Your search keyword '"Martins de Souza, D."' showing total 263 results

1. Transcriptome of iPSC-derived neuronal cells reveals a module of co-expressed genes consistently associated with autism spectrum disorder

Author

Griesi-Oliveira, K., Fogo, M. S., Pinto, B. G. G., Alves, A. Y., Suzuki, A. M., Morales, A. G., Ezquina, S., Sosa, O. J., Sutton, G. J., Sunaga-Franze, D. Y., Bueno, A. P., Seabra, G., Sardinha, L., Costa, S. S., Rosenberg, C., Zachi, E. C., Sertie, A. L., Martins-de-Souza, D., Reis, E. M., Voineagu, I., and Passos-Bueno, M. R.

Published

2021

2. Digging deeper in the proteome of different regions from schizophrenia brains

Author

Reis-de-Oliveira, G., Zuccoli, G.S., Fioramonte, M., Schimitt, A., Falkai, P., Almeida, V., and Martins-de-Souza, D.

Published

2020

3. Peptidomic analysis of the anterior temporal lobe and corpus callosum from schizophrenia patients

Author

Café-Mendes, C.C., Ferro, E.S., Torrão, A.S., Crunfli, F., Rioli, V., Schmitt, A., Falkai, P., Britto, L.R., Turck, C.W., and Martins-de-Souza, D.

Published

2017

4. Modulation of cognition and neuronal plasticity in gain- and loss-of-function mouse models of the schizophrenia risk gene Tcf4

Author

Badowska, D. M., Brzózka, M. M., Kannaiyan, N., Thomas, C., Dibaj, P., Chowdhury, A., Steffens, H., Turck, C. W., Falkai, P., Schmitt, A., Papiol, S., Scheuss, V., Willig, K. I., Martins-de-Souza, D., Rhee, J. S., Malzahn, D., and Rossner, M. J.

Published

2020

5. Evidence of macrophage modulation in the mouse pubic symphysis remodeling during the end of first pregnancy and postpartum

Author

Castelucci, B. G., Pereira, A. H. M., Fioramonte, M., Carazzolle, M. F., de Oliveira, P. S. L., Franchini, K. G., Kobarg, J., Martins-de-Souza, D., Joazeiro, P. P., and Consonni, S. R.

Published

2020

6. Gut microbiota from patients with COVID-19 cause alterations in mice that resemble post-COVID symptoms.

Author

Mendes de Almeida, V, Engel, DF, Ricci, MF, Cruz, CS, Lopes, ÍS, Alves, DA, d' Auriol, M, Magalhães, J, Machado, EC, Rocha, VM, Carvalho, TG, Lacerda, LSB, Pimenta, JC, Aganetti, M, Zuccoli, GS, Smith, BJ, Carregari, VC, da Silva Rosa, E, Galvão, I, Dantas Cassali, G, Garcia, CC, Teixeira, MM, André, LC, Ribeiro, FM, Martins, FS, Saia, RS, Costa, VV, Martins-de-Souza, D, Hansbro, PM, Marques, JT, Aguiar, ERGR, Vieira, AT, Mendes de Almeida, V, Engel, DF, Ricci, MF, Cruz, CS, Lopes, ÍS, Alves, DA, d' Auriol, M, Magalhães, J, Machado, EC, Rocha, VM, Carvalho, TG, Lacerda, LSB, Pimenta, JC, Aganetti, M, Zuccoli, GS, Smith, BJ, Carregari, VC, da Silva Rosa, E, Galvão, I, Dantas Cassali, G, Garcia, CC, Teixeira, MM, André, LC, Ribeiro, FM, Martins, FS, Saia, RS, Costa, VV, Martins-de-Souza, D, Hansbro, PM, Marques, JT, Aguiar, ERGR, and Vieira, AT

Abstract

Long-term sequelae of coronavirus disease (COVID)-19 are frequent and of major concern. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection affects the host gut microbiota, which is linked to disease severity in patients with COVID-19. Here, we report that the gut microbiota of post-COVID subjects had a remarkable predominance of Enterobacteriaceae strains with an antibiotic-resistant phenotype compared to healthy controls. Additionally, short-chain fatty acid (SCFA) levels were reduced in feces. Fecal transplantation from post-COVID subjects to germ-free mice led to lung inflammation and worse outcomes during pulmonary infection by multidrug-resistant Klebsiella pneumoniae. transplanted mice also exhibited poor cognitive performance. Overall, we show prolonged impacts of SARS-CoV-2 infection on the gut microbiota that persist after subjects have cleared the virus. Together, these data demonstrate that the gut microbiota can directly contribute to post-COVID sequelae, suggesting that it may be a potential therapeutic target.

Published

2023

7. Neurotoxic, Myotoxic and Cytolytic Activities of the New Basic PLA2 Isoforms BmjeTX-I and BmjeTX-II Isolated from the Bothrops marajoensis (Marajó Lancehead) Snake Venom

Author

Ponce-Soto, L. A., Martins-de-Souza, D., and Marangoni, S.

Published

2010

8. Transcriptome of iPSC-derived neuronal cells reveals a module of co-expressed genes consistently associated with autism spectrum disorder

Author

Griesi-Oliveira, K., primary, Fogo, M. S., additional, Pinto, B. G. G., additional, Alves, A. Y., additional, Suzuki, A. M., additional, Morales, A. G., additional, Ezquina, S., additional, Sosa, O. J., additional, Sutton, G. J., additional, Sunaga-Franze, D. Y., additional, Bueno, A. P., additional, Seabra, G., additional, Sardinha, L., additional, Costa, S. S., additional, Rosenberg, C., additional, Zachi, E. C., additional, Sertie, A. L., additional, Martins-de-Souza, D., additional, Reis, E. M., additional, Voineagu, I., additional, and Passos-Bueno, M. R., additional

Published

2020

9. Proteomic Differences in Blood Plasma Associated with Antidepressant Treatment Response

Author

Turck, C., Guest, P., Maccarrone, G., Ising, M., Kloiber, S., Lucae, S., Holsboer, F., and Martins-de-Souza, D.

