vesicles and vesicle-free secretome of the protozoa Acanthamoeba castellanii under homeostasis and nutritional stress and their damaging potential to host cells.

Author

Gonçalves DS, Ferreira MDS, Liedke SC, Gomes KX, de Oliveira GA, Leão PEL, Cesar GV, Seabra SH, Cortines JR, Casadevall A, Nimrichter L, Domont GB, Junqueira MR, Peralta JM, and Guimaraes AJ

Subjects

Acanthamoeba castellanii genetics, Animals, Cell Line, Extracellular Vesicles genetics, Homeostasis, Humans, Protein Transport, Proteome genetics, Proteomics, Protozoan Proteins genetics, Secretory Pathway, Acanthamoeba castellanii metabolism, Amebiasis parasitology, Extracellular Vesicles metabolism, Proteome metabolism, Protozoan Proteins metabolism

Abstract

Acanthamoeba castellanii (Ac) are ubiquitously distributed in nature, and by contaminating medical devices such as heart valves and contact lenses, they cause a broad range of clinical presentations to humans. Although several molecules have been described to play a role in Ac pathogenesis, including parasite host-tissue invasion and escaping of host-defense, little information is available on their mechanisms of secretion. Herein, we describe the molecular components secreted by Ac, under different protein availability conditions to simulate host niches. Ac extracellular vesicles (EVs) were morphologically and biochemically characterized. Dynamic light scattering analysis of Ac EVs identified polydisperse populations, which correlated to electron microscopy measurements. High-performance thin liquid chromatography of Ac EVs identified phospholipids, steryl-esters, sterol and free-fatty acid, the last two also characterized by GC-MS. Secretome composition (EVs and EVs-free supernatants) was also determined and proteins biological functions classified. In peptone-yeast-glucose (PYG) medium, a total of 179 proteins were identified (21 common proteins, 89 exclusive of EVs and 69 in EVs-free supernatant). In glucose alone, 205 proteins were identified (134 in EVs, 14 common and 57 proteins in EVs-free supernatant). From those, stress response, oxidative and protein and amino acid metabolism proteins prevailed. Qualitative differences were observed on carbohydrate metabolism enzymes from Krebs cycle and pentose phosphate shunt. Serine proteases and metalloproteinases predominated. Analysis of the cytotoxicity of Ac EVs (upon uptake) and EVs-free supernatant to epithelial and glioblastoma cells revealed a dose-dependent effect. Therefore, the Ac secretome differs depending on nutrient conditions, and is also likely to vary during infection.

Published

2018

30. Common Features Between the Proteomes of Floral and Extrafloral Nectar From the Castor Plant ( Ricinus Communis ) and the Proteomes of Exudates From Carnivorous Plants.

Author

Nogueira FCS, Farias ARB, Teixeira FM, Domont GB, and Campos FAP

Abstract

Label-free quantitative proteome analysis of extrafloral (EFN) and floral nectar (FN) from castor ( Ricinus communis ) plants resulted in the identification of 72 and 37 proteins, respectively. Thirty proteins were differentially accumulated between EFN and FN, and 24 of these were more abundant in the EFN. In addition to proteins involved in maintaining the nectar pathogen free such as chitinases and glucan 1,3-beta-glucosidase, both proteomes share an array of peptidases, lipases, carbohydrases, and nucleases. A total of 39 of the identified proteins, comprising different classes of hydrolases, were found to have biochemical matching partners in the exudates of at least five genera of carnivorous plants, indicating the EFN and FN possess a potential to digest biological material from microbial, animal or plant origin equivalent to the exudates of carnivorous plants.

Published

2018

31. It is time for top-down venomics.

Author

Melani RD, Nogueira FCS, and Domont GB

Abstract

The protein composition of animal venoms is usually determined by peptide-centric proteomics approaches (bottom-up proteomics). However, this technique cannot, in most cases, distinguish among toxin proteoforms, herein called toxiforms , because of the protein inference problem. Top-down proteomics (TDP) analyzes intact proteins without digestion and provides high quality data to identify and characterize toxiforms. Denaturing top-down proteomics is the most disseminated subarea of TDP, which performs qualitative and quantitative analyzes of proteoforms up to ~30 kDa in high-throughput and automated fashion. On the other hand, native top-down proteomics provides access to information on large proteins (> 50 kDA) and protein interactions preserving non-covalent bonds and physiological complex stoichiometry. The use of native and denaturing top-down venomics introduced novel and useful techniques to toxinology, allowing an unprecedented characterization of venom proteins and protein complexes at the toxiform level. The collected data contribute to a deep understanding of venom natural history, open new possibilities to study the toxin evolution, and help in the development of better biotherapeutics.

Published

2017

32. Quantitative proteomic analysis identifies proteins and pathways related to neuronal development in differentiated SH-SY5Y neuroblastoma cells.

Author

Murillo JR, Goto-Silva L, Sánchez A, Nogueira FCS, Domont GB, and Junqueira M

Abstract

SH-SY5Y neuroblastoma cells are susceptible to differentiation using retinoic acid (RA) and brain-derived neurotrophic factor (BDNF), providing a model of neuronal differentiation. We compared SH-SY5Y cells proteome before and after RA/BDNF treatment using iTRAQ and phosphopeptide enrichment strategies. We identified 5587 proteins, 366 of them with differential abundance. Differentiated cells expressed proteins related to neuronal development, and, undifferentiated cells expressed proteins involved in cell proliferation. Interactive network covered focal adhesion, cytoskeleton dynamics and neurodegenerative diseases processes and regulation of mitogen-activated protein kinase-related signaling pathways; key proteins involved in those processes might be explored as markers for neuronal differentiation.

Published

2017

33. DiagnoProt: a tool for discovery of new molecules by mass spectrometry.

Author

Silva ARF, Lima DB, Leyva A, Duran R, Batthyany C, Aquino PF, Leal JC, Rodriguez JE, Domont GB, Santos MDM, Chamot-Rooke J, Barbosa VC, and Carvalho PC

Subjects

Aspergillus metabolism, Fungal Proteins analysis, Machine Learning, Proteomics methods, Sequence Analysis, Protein methods, Software, Tandem Mass Spectrometry methods

Abstract

Motivation: Around 75% of all mass spectra remain unidentified by widely adopted proteomic strategies. We present DiagnoProt, an integrated computational environment that can efficiently cluster millions of spectra and use machine learning to shortlist high-quality unidentified mass spectra that are discriminative of different biological conditions., Results: We exemplify the use of DiagnoProt by shortlisting 4366 high-quality unidentified tandem mass spectra that are discriminative of different types of the Aspergillus fungus., Availability and Implementation: DiagnoProt, a demonstration video and a user tutorial are available at http://patternlabforproteomics.org/diagnoprot ., Contact: andrerfsilva@gmail.com or paulo@pcarvalho.com., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author 2017. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com)

Published

2017

34. A Time-Based and Intratumoral Proteomic Assessment of a Recurrent Glioblastoma Multiforme.

Author

de Aquino PF, Carvalho PC, Nogueira FC, da Fonseca CO, de Souza Silva JC, Carvalho Mda G, Domont GB, Zanchin NI, and Fischer Jde S

Abstract

Tumors consist of cells in different stages of transformation with molecular and cellular heterogeneity. By far, heterogeneity is the hallmark of glioblastoma multiforme (GBM), the most malignant and aggressive type of glioma. Most proteomic studies aim in comparing tumors from different patients, but here we dive into exploring the intratumoral proteome diversity of a single GBM. For this, we profiled tumor fragments from the profound region of the same patient's GBM but obtained from two surgeries a year's time apart. Our analysis also included GBM's fragments from different anatomical regions. Our quantitative proteomic strategy employed 4-plex iTRAQ peptide labeling followed by a four-step strong cation chromatographic separation; each fraction was then analyzed by reversed-phase nano-chromatography coupled on-line with an Orbitrap-Velos mass spectrometer. Unsupervised clustering grouped the proteomic profiles into four major distinct groups and showed that most changes were related to the tumor's anatomical region. Nevertheless, we report differentially abundant proteins from GBM's fragments of the same region but obtained 1 year apart. We discuss several key proteins (e.g., S100A9) and enriched pathways linked with GBM such as the Ras pathway, RHO GTPases activate PKNs, and those related to apoptosis, to name a few. As far as we know, this is the only report that compares GBM fragments proteomic profiles from the same patient. Ultimately, our results fuel the forefront of scientific discussion on the importance in exploring the richness of subproteomes within a single tissue sample for a better understanding of the disease, as each tumor is unique.

Published

2016

35. Mapping Proteoforms and Protein Complexes From King Cobra Venom Using Both Denaturing and Native Top-down Proteomics.

Author

Melani RD, Skinner OS, Fornelli L, Domont GB, Compton PD, and Kelleher NL

Subjects

Animals, Chromatography, Liquid, Elapid Venoms chemistry, Elapid Venoms isolation & purification, L-Amino Acid Oxidase isolation & purification, Protein Denaturation, Tandem Mass Spectrometry, Elapid Venoms metabolism, Elapidae metabolism, Protein Interaction Mapping methods, Proteomics methods

Abstract

Characterizing whole proteins by top-down proteomics avoids a step of inference encountered in the dominant bottom-up methodology when peptides are assembled computationally into proteins for identification. The direct interrogation of whole proteins and protein complexes from the venom of Ophiophagus hannah (king cobra) provides a sharply clarified view of toxin sequence variation, transit peptide cleavage sites and post-translational modifications (PTMs) likely critical for venom lethality. A tube-gel format for electrophoresis (called GELFrEE) and solution isoelectric focusing were used for protein fractionation prior to LC-MS/MS analysis resulting in 131 protein identifications (18 more than bottom-up) and a total of 184 proteoforms characterized from 14 protein toxin families. Operating both GELFrEE and mass spectrometry to preserve non-covalent interactions generated detailed information about two of the largest venom glycoprotein complexes: the homodimeric l-amino acid oxidase (∼130 kDa) and the multichain toxin cobra venom factor (∼147 kDa). The l-amino acid oxidase complex exhibited two clusters of multiproteoform complexes corresponding to the presence of 5 or 6 N-glycans moieties, each consistent with a distribution of N-acetyl hexosamines. Employing top-down proteomics in both native and denaturing modes provides unprecedented characterization of venom proteoforms and their complexes. A precise molecular inventory of venom proteins will propel the study of snake toxin variation and the targeted development of new antivenoms or other biotherapeutics., (© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2016