Subjects

Cellular and Molecular Neuroscience, antidepressant, response, major depressive disorder, biomarker, Molecular Biology, symptom, plasma, Neuroscience, Original Research, mass spectrometry

Abstract

The current inability of clinical psychiatry to objectively select the most appropriate treatment is a major factor contributing to the severity and clinical burden of major depressive disorder (MDD). Here, we have attempted to identify plasma protein signatures in 39 MDD patients to predict response over a 6-week treatment period with antidepressants. LC-MS/MS analysis showed that differences in the levels of 29 proteins at baseline were found in the group with a favorable treatment outcome. Most of these proteins were components of metabolism or immune response pathways as well as multiple components of the coagulation cascade. After 6 weeks of treatment, 43 proteins were altered in responders of which 2 (alpha-actinin and nardilysin) had been identified at baseline. In addition, 46 proteins were altered in non-responders and 9 of these (alpha-actinin, alpha-2-macroglobulin, apolipoprotein B-100, attractin, C-reactive protein, fibrinogen alpha chain, fibrinogen beta chain, nardilysin and serine/threonine-protein kinase Chk1) had been identified at baseline. However, it should be stressed that the small sample size precludes generalization of the main results. Further studies to validate these as potential biomarkers of antidepressant treatment response are warranted considering the potential importance to the field of psychiatric disorders. This study provides the groundwork for development of novel objective clinical tests that can help psychiatrists in the clinical management of MDD through improved prediction and monitoring of patient responses to antidepressant treatments.

Published

2017

10. Effect of MK-801 and Clozapine on the Proteome of Cultured Human Oligodendrocytes

Author

Cassoli, J., Iwata, K., Steiner, J., Guest, P., Turck, C., Nascimento, J., and Martins-de-Souza, D.

Subjects

schizophrenia, Cellular and Molecular Neuroscience, proteomics, clozapine, pharmacology, MK801, oligodendrocyte, Neuroscience, glial cells

Abstract

Separate lines of evidence have demonstrated the involvement of N-methyl-D-aspartate (NMDA) receptor and oligodendrocyte dysfunctions in schizophrenia. Here, we have carried out shotgun mass spectrometry proteome analysis of oligodendrocytes treated with the NMDA receptor antagonist MK-801 to gain potential insights into these effects at the molecular level. The MK-801 treatment led to alterations in the levels of 68 proteins, which are associated with seven distinct biological processes. Most of these proteins are involved in energy metabolism and many have been found to be dysregulated in previous proteomic studies of post-mortem brain tissues from schizophrenia patients. Finally, addition of the antipsychotic clozapine to MK-801 treated oligodendrocyte cultures resulted in changes in the levels of 45 proteins and treatment with clozapine alone altered 122 proteins and many of these showed opposite changes to the MK-801 effects. Therefore, these proteins and the associated energy metabolism pathways should be explored as potential biomarkers of antipsychotic efficacy. In conclusion, MK-801 treatment of oligodendrocytes may provide a useful model for testing the efficacy of novel treatment approaches.

Published

2016

11. Proteomics and Metabolomics in Psychiatry

Author

Martins-de-Souza, D. and Martins-de-Souza, D.

Subjects

Biochemical markers, Mental illness--Etiology

Abstract

This publication compiles data generated by proteomics and metabolomics about psychiatric disorders. Leading researchers in these fields review the basic principles of proteomics and metabolomics and propose the new directions to be followed in molecular psychiatry. The chapters divided into two sections - Schizophrenia/Psychotic Disorders and Mood Disorders - deal with findings in diverse tissues from human and preclinical models in order to unravel the biology and biochemistry behind the establishment and course of these illnesses as well as potential biomarkers for clinical applications. More than an update, this publication indicates the next steps to discover biomarkers and understand psychiatric disorders more comprehensively. This publication is valuable reading for psychiatrists, neuroscientists and analytical chemists interested in the basics of proteomics and metabolomics, psychiatric definitions and the most advanced hypotheses about the pathobiology of schizophrenia, depression and bipolar disorder.

Published

2014

12. MK-801 treatment affects glycolysis in oligodendrocytes more than in astrocytes and neuronal cells: insights for schizophrenia

Author

Guest, P., Iwata, K., Kato, T., Steiner, J., Schmitt, A., Turck, C., and Martins-de-Souza, D.

Subjects

Proteomics, MK-801, clozapine, Proteome, neurons, oligodendrocytes, Western blot, lcsh:RC321-571, Oligodendroglia, Astrocytes, Schizophrenia, Glycolysis, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Neuroscience

Abstract

Schizophrenia is a debilitating mental disorder, affecting more than 30 million people worldwide. As a multifactorial disease, the underlying causes of schizophrenia require analysis by multiplex methods such as proteomics to allow identification of whole protein networks. Previous post-mortem proteomic studies on brain tissues from schizophrenia patients have demonstrated changes in activation of glycolytic and energy metabolism pathways. However, it is not known whether these changes occur in neurons or in glial cells. To address this question, we treated neuronal, astrocyte, and oligodendrocyte cell lines with the NMDA receptor antagonist MK-801 and measured the levels of six glycolytic enzymes by Western blot analysis. MK-801 acts on the glutamatergic system and has been proposed as a pharmacological means of modeling schizophrenia. Treatment with MK-801 resulted in significant changes in the levels of glycolytic enzymes in all cell types. Most of the differences were found in oligodendrocytes, which had altered levels of hexokinase 1 (HK1), enolase 2 (ENO2), phosphoglycerate kinase (PGK), and phosphoglycerate mutase 1 after acute MK-801 treatment (8 h), and HK1, ENO2, PGK, and triosephosphate isomerase (TPI) following long term treatment (72 h). Addition of the antipsychotic clozapine to the cultures resulted in counter-regulatory effects to the MK-801 treatment by normalizing the levels of ENO2 and PGK in both the acute and long term cultures. In astrocytes, MK-801 affected only aldolase C (ALDOC) under both acute conditions and HK1 and ALDOC following long term treatment, and TPI was the only enzyme affected under long term conditions in the neuronal cells. In conclusion, MK-801 affects glycolysis in oligodendrocytes to a larger extent than neuronal cells and this may be modulated by antipsychotic treatment. Although cell culture studies do not necessarily reflect the in vivo pathophysiology and drug effects within the brain, these results suggest that neurons, astrocytes, and oligodendrocytes are affected differently in schizophrenia. Employing in vitro models using neurotransmitter agonists and antagonists may provide new insights about the pathophysiology of schizophrenia which could lead to a novel system for drug discovery.

Published

2015

13. Identification of proteomic signatures associated with depression and psychotic depression in post-mortem brains from major depression patients

Author

Martins-de-Souza, D., Guest, P.C., Harris, L.W., Vanattou-Saifoudine, N., Webster, M.J., Rahmoune, H., and Bahn, S.