36. GeLC-MS-based proteomics of Chromobacterium violaceum: comparison of proteome changes elicited by hydrogen peroxide.

Author

Lima DC, Duarte FT, Medeiros VK, Carvalho PC, Nogueira FC, Araujo GD, Domont GB, and Batistuzzo de Medeiros SR

Subjects

Bacterial Proteins genetics, Brazil, Catalase metabolism, Chromatography, Liquid, Chromobacterium metabolism, Clustered Regularly Interspaced Short Palindromic Repeats genetics, Gene Expression Regulation, Bacterial genetics, Mass Spectrometry, Proteomics methods, Chromobacterium genetics, Gene Expression Regulation, Bacterial drug effects, Hydrogen Peroxide pharmacology, Oxidative Stress genetics, Proteome genetics

Abstract

Chromobacterium violaceum is a free-living bacillus with several genes that enables it survival under different harsh environments such as oxidative and temperature stresses. Here we performed a label-free quantitative proteomic study to unravel the molecular mechanisms that enable C. violaceum to survive oxidative stress. To achieve this, total proteins extracted from control and C. violaceum cultures exposed during two hours with 8 mM hydrogen peroxide were analyzed using GeLC-MS proteomics. Analysis revealed that under the stress condition, the bacterium expressed proteins that protected it from the damage caused by reactive oxygen condition and decreasing the abundance of proteins responsible for bacterial growth and catabolism. GeLC-MS proteomics analysis provided an overview of the metabolic pathways involved in the response of C. violaceum to oxidative stress ultimately aggregating knowledge of the response of this organism to environmental stress. This study identified approximately 1500 proteins, generating the largest proteomic coverage of C. violaceum so far. We also detected proteins with unknown function that we hypothesize to be part of new mechanisms related to oxidative stress defense. Finally, we identified the mechanism of clustered regularly interspaced short palindromic repeats (CRISPR), which has not yet been reported for this organism.

Published

2016

37. Oligomerization and Membrane-binding Properties of Covalent Adducts Formed by the Interaction of α-Synuclein with the Toxic Dopamine Metabolite 3,4-Dihydroxyphenylacetaldehyde (DOPAL).

Author

Follmer C, Coelho-Cerqueira E, Yatabe-Franco DY, Araujo GD, Pinheiro AS, Domont GB, and Eliezer D

Subjects

3,4-Dihydroxyphenylacetic Acid chemistry, 3,4-Dihydroxyphenylacetic Acid metabolism, 3,4-Dihydroxyphenylacetic Acid toxicity, Amyloid metabolism, Animals, Cell Membrane chemistry, Dopaminergic Neurons drug effects, Dopaminergic Neurons metabolism, Dopaminergic Neurons pathology, Humans, Lysine chemistry, Membrane Lipids metabolism, Oxidation-Reduction, Parkinson Disease pathology, Rats, Schiff Bases chemistry, Substantia Nigra drug effects, Substantia Nigra metabolism, Substantia Nigra pathology, alpha-Synuclein metabolism, 3,4-Dihydroxyphenylacetic Acid analogs & derivatives, Amyloid chemistry, Dopamine metabolism, Membrane Lipids chemistry, Parkinson Disease metabolism, alpha-Synuclein chemistry

Abstract

Oxidative deamination of dopamine produces the highly toxic aldehyde 3,4-dihydroxyphenylacetaldehyde (DOPAL), enhanced production of which is found in post-mortem brains of Parkinson disease patients. When injected into the substantia nigra of rat brains, DOPAL causes the loss of dopaminergic neurons accompanied by the accumulation of potentially toxic oligomers of the presynaptic protein α-synuclein (aS), potentially explaining the synergistic toxicity described for dopamine metabolism and aS aggregation. In this work, we demonstrate that DOPAL interacts with aS via formation of Schiff-base and Michael-addition adducts with Lys residues, in addition to causing oxidation of Met residues to Met-sulfoxide. DOPAL modification leads to the formation of small aS oligomers that may be cross-linked by DOPAL. Both monomeric and oligomeric DOPAL adducts potently inhibit the formation of mature amyloid fibrils by unmodified aS. The binding of aS to either lipid vesicles or detergent micelles, which results in a gain of α-helix structure in its N-terminal lipid-binding domain, protects the protein against DOPAL adduct formation and, consequently, inhibits DOPAL-induced aS oligomerization. Functionally, aS-DOPAL monomer exhibits a reduced affinity for small unilamellar vesicles with lipid composition similar to synaptic vesicles, in addition to diminished membrane-induced α-helical content in comparison with the unmodified protein. These results suggest that DOPAL could compromise the functionality of aS, even in the absence of protein oligomerization, by affecting the interaction of aS with lipid membranes and hence its role in the regulation of synaptic vesicle traffic in neurons., (© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2015

38. In-depth characterization of trypsin-like serine peptidases in the midgut of the sugar fed Culex quinquefasciatus.

Author

Borges-Veloso A, Saboia-Vahia L, Dias-Lopes G, Domont GB, Britto C, Cuervo P, and De Jesus JB