Abstract

Major depressive disorder (MDD) is a leading cause of disability worldwide and results tragically in the loss of almost one million lives in Western societies every year. This is due to poor understanding of the disease pathophysiology and lack of empirical medical tests for accurate diagnosis or for guiding antidepressant treatment strategies. Here, we have used shotgun proteomics in the analysis of post-mortem dorsolateral prefrontal cortex brain tissue from 24 MDD patients and 12 matched controls. Brain proteomes were pre-fractionated by gel electrophoresis and further analyzed by shotgun data-independent label-free liquid chromatography-mass spectrometry. This led to identification of distinct proteome fingerprints between MDD and control subjects. Some of these differences were validated by Western blot or selected reaction monitoring mass spectrometry. This included proteins associated with energy metabolism and synaptic function and we also found changes in the histidine triad nucleotide-binding protein 1 (HINT1), which has been implicated recently in regulation of mood and behavior. We also found differential proteome profiles in MDD with (n=11) and without (n=12) psychosis. Interestingly, the psychosis fingerprint showed a marked overlap to changes seen in the brain proteome of schizophrenia patients. These findings suggest that it may be possible to contribute to the disease understanding by distinguishing different subtypes of MDD based on distinct brain proteomic profiles.

Published

2012

14. Proteomic changes in serum of first onset, antidepressant drug-naïve major depression patients

Author

Stelzhammer, V. (Viktoria), Haenisch, F. (Frieder), Chan, M.K., Cooper, J.D. (Jason), Steiner, J. (Johann), Steeb, H. (Hannah), Martins-de-Souza, D. (Daniel), Rahmoune, H. (Hassan), Guest, P.C. (Paul), Bahn, S. (Sabine), Stelzhammer, V. (Viktoria), Haenisch, F. (Frieder), Chan, M.K., Cooper, J.D. (Jason), Steiner, J. (Johann), Steeb, H. (Hannah), Martins-de-Souza, D. (Daniel), Rahmoune, H. (Hassan), Guest, P.C. (Paul), and Bahn, S. (Sabine)

Abstract

Major depressive disorder (MDD) is a complex and multi-factorial disorder. Although genetic factors and other molecular aspects of MDD have been widely studied, the underlying pathological mechanisms are still mostly unknown. We sought to investigate the pathophysiology of MDD by identifying and characterising serum molecular differences and their correlation to symptom severity in first onset, antidepressant drug-naïve MDD patients. We performed an exploratory molecular profiling study on serum samples of MDD patients and controls using multiplex immunoassay and label-free liquid chromatography mass spectrometry in data independent mode (LC-MSE). We included two independent cohorts of first onset, antidepressant drug-naïve MDD patients (n = 23 and 15) and matched controls (n = 42 and 21) in our study in order to validate the results. The main outcome included the following list of circulatory molecules changing and/or correlating to symptom severity: angiotensin-converting enzyme, acute phase proteins (e.g. ferritin and serotransferrin), brain-derived neurotrophic factor, complement component C4-B, cortisol, cytokines (e.g. macrophage migration inhibitory factor and interleukin-16), extracellular newly identified receptor for advanced glycosylation end products-binding protein, growth hormone and superoxide dismutase-1. This study provides evidence of an increased pro-inflammatory and oxidative stress response, followed by a hyperactivation of the HPA-axis in the acute stages of first onset MDD, as well as a dysregulation in growth factor pathways. These findings help to elucidate MDD related pathways in more detail and further studies may lead to identification of novel drug targets, incl

Published

2014

15. Proteomic changes in serum of first onset, antidepressant drug-naive major depression patients

Author

Stelzhammer, V, Haenisch, F, Chan, MK, Cooper, JD, Steiner, J, Steeb, H, Martins-de-Souza, D, Rahmoune, H, Guest, PC, Bahn, Sabine, Stelzhammer, V, Haenisch, F, Chan, MK, Cooper, JD, Steiner, J, Steeb, H, Martins-de-Souza, D, Rahmoune, H, Guest, PC, and Bahn, Sabine

Abstract

Major depressive disorder (MDD) is a complex and multi-factorial disorder. Although genetic factors and other molecular aspects of MDD have been widely studied, the underlying pathological mechanisms are still mostly unknown. We sought to investigate the pathophysiology of MDD by identifying and characterising serum molecular differences and their correlation to symptom severity in first onset, antidepressant drug-naive MDD patients. We performed an exploratory molecular profiling study on serum samples of MDD patients and controls using multiplex immunoassay and label-free liquid chromatography mass spectrometry in data independent mode (LC-MSE). We included two independent cohorts of first onset, antidepressant drug-naive MDD patients (n=23 and 15) and matched controls (n=42 and 21) in our study in order to validate the results. The main outcome included the following list of circulatory molecules changing and/or correlating to symptom severity: angiotensin-converting enzyme, acute phase proteins (e. g. ferritin and serotransferrin), brain-derived neurotrophic factor, complement component C4-B, cortisol, cytokines (e. g. macrophage migration inhibitory factor and interleukin-16), extracellular newly identified receptor for advanced glycosylation end products-binding protein, growth hormone and superoxide dismutase-1. This study provides evidence of an increased pro-inflammatory and oxidative stress response, followed by a hyperactivation of the HPA-axis in the acute stages of first onset MDD, as well as a dysregulation in growth factor pathways. These findings help to elucidate MDD related pathways in more detail and further studies may lead to identification of novel drug targets, including components of the inflammatory and oxidative stress response.

Published

2014

16. Plasma fibrinogen: now also an antidepressant response marker?

Author

Martins-de-Souza, D, primary, Maccarrone, G, additional, Ising, M, additional, Kloiber, S, additional, Lucae, S, additional, Holsboer, F, additional, and Turck, C W, additional

Published

2014

17. EPA-0074 – Proteomic studies in schizophrenia and effects of antipsychotic medication: relevance for the immune system

Author

Martins-de-Souza, D., primary

Published

2014

18. Proteomic profiling in schizophrenia: Enabling stratification for more effective treatment

Author

Guest, P.C. (Paul), Martins-de-Souza, D. (Daniel), Schwarz, E. (Emanuel), Rahmoune, H. (Hassan), Alsaif, M. (Murtada), Tomasik, J.J. (Jakub), Turck, D. (Dominique), Bahn, S. (Sabine), Guest, P.C. (Paul), Martins-de-Souza, D. (Daniel), Schwarz, E. (Emanuel), Rahmoune, H. (Hassan), Alsaif, M. (Murtada), Tomasik, J.J. (Jakub), Turck, D. (Dominique), and Bahn, S. (Sabine)

Abstract

Schizophrenia is a heterogeneous psychiatric disorder characterized by an array of clinical manifestations. Although the best known manifestations include serious effects on mood and behavior, patients can also display co-morbidities, including immune system or metabolic abnormalities. Thorough characterization of these conditions using proteomic profiling methods has increased our knowledge of these molecular differences and has helped to unravel the complexity and heterogeneity of this debilitating condition. This could lead to patient stratification through characterization of biochemically different subtypes of the disease. In addition, proteomic methods have recently been used for molecular characterization of the mechanism of action of antipsychotic medications in both preclinical models and patients. This has resulted in identification of molecular panels that show some promise for prediction of response or for monitoring treatment outcome. This review describes how proteomic profiling methods can impact the future of schizophrenia diagnosis and therapeutics, and facilitate personalized medicine approaches for more effective treatment management of schizophrenia patients.

Published

2013

19. The effects of stress on hypothalamic-pituitary-adrenal (HPA) axis function in subjects with schizophrenia

Author

Guest, P.C. (Paul), Martins-de-Souza, D. (Daniel), Rahmoune, H. (Hassan), Bahn, S. (Sabine), Guest, P.C. (Paul), Martins-de-Souza, D. (Daniel), Rahmoune, H. (Hassan), and Bahn, S. (Sabine)

Abstract

Over the last few decades, evidence has been emerging that the pathogenesis of psychiatric disorders such as schizophrenia can involve perturbations of the hypothalamic-pituitary-adrenal (HPA) axis. Variations in the manifestation of these effects could be related to the differences in clinical symptoms between affected individuals as well as to differences in treatment response. Such effects can also arise from the complex interaction between genes and environmental factors. Here, we review the effects of maternal stress on abnormalities in HPA axis regulation and the development of psychiatric disorders including schizophrenia. Studies in this area may prove critical for increasing our understanding of the multi-dimensional nature of schizophrenia. Further research in this area could ultimately lead to the development of improved diagnostics and novel therapeutic approaches for treating this debilitating psychiatric condition.

Published

2013

20. Purificación y caracterización de una nueva PLA2 del veneno total de Micrurus spixii.

Author

Valeriano Zapana, J.A., Cari Cari, Y.M., Arenas Chavez, C., Vera Gonzales, C., Martins de Souza, D., Ponce Soto, Luis A., Marangoni, S., Valeriano Zapana, J.A., Cari Cari, Y.M., Arenas Chavez, C., Vera Gonzales, C., Martins de Souza, D., Ponce Soto, Luis A., and Marangoni, S.

Abstract

A new PLA2, with myotoxic activity, was purified from de venom of Micrurus spixii, with a high degree of purity and molecular homogeneity by two chromatographic steps: molecular exclusion chromatography G-75 (1 cm x 60 cm) and high performance liquid chromatography pressure reverse phase (RP-HPLC). The SDS-PAGE electrophoresis shows a molecular mass ~ 14 kDa, which was confirmed by mass spectrometry MALDI-TOF with a molecular mass of 14149,005 Da. This new PLA2 showed a potent myotoxic local effect (intramuscular way) and systemic too (tail vein) in mice, at a concentration of 20ug/ml compared to other snake of the same gender and high inflammatory activity at a concentration of 5ug / ml. The reproducibility of biological activity through the pharmacological effects is only possible with the use of chemically homogeneous fractions that keep the integrity of the biology activity., Fue purificado una nueva PLA2, con actividad miotóxica del veneno de Micrurus spixii con un alto grado de pureza y homogeneidad molecular, mediante dos pasos cromatográficos: cromatografía de exclusión molecular G-75 (1 cm x 60 cm) y cromatografía liquida de alta presión de fase reversa (RP-HPLC). La electroforesis en SDS-PAGE muestra una masa molecular ~14 KDa, que fue confirmado por la espectrometría de masa MALDI-TOF con una masa molecular de 14149.005 Da. Esta nueva PLA2 mostró un potente efecto miotóxico local (vía intramuscular) así como sistémico (vena caudal) en ratones, a una concentración de 20ug/ml y una elevada actividad inflamatoria a una concentración de 5ug/ml. La reproductibilidad de la actividad biológica, a través de los efectos farmacológicos, solo es posible con la utilización de fracciones químicamente homogéneas que mantengan la integridad de la función biología.

Published

2013

21. Identification of proteomic signatures associated with depression and psychotic depression in post-mortem brains from major depression patients

Author

Martins-de-Souza, D. (Daniel), Guest, P.C. (Paul), Harris, L.W. (Laura), Vanattou-Saifoudine, N. (Natacha), Webster, M.J. (M.), Rahmoune, H. (Hassan), Bahn, S. (Sabine), Martins-de-Souza, D. (Daniel), Guest, P.C. (Paul), Harris, L.W. (Laura), Vanattou-Saifoudine, N. (Natacha), Webster, M.J. (M.), Rahmoune, H. (Hassan), and Bahn, S. (Sabine)

Abstract

Major depressive disorder (MDD) is a leading cause of disability worldwide and results tragically in the loss of almost one million lives in Western societies every year. This is due to poor understanding of the disease pathophysiology and lack of empirical medical tests for accurate diagnosis or for guiding antidepressant treatment strategies. Here, we have used shotgun proteomics in the analysis of post-mortem dorsolateral prefrontal cortex brain tissue from 24 MDD patients and 12 matched controls. Brain proteomes were pre-fractionated by gel electrophoresis and further analyzed by shotgun data-independent label-free liquid chromatography-mass spectrometry. This led to identification of distinct proteome fingerprints between MDD and control subjects. Some of these differences were validated by Western blot or selected reaction monitoring mass spectrometry. This included proteins associated with energy metabolism and synaptic function and we also found changes in the histidine triad nucleotide-binding protein 1 (HINT1), which has been implicated recently in regulation of mood and behavior. We also found differential proteome profiles in MDD with (n11) and without (n12) psychosis. Interestingly, the psychosis fingerprint showed a marked overlap to changes seen in the brain proteome of schizophrenia patients. These findings suggest that it may be possible to contribute to the disease understanding by distinguishing different subtypes of MDD based on distinct brain proteomic profiles.