Subjects

Amino Acid Sequence, Animal Feed, Animals, Female, Gene Expression Regulation, Enzymologic physiology, Insect Proteins genetics, Insect Proteins metabolism, Molecular Sequence Data, Serine Endopeptidases genetics, Culex enzymology, Gastrointestinal Tract enzymology, Serine Endopeptidases metabolism, Sucrose metabolism

Abstract

Background: Culex quinquefasciatus is a hematophagous insect from the Culicidae family that feeds on the blood of humans, dogs, birds and livestock. This species transmits a wide variety of pathogens between humans and animals. The midgut environment is the first location of pathogen-vector interactions for blood-feeding mosquitoes and the expression of specific peptidases in the early stages of feeding could influence the outcome of the infection. Trypsin-like serine peptidases belong to a multi-gene family that can be expressed in different isoforms under distinct physiological conditions. However, the confident assignment of the trypsin genes that are expressed under each condition is still a challenge due to the large number of trypsin-coding genes in the Culicidae family and most likely because they are low abundance proteins., Methods: We used zymography for the biochemical characterization of the peptidase profile of the midgut from C. quinquefasciatus females fed on sugar. Protein samples were also submitted to SDS-PAGE followed by liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis for peptidase identification. The peptidases sequences were analyzed with bioinformatics tools to assess their distinct features., Results: Zymography revealed that trypsin-like serine peptidases were responsible for the proteolytic activity in the midgut of females fed on sugar diet. After denaturation in SDS-PAGE, eight trypsin-like serine peptidases were identified by LC-MS/MS. These peptidases have structural features typical of invertebrate digestive trypsin peptidases but exhibited singularities at the protein sequence level such as: the presence of different amino acids at the autocatalytic motif and substrate binding regions as well as different number of disulfide bounds. Data mining revealed a group of trypsin-like serine peptidases that are specific to C. quinquefasciatus when compared to the culicids genomes sequenced so far., Conclusion: We demonstrated that proteomics approaches combined with bioinformatics tools and zymographic analysis can lead to the functional annotation of trypsin-like serine peptidases coding genes and aid in the understanding of the complexity of peptidase expression in mosquitoes.

Published

2015

39. Expression of active trypsin-like serine peptidases in the midgut of sugar-feeding female Anopheles aquasalis.

Author

Dias-Lopes G, Borges-Veloso A, Saboia-Vahia L, Domont GB, Britto C, Cuervo P, and De Jesus JB

Subjects

Animals, Anopheles physiology, Carbohydrate Metabolism, Digestive System enzymology, Female, Host-Parasite Interactions, Proteolysis, Serine Endopeptidases genetics, Anopheles enzymology, Malaria transmission, Plasmodium vivax physiology, Serine Endopeptidases metabolism

Abstract

Background: Anopheles aquasalis is a dipteran of the family Culicidae that is widely distributed in the coastal regions of South and Central America. This species acts as a vector of Plasmodium vivax, an important etiological agent of malaria, which represents a serious public health problem. In mosquitoes, trypsin-like serine proteases are important in blood meal digestion, immune responses and reproductive functions. The study of peptidases expressed in the mosquito midgut is essential to understanding the mechanisms of parasite-host interaction and the physiological process of nutrient digestion., Methods: Our study aimed to identify and characterize the proteolytic activities in the midgut of sugar-fed An. aquasalis females using zymographic analyses (substrate-SDS-PAGE), in-solution assays and mass spectrometry., Results: Here, we used a zymographic analysis to further biochemically characterize the proteolytic profile of the midgut of sugar-feeding An. aquasalis females. The trypsin peptidases migrated between ~17 and ~76 kDa and displayed higher proteolytic activities between pH 7.5 and 10 and at temperatures between 37 °C and 50 °C. Four putative trypsin-like serine peptidases were identified using mass spectrometry and data mining. The molecular masses of these peptidases were similar to those observed using zymography, which suggested that these peptidases could be responsible for some of the observed proteolytic bands., Conclusions: Taken together, our results contribute to the gene annotation of the unknown genome of this species, to the tissue location of these peptidases, and to the functional prediction of these crucial enzymes, which all impact further studies of this species.

Published

2015

40. Effectively addressing complex proteomic search spaces with peptide spectrum matching.

Author

Borges D, Perez-Riverol Y, Nogueira FC, Domont GB, Noda J, da Veiga Leprevost F, Besada V, França FM, Barbosa VC, Sánchez A, and Carvalho PC

Subjects

Amino Acid Sequence, Escherichia coli Proteins chemistry, Mass Spectrometry, Peptides chemistry, Protein Processing, Post-Translational, Software, Algorithms, Escherichia coli chemistry, Escherichia coli Proteins analysis, Peptides analysis, Proteomics methods

Abstract

Summary: Protein identification by mass spectrometry is commonly accomplished using a peptide sequence matching search algorithm, whose sensitivity varies inversely with the size of the sequence database and the number of post-translational modifications considered. We present the Spectrum Identification Machine, a peptide sequence matching tool that capitalizes on the high-intensity b1-fragment ion of tandem mass spectra of peptides coupled in solution with phenylisotiocyanate to confidently sequence the first amino acid and ultimately reduce the search space. We demonstrate that in complex search spaces, a gain of some 120% in sensitivity can be achieved., Availability: All data generated and the software are freely available for academic use at http://proteomics.fiocruz.br/software/sim., Contact: paulo@pcarvalho.com, Supplementary Information: Supplementary data are available at Bioinformatics online.