Published

2012

22. The application of selective reaction monitoring confirms dysregulation of glycolysis in a preclinical model of schizophrenia

Author

Martins-de-Souza, D. (Daniel), Alsaif, M. (Murtada), Ernst, A. (Agnes), Harris, L.W. (Laura), Aerts, N. (Nancy), Lenaerts, I. (Ilse), Peeters, P.J. (Pieter), Amess, K. (Kevin), Rahmoune, H. (Hassan), Bahn, S. (Sabine), Guest, P.C. (Paul), Martins-de-Souza, D. (Daniel), Alsaif, M. (Murtada), Ernst, A. (Agnes), Harris, L.W. (Laura), Aerts, N. (Nancy), Lenaerts, I. (Ilse), Peeters, P.J. (Pieter), Amess, K. (Kevin), Rahmoune, H. (Hassan), Bahn, S. (Sabine), and Guest, P.C. (Paul)

Abstract

Background: Establishing preclinical models is essential for novel drug discovery in schizophrenia. Most existing models are characterized by abnormalities in behavioral readouts, which are informative, but do not necessarily translate to the symptoms of the human disease. Therefore, there is a necessity of characterizing the preclinical models from a molecular point of view. Selective reaction monitoring (SRM) has already shown promise in preclinical and clinical studies for multiplex measurement of diagnostic, prognostic and treatment-related biomarkers. Methods. We have established an SRM assay for multiplex analysis of 7 enzymes of the glycolysis pathway which is already known to be affected in human schizophrenia and in the widely-used acute PCP rat model of schizophrenia. The selected enzymes were hexokinase 1 (Hk1), aldolase C (Aldoc), triosephosphate isomerase (Tpi1), glyceraldehyde-3-phosphate dehydrogenase (Gapdh), phosphoglycerate mutase 1 (Pgam1), phosphoglycerate kinase 1 (Pgk1) and enolase 2 (Eno2). The levels of these enzymes were analyzed using SRM in frontal cortex from brain tissue of PCP treated rats. Results: Univariate analyses showed statistically significant altered levels of Tpi1 and alteration of Hk1, Aldoc, Pgam1 and Gapdh with borderline significance in PCP rats compared to controls. Most interestingly, multivariate analysis which considered the levels of all 7 enzymes simultaneously resulted in generation of a bi-dimensional chart that can distinguish the PCP rats from the controls. Conclusions: This study not only supports PCP treated rats as a useful preclinical model of schizophrenia, but it also establishes that SRM mass spectrometry could be used in the development of multiplex classification tools for complex psychiatric disorders such as schizophrenia.

Published

2012

23. Proteomics Tackling Schizophrenia as a Pathway Disorder

Author

Martins-de-Souza, D., primary

Published

2012

24. The untiring search for the most complete proteome representation: reviewing the methods

Author

Martins de Souza, D., primary, Oliveira, B. M., additional, Castro-Dias, E., additional, Winck, F. V., additional, Horiuchi, R. S. O., additional, Baldasso, P. A., additional, Caetano, H. T., additional, Pires, N. K. D., additional, Marangoni, S., additional, and Novello, J. C., additional

Published

2008

25. Structural and functional characterization of myotoxin, Cr-IV 1, a phospholipase A2 D49 from the venom of the snake Calloselasma rhodostoma

Author

Bonfim, V.L., primary, Ponce-Soto, L.A., additional, Martins de Souza, D., additional, Souza, G.H.M.F., additional, Baldasso, P.A., additional, Eberlin, M.N., additional, and Marangoni, S., additional

Published

2008

26. Structural and functional characterization of myotoxin, Cr-IV 1, a phospholipase A2 D49 from the venom of the snake Calloselasma rhodostoma

Author

Bonfim, V.L., Ponce-Soto, L.A., Martins de Souza, D., Souza, G.H.M.F., Baldasso, P.A., Eberlin, M.N., and Marangoni, S.

Subjects

*POISONOUS animals, *AMINO acids, *SPECTRUM analysis, *OPTICS

Abstract

Abstract: A new D49 PLA2 was purified from the venom of Calloselasma rhodostoma after two chromatographic steps. Molecular exclusion chromatography was done through a Protein-Pack 300 SW column (0.78cm×30cm), eluting with 0.25M ammonium bicarbonate, pH 7.9, at a flow rate of 0.3ml/min. Reverse-phase HPLC was then performed on μ-Bondapack C-18. The sample was determined to have a molecular mass of 13,870.94Da MALDI-TOF by mass spectrometry, and the amino acid composition showed that Cr-IV 1 presented a high content of Lys, Tyr, Gly, Pro, and 14 half-Cys residues, typical of a basic PLA2. Cr-IV 1 presented a sequence of 122 amino acid residues: DLWEFGQMILKETGSLPFPY YTTYGCYCGV GGRGGKPKDA TDRCCFVHDC CYGKLTGCPK TNDRYSYSRL DYTIVCGEGG PCKQICECDK AAAVCFRENL RTYNKKYRYHLKPFCKEPAE TC and a calculated pI value of 8.0. Cr-IV 1 had PLA2 activity in the presence of a synthetic chromogenic substrate (4-nitro-3-(octanoyloxy)benzoic acid) and showed a rapid cytolytic effect on mouse skeletal muscle myoblasts and myotubes in culture. In mice, Cr-IV 1 induced myonecrosis and edema upon intramuscular and intravenous injections, respectively. The LD50 of Cr-IV 1 was determined to be 0.07mg/k body weight by intracerebroventricular (i.c.v.) injection. The combination of structural and functional information obtained herein classifies Cr-IV 1 as a new member of the D49 PLA2 family, as it presents the typical behavior of a phospholipase A2 from this family. [Copyright &y& Elsevier]

Published

2008

27. Validity, Reliability, and Diagnostic Accuracy of Ratings of Perceived Exertion to Identify Dependence in Performing Self-care Activities in Older Women

Author

Douglas Martins de Souza, Gleber Pereira, Samuele Maria Marcora, Paula Born Lopes, André Luiz Felix Rodacki, Robertson J Robertson, Fábio Yuzo Nakamura, Martins de Souza, D., Born Lopes, P., Marcora, S., Robertson, R.J., Luiz Felix Rodacki, A., Nakamura, F.Y., and Pereira, G.