Published

2013

41. Protein expression in the midgut of sugar-fed Aedes albopictus females.

Author

Saboia-Vahia L, Borges-Veloso A, Cuervo P, Junqueira M, Mesquita-Rodrigues C, Britto C, Domont GB, and De Jesus JB

Subjects

Animals, Chromatography, Liquid, Computational Biology, Electrophoresis, Gel, Two-Dimensional, Female, Gastrointestinal Tract chemistry, Tandem Mass Spectrometry, Aedes chemistry, Carbohydrates administration & dosage, Diet methods, Insect Proteins biosynthesis, Proteome analysis

Abstract

Background: Aedes albopictus is a vector for several fatal arboviruses in tropical and sub-tropical regions of the world. The midgut of the mosquito is the first barrier that pathogens must overcome to establish infection and represents one of the main immunologically active sites of the insect. Nevertheless, little is known about the proteins involved in the defense against pathogens, and even in the processing of food, and the detoxification of metabolites. The identification of proteins exclusively expressed in the midgut is the first step in understanding the complex physiology of this tissue and can provide insight into the mechanisms of pathogen-vector interaction. However, identification of the locally expressed proteins presents a challenge because the Ae. albopictus genome has not been sequenced., Methods: In this study, two-dimensional electrophoresis (2DE) was combined with liquid chromatography in line with tandem mass spectrometry (LC-MS/MS) and data mining to identify the major proteins in the midgut of sugar-fed Ae. albopictus females., Results: Fifty-six proteins were identified by sequence similarity to entries from the Ae. aegypti genome. In addition, two hypothetical proteins were experimentally confirmed. According to the gene ontology analysis, the identified proteins were classified into 16 clusters of biological processes. Use of the STRING database to investigate protein functional associations revealed five functional networks among the identified proteins, including a network for carbohydrate and amino acid metabolism, a group associated with ATP production and a network of proteins that interact during detoxification of toxic free radicals, among others. This analysis allowed the assignment of a potential role for proteins with unknown function based on their functional association with other characterized proteins., Conclusion: Our findings represent the first proteome map of the Ae. albopictus midgut and denotes the first steps towards the description of a comprehensive proteome map of this vector. In addition, the data contributes to the functional annotation of Aedes spp. genomes using mass spectrometry-based proteomics data combined with complementary gene prediction methods.

Published

2012

42. High molecular mass proteomics analyses of left ventricle from rats subjected to differential swimming training.

Author

Rocha LA, Petriz BA, Borges DH, Oliveira RJ, de Andrade RV, Domont GB, Pereira RW, and Franco OL

Subjects

Animals, Cation Transport Proteins metabolism, Energy Metabolism physiology, Heart Ventricles metabolism, Heart Ventricles physiopathology, Male, Metabolic Detoxication, Phase I physiology, Mitochondria metabolism, Mitochondria physiology, Mitochondrial Proteins metabolism, NADH Dehydrogenase metabolism, Proteomics methods, Rats, Rats, Wistar, Troponin metabolism, Heart physiopathology, Myocardium metabolism, Physical Conditioning, Animal physiology, Proteome metabolism, Swimming physiology

Abstract

Background: Regular exercises are commonly described as an important factor in health improvement, being directly related to contractile force development in cardiac cells.In order to evaluate the links between swimming exercise intensity and cardiac adaptation by using high molecular mass proteomics, isogenic Wistar rats were divided into four groups: one control (CG) and three training groups (TG's), with low, moderate and high intensity of exercises.In order to evaluate the links between swimming exercise intensity and cardiac adaptation by using high molecular mass proteomics, isogenic Wistar rats were divided into four groups: one control (CG) and three training groups (TG's), with low, moderate and high intensity of exercises., Results: Findings here reported demonstrated clear morphologic alterations, significant cellular injury and increased energy supplies at high exercise intensities. α-MyHC, as well proteins associated with mitochondrial oxidative metabolism were shown to be improved. α-MyHC expression increase 1.2 fold in high intensity training group when compared with control group. α-MyHC was also evaluated by real-time PCR showing a clear expression correlation with protein synthesis data increase in 8.48 fold in high intensity training group. Other myofibrillar protein, troponin , appear only in high intensity group, corroborating the cellular injury data. High molecular masses proteins such as MRS2 and NADH dehydrogenase, involved in metabolic pathways also demonstrate increase expression, respectily 1.5 and 1.3 fold, in response to high intensity exercise., Conclusions: High intensity exercise demonstrated an increase expression in some high molecular masses myofibrilar proteins, α-MyHC and troponin. Furthermore this intensity also lead a significant increase of other high molecular masses proteins such as MRS2 and NADH dehydrogenase in comparison to low and moderate intensities. However, high intensity exercise also represented a significant degree of cellular injury, when compared with the individuals submitted to low and moderate intensities.