Subjects

Aging, medicine.medical_specialty, Validation study, Activities of daily living, aging, disabilty, perception of effort, RPE, exercise, physical activity, Physical Exertion, MEDLINE, Diagnostic accuracy, Perceived exertion, Disability Evaluation, 03 medical and health sciences, 0302 clinical medicine, Arts and Humanities (miscellaneous), 030502 gerontology, Activities of Daily Living, Validity reliability, medicine, Humans, 030212 general & internal medicine, General Psychology, Aged, Reproducibility of Results, Self care activities, Self Care, Physical therapy, Self care, Female, Geriatrics and Gerontology, 0305 other medical science, Psychology

Abstract

Background: Dependence in self-care activities among older women has been previously evaluated through performance-based tests. However, these tests have presented inability to accurately distinguish between dependent and independent older adults in performing activities of daily living. Aim: To examine the validity, reliability, and diagnostic accuracy of rating of perceived exertion (RPE) to identify dependence in performing self-care activities in older women. Methods: Thirty-five older women performed two different constant-load tasks (walking on treadmill at 4 km/h for five minutes and arm curls with two kg for one minute), reporting RPE at the end, in four sessions. Performance-based tests (30-second chair stand and 6-minute walk) were also evaluated. Katz Index and Lawton and Brody questionnaires were applied to evaluate the dependence level in performing basic and instrumental activities of daily living. Results: RPE was greater on the first session (RPE 14 ± 2) than second session (RPE 13 ± 2), while it was similar through other sessions, with high values of intraclass coefficient correlation (0.96–0.99). Basic activities of daily living and instrumental activities of daily living presented high correlations with RPE measures (0.75–0.82), whereas performance-based tests presented moderate correlations (0.47–0.59). RPE responses explained the most variance in identifying dependence in self-care activities and presented high diagnostic accuracy to differentiate dependent from independent older women. So the hypotheses had been confirmed that RPE responses in constant-load exercise are better predictors of dependence in self-care activities than performance-based tests. Conclusions: RPE of constant-load physical tasks was valid, reliable, and accurate in identifying dependence in performing self-care activities in older women; therefore, it is possible to use the perceived exertion to identify dependence in performing activities of daily living in older women. © 2018, © 2018 Taylor & Francis Group, LLC.

Published

2018

28. Proteomics of Preclinical Models of Depression

Author

Lucia Carboni, Martins-de-Souza D., and Carboni L.

Subjects

MAJOR DEPRESSIVE DISORDER, business.industry, Learned helplessness, Disease, ANIMAL MODEL, Bioinformatics, Proteomics, medicine.disease, Amygdala, Social defeat, medicine.anatomical_structure, medicine, Anxiety, Major depressive disorder, PROTEOMICS, medicine.symptom, business, Prefrontal cortex

Abstract

Major depressive disorder (MDD) is a widespread and disabling disease whose aetiology and pathophysiological basis are still incompletely understood. In this review, hypothesis-free proteomic analyses carried out on animal models of MDD to study the neurobiological correlates of MDD are described and discussed. Most proteomic investigations rely on the induction of depression-like behaviours via exposure to stressful experiences, similarly to known mechanisms of MDD occurrence. Animal models included exposure to chronic corticosterone treatment, prenatal restraint stress, early-life stress, chronic mild stress, restraint stress and social defeat, as well as the induction of learned helplessness and analysis of genetically selected strains. In other instances, models of anxiety behaviours were examined, since anxiety disorders are often associated with MDD. Although proteomic analyses made use of different technologies, in most instances protein separation was achieved by means of gel electrophoresis. The majority of the studies were performed on brain regions allegedly affected in MDD patients, such as the hippocampus, prefrontal cortex, amygdala and hypothalamus. Proteins connected to different biochemical functions were modulated in the distinct animal models and brain regions, while, in some cases, the comprehensive impact on signalling pathways was evaluated as well. Globally, a large number of different proteins were identified in the proteomic experiments, although a methodological bias for water-soluble abundant proteins should be appreciated. Subsequent approaches should be adopted to validate, interpret and exploit more extensively the vast amount of information produced. The results summarised in this review provide potential new avenues for the investigation of the molecular neurobiology of MDD.

Published

2014

29. Diacerein reduces inflammasome activation and SARS-CoV-2 virus replication: a proof-of-concept translational study.

Author

Carmo HRP, Castillo AR, Bonilha I, Gomes EIL, Barreto J, Moura FA, Davanzo GG, de Brito Monteiro L, Muraro SP, Fabiano de Souza G, Morari J, Galdino FE, Brunetti NS, Reis-de-Oliveira G, Carregari VC, Nadruz W, Martins-de-Souza D, Farias AS, Velloso LA, Proenca-Modena JL, Mori MA, Loh W, Bhatt DL, Yellon DM, Davidson SM, De Oliveira PG, Moraes-Vieira PM, and Sposito AC

Abstract

Background: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is linked to high mortality, primarily through an intense inflammatory response. Diacerein has emerged as a potential therapy for COVID-19 due to its potential impact in decreasing the inflammasome activation and coronavirus replication. This study aims to explore diacerein's influence in inhibiting both viral replication and the inflammatory response after SARS-CoV-2 infection., Methods: Human peripheral blood mononuclear cells (PBMCs) were obtained from healthy volunteers and infected in vitro with SARS-CoV-2. Additionally, we carried out a pilot randomized, double-blind, placebo-controlled study with 14 participants allocated to diacerein (n = 7) or placebo (n = 7) therapies every 12 h for 10 days. The primary endpoint was change in plasma markers of inflammasome activation (NLRP3, caspase-1, and gasdermin-D)., Results: In vitro protocols have shown that rhein, diacerein's primary metabolite, decreased IL-1β secretion caused by SARS-CoV-2 infection in human PBMCs ( p < 0.05), and suppressed viral replication when administered either before or after the virus incubation ( p < 0.05). This later effect was, at least partially, attributed to its inhibitory effect on 3-chymotrypsin-like protease (SARS-CoV-2 3CL pro ) and papain-like protease in the SARS-CoV-2 (SARS-CoV-2 PL pro ) virus and in the phosphorylation of proteins related cytoskeleton network ( p < 0.05). Diacerein-treated COVID-19 patients presented a smaller area under the curve for NLRP3, caspase-1 and GSDM-D measured on days 2, 5, and 10 after hospitalization compared to those receiving a placebo ( p < 0.05)., Conclusion: The indicated mechanisms of action of diacerein/rhein can reduce viral replication and mitigate the inflammatory response related to SARS-CoV-2. These findings are preliminary and require confirmation in clinical trials., Competing Interests: DB discloses the following relationships - Advisory Board: Angiowave, Bayer, Boehringer Ingelheim, CellProthera, Cereno Scientific, Elsevier Practice Update Cardiology, High Enroll, Janssen, Level Ex, McKinsey, Medscape Cardiology, Merck, MyoKardia, NirvaMed, Novo Nordisk, PhaseBio, PLx Pharma, Stasys; Board of Directors: American Heart Association New York City, Angiowave (stock options), Bristol Myers Squibb (stock), DRS.LINQ (stock options), High Enroll (stock); Consultant: Broadview Ventures, GlaxoSmithKline, Hims, SFJ, Youngene; Data Monitoring Committees: Acesion Pharma, Assistance Publique-Hô pitaux de Paris, Baim Institute for Clinical Research (formerly Harvard Clinical Research Institute, for the PORTICO trial, funded by St. Jude Medical, now Abbott), Boston Scientific (Chair, PEITHO trial), Cleveland Clinic, Contego Medical (Chair, PERFORMANCE 2), Duke Clinical Research Institute, Mayo Clinic, Mount Sinai School of Medicine (for the ENVISAGE trial, funded by Daiichi Sankyo; for the ABILITY-DM trial, funded by Concept Medical; for ALLAY-HF, funded by Alleviant Medical), Novartis, Population Health Research Institute; Rutgers University (for the NIH-funded MINT Trial); Honoraria: American College of Cardiology (Senior Associate Editor, Clinical Trials and News, ACC.org; Chair, ACC Accreditation Oversight Committee), Arnold and Porter law firm (work related to Sanofi/Bristol-Myers Squibb clopidogrel litigation), Baim Institute for Clinical Research (formerly Harvard Clinical Research Institute; RE-DUAL PCI clinical trial steering committee funded by Boehringer Ingelheim; AEGIS-II executive committee funded by CSL Behring), Belvoir Publications (Editor in Chief, Harvard Heart Letter), Canadian Medical and Surgical Knowledge Translation Research Group (clinical trial steering committees), CSL Behring (AHA lecture), Cowen and Company, Duke Clinical Research Institute (clinical trial steering committees, including for the PRONOUNCE trial, funded by Ferring Pharmaceuticals), HMP Global (Editor in Chief, Journal of Invasive Cardiology), Journal of the American College of Cardiology (Guest Editor; Associate Editor), K2P (Co-Chair, interdisciplinary curriculum), Level Ex, Medtelligence/ReachMD (CME steering committees), MJH Life Sciences, Oakstone CME (Course Director, Comprehensive Review of Interventional Cardiology), Piper Sandler, Population Health Research Institute (for the COMPASS operations committee, publications committee, steering committee, and United States national co-leader, funded by Bayer), WebMD (CME steering committees), (steering committee); Other: Clinical Cardiology (Deputy Editor); Patent: Sotagliflozin (named on a patent for sotagliflozin assigned to Brigham and Women' s Hospital who assigned to Lexicon; neither I nor Brigham and Women' s Hospital receive any income from this patent); Research Funding: Abbott, Acesion Pharma, Afimmune, Aker Biomarine, Alnylam, Amarin, Amgen, AstraZeneca, Bayer, Beren, Boehringer Ingelheim, Boston Scientific, Bristol-Myers Squibb, Cardax, CellProthera, Cereno Scientific, Chiesi, CinCor, Cleerly, CSL Behring, Eisai, Ethicon, Faraday Pharmaceuticals, Ferring Pharmaceuticals, Forest Laboratories, Fractyl, Garmin, HLS Therapeutics, Idorsia, Ironwood, Ischemix, Janssen, Javelin, Lexicon, Lilly, Medtronic, Merck, Moderna, MyoKardia, NirvaMed, Novartis, Novo Nordisk, Otsuka, Owkin, Pfizer, PhaseBio, PLx Pharma, Recardio, Regeneron, Reid Hoffman Foundation, Roche, Sanofi, Stasys, Synaptic, The Medicines Company, Youngene, 89Bio; Royalties: Elsevier (Editor, Braunwald’s Heart Disease); Site Co-Investigator: Abbott, Biotronik, Boston Scientific, CSI, Endotronix, St. Jude Medical (now Abbott), Philips, SpectraWAVE, Svelte, Vascular Solutions; Trustee: American College of Cardiology; Unfunded Research: FlowCo. AS discloses the following relationships - Research Funding: Amgen, AstraZeneca, National Council for Scientific and Technological Development (CNPq) and Fundaç and#227; o de Apoio and#224; Pesquisa do Estado de Sã o Paulo (FAPESP). Dr. Pedro Gonç alves de Oliveira is responsible for R&D activities at TRB Pharma Indú stria Quí mica e Farmace utica Ltda, SP, Brazil. TRB Pharma is the owner of the product ARTRODAR® a diacerein-based product for osteoarthritis treatment. The remaining 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 © 2024 Carmo, Castillo, Bonilha, Gomes, Barreto, Moura, Davanzo, de Brito Monteiro, Muraro, Fabiano de Souza, Morari, Galdino, Brunetti, Reis-de-Oliveira, Carregari, Nadruz, Martins-de-Souza, Farias, Velloso, Proenca-Modena, Mori, Loh, Bhatt, Yellon, Davidson, De Oliveira, Moraes-Vieira and Sposito.)

Published

2024

30. Post-COVID syndrome - novel clinical findings.

Author

Adorjan K, Martins-de-Souza D, and Walter M

Published

2024

31. The autophagy proteome in the brain.

Author

Ito-Silva VI, Smith BJ, and Martins-de-Souza D

Abstract

As one of the most important cellular housekeepers, autophagy directly affects cellular health, homeostasis, and function. Even though the mechanisms behind autophagy are well described, how molecular alterations and dysfunctions can lead to pathology in disease contexts still demands deeper investigation. Proteomics is a widely employed tool used to investigate molecular alterations associated with pathological states and has proven useful in identifying alterations in protein expression levels and post-translational modifications in autophagy. In this narrative review, we expand on the molecular mechanisms behind autophagy and its regulation, and further compile recent literature associating autophagy disturbances in context of brain disorders, utilizing discoveries from varying models and species from rodents and cellular models to human post-mortem brain samples. To outline, the canonical pathways of autophagy, the effects of post-translational modifications on regulating each step of autophagy, and the future directions of proteomics in autophagy will be discussed. We further aim to suggest how advancing proteomics can help further unveil molecular mechanisms with regard to neurological disorders., (© 2024 International Society for Neurochemistry.)

Published

2024

32. LSD Modulates Proteins Involved in Cell Proteostasis, Energy Metabolism and Neuroplasticity in Human Cerebral Organoids.