Published

2012

43. Proteomics in sepsis: a pilot study.

Author

Paiva RA, David CM, and Domont GB

Abstract

Gene expression is disrupted by sepsis. Genetic markers can only reveal a patient's genotype, and they are not affected by environmental biological processes. These processes are expressed by proteins. This study was aimed to advance the insight into the molecular foundations of sepsis. It employed proteomic techniques to identify and analyze differential serum protein expressions taken from a patient throughout the stages of sepsis (sepsis, severe sepsis and septic shock). Serum samples were collected at each stage of sepsis and submitted to one-dimensional electrophoresis, on gradient strips of immobilized pH, followed by two-dimensional 12.5% polyacrylamide gel electrophoresis. The gels obtained were stained, scanned and analyzed by the ImageMasterPlatinum program. Proteins that were differentially expressed in the gels were excised, digested with trypsin and identified through mass spectrometry. Fourteen differentially expressed proteins were identified throughout the stages of sepsis, as well as a protein that was not expressed in all stages, suggesting the potential existence of a biomarker. The differentially expressed proteins identified were: serum amyloid A, apolipoprotein A-1 (2 isoforms), zinc finger protein 222, human albumin, PRO 2619, immunoglobulin kappa light chain VLJ region, monoclonal immunoglobulin M cold agglutinin, 7 proteinase inhibitors - alpha-1 antitrypsin. The findings of this pilot study demonstrate the involvement of the complement and coagulation pathways, of the lipid metabolism and of genetic information in sepsis. The vast majority of proteins identified are involved in the immune system and the proteinase inhibitor proteins are predominant.

Published

2010

44. Proteomic analysis of kidney in rats chronically exposed to fluoride.

Author

Kobayashi CA, Leite AL, Silva TL, Santos LD, Nogueira FC, Oliveira RC, Palma MS, Domont GB, and Buzalaf MA

Subjects

Animals, Dose-Response Relationship, Drug, Drug Administration Schedule, Electrophoresis, Gel, Two-Dimensional, Male, Proteomics, Rats, Fluorides administration & dosage, Fluorides toxicity, Gene Expression Profiling, Gene Expression Regulation drug effects, Kidney drug effects, Kidney metabolism

Abstract

Two-dimensional gel electrophoresis (2-DE) was used to better understand alterations in renal metabolism induced by fluoride (F). Three groups of weanling male Wistar rats were treated with drinking water containing 0 (control), 5, or 50 ppm F for 60 days (n=6/group). Kidneys were collected for proteomic and histological (HE) analysis. After protein isolation, renal proteome profiles were examined using 2-DE and Colloidal Coomassie Blue staining. Protein spots with a 2-fold significant difference as detected by quantitative intensity analysis (Image Master Platinum software) and t-test (p<0.05) were excised and analyzed by MALDI-TOF MS (matrix assisted laser desorption ionization-time-of-flight mass spectrometry). The histological analysis revealed no damage in kidneys induced by F, except for a vascular congestion in the 50 ppm F group. Between control vs 50 ppm F, and control vs 5 ppm F groups, 12 and 6 differentially expressed proteins were detected, respectively. Six proteins, mainly related with metabolism, detoxification and housekeeping, were successfully identified. At the high F group, pyruvate carboxylase, a protein involved in the formation of oxaloacetate was found to be downregulated, while enoyl coenzyme A hydratase, involved in fatty acids oxidation, was found to be upregulated. Thus, proteomic analysis can provide new insights into the alterations in renal metabolism after F exposure, even in low doses.

Published

2009

45. GO Explorer: A gene-ontology tool to aid in the interpretation of shotgun proteomics data.

Author

Carvalho PC, Fischer JS, Chen EI, Domont GB, Carvalho MG, Degrave WM, Yates JR 3rd, and Barbosa VC

Abstract

Background: Spectral counting is a shotgun proteomics approach comprising the identification and relative quantitation of thousands of proteins in complex mixtures. However, this strategy generates bewildering amounts of data whose biological interpretation is a challenge., Results: Here we present a new algorithm, termed GO Explorer (GOEx), that leverages the gene ontology (GO) to aid in the interpretation of proteomic data. GOEx stands out because it combines data from protein fold changes with GO over-representation statistics to help draw conclusions. Moreover, it is tightly integrated within the PatternLab for Proteomics project and, thus, lies within a complete computational environment that provides parsers and pattern recognition tools designed for spectral counting. GOEx offers three independent methods to query data: an interactive directed acyclic graph, a specialist mode where key words can be searched, and an automatic search. Its usefulness is demonstrated by applying it to help interpret the effects of perillyl alcohol, a natural chemotherapeutic agent, on glioblastoma multiform cell lines (A172). We used a new multi-surfactant shotgun proteomic strategy and identified more than 2600 proteins; GOEx pinpointed key sets of differentially expressed proteins related to cell cycle, alcohol catabolism, the Ras pathway, apoptosis, and stress response, to name a few., Conclusion: GOEx facilitates organism-specific studies by leveraging GO and providing a rich graphical user interface. It is a simple to use tool, specialized for biologists who wish to analyze spectral counting data from shotgun proteomics. GOEx is available at http://pcarvalho.com/patternlab.

Published

2009

46. [Proteomics and sepsis: new perspectives for diagnosis].

Author

Soares AJ, Santos MF, Chung J, David CM, and Domont GB

Abstract

Background and Objectives: The diagnostic and treatment of sepsis continue to challenger all, and, more specific forms to approach are absolutely necessary. The objective of this study was to use proteomics techniques, two-dimensional electrophoresis and mass spectrometry, to verify the differential protein expression between serum of patients with sepsis and health controls., Methods: Samples of serum the 30 patients with sepsis, caused for different types of microorganisms and serum of 30 health controls were obtained for analysis. Next, were submitted to 2D-SDS-PAGE, gels compared, selection of spots for excision and digestion with trypsin, being the peptides analyzed for MALDI TOF-TOF. The obtained spectrums were processed (Mascot-matrix science) for protein identification in NCBInr Data Bank., Results: Image analyses showed several spots with differential expressions in the gels of the patients with sepsis in relation to the controls. The protein identification of some of these spots founded: Orosomucoid 1 precursor, Apolipoprotein A-IV, Apolipoprotein A-IV precursor, Haptoglobin protein precursor, Haptoglobin, Zinc finger protein, Serum amyloid A-1, Transthyretin, Nebulin, Complement C4, Alpha1-Antitrypsin, Unnamed protein product and others., Conclusions: Serum of the patients with different types of sepsis express characteristic protein profiles by 2D-SDS-PAGE compared with controls. The most expressed were from acute phase proteins and lipoproteins. It is possible in the future, with proteomics, create diagnostic panel of proteins, finding news biomarkers and targets for therapeutic interventions in sepsis. This is a first description, with proteomics, of the alterations in protein expression, in serum of the patients with sepsis.

Published

2007

47. A molecular dynamics study of the correlations between solvent-accessible surface, molecular volume, and folding state.

Author

Floriano WB, Domont GB, and Nascimento MA

Subjects

Alanine analogs & derivatives, Amino Acid Sequence, Hydrogen Bonding, Molecular Sequence Data, Myoglobin chemistry, Protein Denaturation, Protein Structure, Secondary, Retinol-Binding Proteins chemistry, Thermodynamics, Water chemistry, Computer Simulation, Peptides chemistry, Protein Folding, Proteins chemistry, Solvents chemistry

Abstract

We analyzed the correlations between molecular volume, solvent-accessible surface, and folding state (secondary structure content) for unfolded conformers of alpha (holo- and apomyoglobin) and beta (retinal-binding protein) proteins and a small water-soluble alanine-rich alpha-helical peptide. Conformers with different degrees of folding were obtained using molecular dynamics at constant temperature and pressure with implicit solvent (dielectric constant adjustment) for all four systems and with explicit solvent for the single helix peptide. Our results support the view that unfolded conformations are not necessary extended, that volume variation is not a good indication of folding state and that the simple model of water penetrating the interior of the protein does not explain the increase in volume upon unfolding.

Published

2007

48. Functional analysis of DM64, an antimyotoxic protein with immunoglobulin-like structure from Didelphis marsupialis serum.

Author

Rocha SL, Lomonte B, Neves-Ferreira AG, Trugilho MR, Junqueira-de-Azevedo Ide L, Ho PL, Domont GB, Gutiérrez JM, and Perales J

Subjects

Amino Acid Sequence, Animals, Base Sequence, Blood Proteins metabolism, Blood Proteins pharmacology, Bothrops, Cloning, Molecular, DNA, Complementary metabolism, Dose-Response Relationship, Drug, Electrophoresis, Polyacrylamide Gel, Gene Library, Humans, Hydrolysis, Isoelectric Focusing, Liver metabolism, Mice, Molecular Sequence Data, Opossums, Phospholipases A metabolism, Phospholipases A2, Protease Inhibitors chemistry, Protease Inhibitors pharmacology, Protein Structure, Tertiary, RNA, Messenger metabolism, Sequence Homology, Amino Acid, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Blood Proteins chemistry, Blood Proteins genetics, Blood Proteins isolation & purification, Crotalid Venoms antagonists & inhibitors, Crotalid Venoms enzymology, Glycoproteins, Immunoglobulins, Metalloendopeptidases antagonists & inhibitors, Protease Inhibitors isolation & purification

Abstract

Bothrops snake venoms are known to induce local tissue damage such as hemorrhage and myonecrosis. The opossum Didelphis marsupialis is resistant to these snake venoms and has natural venom inhibitors in its plasma. The aim of this work was to clone and study the chemical, physicochemical and biological properties of DM64, an antimyotoxic protein from opossum serum. DM64 is an acidic protein showing 15% glycosylation and with a molecular mass of 63 659 Da when analysed by MALDI-TOF MS. It was cloned and the amino acid sequence was found to be homologous to DM43, a metalloproteinase inhibitor from D. marsupialis serum, and to human alpha1B-glycoprotein, indicating the presence of five immunoglobulin-like domains. DM64 neutralized both the in vivo myotoxicity and the in vitro cytotoxicity of myotoxins I (mt-I/Asp49) and II (mt-II/Lys49) from Bothrops asper venom. The inhibitor formed noncovalent complexes with both toxins, but did not inhibit the PLA2 activity of mt-I. Accordingly, DM64 did not neutralize the anticoagulant effect of mt-I nor its intracerebroventricular lethality, effects that depend on its enzymatic activity, and which demonstrate the dissociation between the catalytic and toxic activities of this Asp49 myotoxic PLA2. Furthermore, despite its similarity with metalloproteinase inhibitors, DM64 presented no antihemorrhagic activity against Bothrops jararaca or Bothrops asper crude venoms, and did not inhibit the fibrinogenolytic activity of jararhagin or bothrolysin. This is the first report of a myotoxin inhibitor with an immunoglobulin-like structure isolated and characterized from animal blood.

Published

2002

49. Structural and functional analyses of DM43, a snake venom metalloproteinase inhibitor from Didelphis marsupialis serum.

Author

Neves-Ferreira AG, Perales J, Fox JW, Shannon JD, Makino DL, Garratt RC, and Domont GB

Subjects

Amino Acid Sequence, Animals, Blood Proteins chemistry, Blood Proteins pharmacology, Bothrops, Models, Molecular, Molecular Sequence Data, Opossums, Protease Inhibitors chemistry, Protease Inhibitors pharmacology, Protein Structure, Quaternary, Sequence Homology, Amino Acid, Blood Proteins isolation & purification, Crotalid Venoms enzymology, Metalloendopeptidases antagonists & inhibitors, Protease Inhibitors isolation & purification

Abstract

DM43, an opossum serum protein inhibitor of snake venom metalloproteinases, has been completely sequenced, and its disulfide bond pattern has been experimentally determined. It shows homology to human alpha(1)B-glycoprotein, a plasma protein of unknown function and a member of the immunoglobulin supergene family. Size exclusion and dynamic laser light scattering data indicated that two monomers of DM43, each composed of three immunoglobulin-like domains, associated to form a homodimer in solution. Analysis of its glycan moiety showed the presence of N-acetylglucosamine, mannose, galactose, and sialic acid, most probably forming four biantennary N-linked chains. DM43 inhibited the fibrinogenolytic activities of bothrolysin and jararhagin and formed 1:1 stoichiometric stable complexes with both metalloproteinases. DM43 was ineffective against atrolysin C or A. No complex formation was detected between DM43 and jararhagin C, indicating the essential role of the metalloproteinase domain for interaction. Homology modeling based on the crystal structure of a killer cell inhibitory receptor suggested the existence of an I-type Ig fold, a hydrophobic dimerization surface and six surface loops potentially forming the metalloproteinase-binding surface on DM43.

Published

2002

50. BJ46a, a snake venom metalloproteinase inhibitor. Isolation, characterization, cloning and insights into its mechanism of action.

Author

Valente RH, Dragulev B, Perales J, Fox JW, and Domont GB

Subjects

Amino Acid Sequence, Animals, Base Sequence, Bothrops blood, Crotalid Venoms pharmacology, DNA, Complementary metabolism, Dose-Response Relationship, Drug, Electrophoresis, Polyacrylamide Gel, Endopeptidases chemistry, Indicators and Reagents pharmacology, Iodoacetamide analogs & derivatives, Iodoacetamide pharmacology, Isoelectric Focusing, Light, Liver metabolism, Metalloendopeptidases chemistry, Metalloendopeptidases pharmacology, Molecular Sequence Data, Protein Binding, Protein Structure, Tertiary, RNA, Messenger metabolism, Scattering, Radiation, Sequence Analysis, DNA, Sequence Analysis, Protein, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Time Factors, Bothrops jararaca Venom, Enzyme Inhibitors chemistry, Enzyme Inhibitors pharmacology, Metalloendopeptidases antagonists & inhibitors, Snake Venoms enzymology, Viper Venoms chemistry, Viper Venoms pharmacology

Abstract

Fractionation of the serum of the venomous snake Bothrops jararaca with (NH4)2SO4, followed by phenyl-Sepharose and C4-reversed phase chromatographies, resulted in the isolation of the anti-hemorrhagic factor BJ46a. BJ46a is a potent inhibitor of the SVMPs atrolysin C (class P-I) and jararhagin (P-III) proteolytic activities and B. jararaca venom hemorrhagic activity. The single-chain, acidic (pI 4.55) glycoprotein has a molecular mass of 46 101 atomic mass units determined by MALDI-TOF MS and 79 kDa by gel filtration and dynamic laser light scattering, suggesting a homodimeric structure. mRNA was isolated from the liver of one specimen and transcribed into cDNA. The cDNA pool was amplified by PCR, cloned into a specific vector and used to transform competent cells. Clones containing the complete coding sequence for BJ46a were isolated. The deduced protein sequence was in complete agreement with peptide sequences obtained by Edman degradation. BJ46a is a 322-amino-acid protein containing four putative N-glycosylation sites. It is homologous to the proteinase inhibitor HSF (member of the fetuin family, cystatin superfamily) isolated from the serum of the snake Trimeresurus flavoviridis, having 85% sequence identity. This is the first report of a complete cDNA sequence for an endogenous inhibitor of snake venom metalloproteinases (SVMPs). The sequence reveals that the only proteolytic processing required to obtain the mature protein is the cleavage of the signal peptide. Gel filtration analyses of the inhibitory complexes indicate that inhibition occurs by formation of a noncovalent complex between BJ46a and the proteinases at their metalloproteinase domains. Furthermore, the data shows that the stoichiometry involved in this interaction is of one inhibitor monomer to two enzyme molecules, suggesting an interesting mechanism of metalloproteinase inhibition.

Published

2001