Author

N Costa M, Goto-Silva L, M Nascimento J, Domith I, Karmirian K, Feilding A, Trindade P, Martins-de-Souza D, and K Rehen S

Abstract

Proteomic analysis of human cerebral organoids may reveal how psychedelics regulate biological processes, shedding light on drug-induced changes in the brain. This study elucidates the proteomic alterations induced by lysergic acid diethylamide (LSD) in human cerebral organoids. By employing high-resolution mass spectrometry-based proteomics, we quantitatively analyzed the differential abundance of proteins in cerebral organoids exposed to LSD. Our findings indicate changes in proteostasis, energy metabolism, and neuroplasticity-related pathways. Specifically, LSD exposure led to alterations in protein synthesis, folding, autophagy, and proteasomal degradation, suggesting a complex interplay in the regulation of neural cell function. Additionally, we observed modulation in glycolysis and oxidative phosphorylation, crucial for cellular energy management and synaptic function. In support of the proteomic data, complementary experiments demonstrated LSD's potential to enhance neurite outgrowth in vitro , confirming its impact on neuroplasticity. Collectively, our results provide a comprehensive insight into the molecular mechanisms through which LSD may affect neuroplasticity and potentially contribute to therapeutic effects for neuropsychiatric disorders., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

33. OmicScope unravels systems-level insights from quantitative proteomics data.

Author

Reis-de-Oliveira G, Carregari VC, Sousa GRDR, and Martins-de-Souza D

Subjects

Systems Biology methods, Humans, Databases, Protein, Computational Biology methods, Proteomics methods, Software

Abstract

Shotgun proteomics analysis presents multifaceted challenges, demanding diverse tool integration for insights. Addressing this complexity, OmicScope emerges as an innovative solution for quantitative proteomics data analysis. Engineered to handle various data formats, it performs data pre-processing - including joining replicates, normalization, data imputation - and conducts differential proteomics analysis for both static and longitudinal experimental designs. Empowered by Enrichr with over 224 databases, OmicScope performs Over Representation Analysis (ORA) and Gene Set Enrichment Analysis (GSEA). Additionally, its Nebula module facilitates meta-analysis from independent datasets, providing a systems biology approach for enriched insights. Complete with a data visualization toolkit and accessible as Python package and a web application, OmicScope democratizes proteomics analysis, offering an efficient and high-quality pipeline for researchers., (© 2024. The Author(s).)

Published

2024

34. Molecular overlaps of neurological manifestations of COVID-19 and schizophrenia from a proteomic perspective.

Author

Antunes ASLM, Reis-de-Oliveira G, and Martins-de-Souza D

Abstract

COVID-19, a complex multisystem disorder affecting the central nervous system, can also have psychiatric sequelae. In addition, clinical evidence indicates that a diagnosis of a schizophrenia spectrum disorder is a risk factor for mortality in patients with COVID-19. In this study, we aimed to explore brain-specific molecular aspects of COVID-19 by using a proteomic approach. We analyzed the brain proteome of fatal COVID-19 cases and compared it with differentially regulated proteins found in postmortem schizophrenia brains. The COVID-19 proteomic dataset revealed a strong enrichment of proteins expressed by glial and neuronal cells and processes related to diseases with a psychiatric and neurodegenerative component. Specifically, the COVID-19 brain proteome enriches processes that are hallmark features of schizophrenia. Furthermore, we identified shared and distinct molecular pathways affected in both conditions. We found that brain ageing processes are likely present in both COVID-19 and schizophrenia, albeit possibly driven by distinct processes. In addition, alterations in brain cell metabolism were observed, with schizophrenia primarily impacting amino acid metabolism and COVID-19 predominantly affecting carbohydrate metabolism. The enrichment of metabolic pathways associated with astrocytic components in both conditions suggests the involvement of this cell type in the pathogenesis. Both COVID-19 and schizophrenia influenced neurotransmitter systems, but with distinct impacts. Future studies exploring the underlying mechanisms linking brain ageing and metabolic dysregulation may provide valuable insights into the complex pathophysiology of these conditions and the increased vulnerability of schizophrenia patients to severe outcomes., (© 2024. Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

35. Maximizing Analytical Performance in Biomolecular Discovery with LC-MS: Focus on Psychiatric Disorders.

Author

Smith BJ, Guest PC, and Martins-de-Souza D

Subjects

Humans, Chromatography, Liquid, Metabolomics, Liquid Chromatography-Mass Spectrometry, Mental Disorders diagnosis, Mass Spectrometry, Biomarkers analysis, Proteomics methods

Abstract

In this review, we discuss the cutting-edge developments in mass spectrometry proteomics and metabolomics that have brought improvements for the identification of new disease-based biomarkers. A special focus is placed on psychiatric disorders, for example, schizophrenia, because they are considered to be not a single disease entity but rather a spectrum of disorders with many overlapping symptoms. This review includes descriptions of various types of commonly used mass spectrometry platforms for biomarker research, as well as complementary techniques to maximize data coverage, reduce sample heterogeneity, and work around potentially confounding factors. Finally, we summarize the different statistical methods that can be used for improving data quality to aid in reliability and interpretation of proteomics findings, as well as to enhance their translatability into clinical use and generalizability to new data sets.

Published

2024

36. Changes in neuroinflammatory biomarkers correlate with disease severity and neuroimaging alterations in patients with COVID-19 neurological complications.

Author

Barros-Aragão FGQ, Pinto TP, Carregari VC, Rezende NBS, Pinheiro TL, Reis-de-Oliveira G, Cabral-Castro MJ, Queiroz DC, Fonseca PLC, Gonçalves AL, de Freitas GR, Sudo FK, Mattos P, Bozza FA, Rodrigues EC, Aguiar RS, Rodrigues RS, Brandão CO, Souza AS, Martins-de-Souza D, De Felice FG, and Tovar-Moll F

Abstract

COVID-19 induces acute and persistent neurological symptoms in mild and severe cases. Proposed concomitant mechanisms include direct viral infection and strain, coagulopathy, hypoxia, and neuroinflammation. However, underlying molecular alterations associated with multiple neurological outcomes in both mild and severe cases are majorly unexplored. To illuminate possible mechanisms leading to COVID-19 neurological disease, we retrospectively investigated in detail a cohort of 35 COVID-19 mild and severe hospitalized patients presenting neurological alterations subject to clinically indicated cerebrospinal fluid (CSF) sampling. Clinical and neurological investigation, brain imaging, viral sequencing, and cerebrospinal CSF analyses were carried out. We found that COVID-19 patients presented heterogeneous neurological symptoms dissociated from lung burden. Nasal swab viral sequencing revealed a dominant strain at the time of the study, and we could not detect traces of SARS-CoV-2's spike protein in patients' CSF by multiple reaction monitoring analysis. Patients presented ubiquitous systemic hyper-inflammation and broad alterations in CSF proteomics related to inflammation, innate immunity, and hemostasis, irrespective of COVID-19 severity or neuroimaging alterations. Elevated CSF interleukin-6 (IL6) correlated with disease severity (sex-, age-, and comorbidity-adjusted mean Severe 24.5 pg/ml, 95% confidence interval (CI) 9.62-62.23 vs. Mild 3.91 pg/mL CI 1.5-10.3 patients, p = 0.019). CSF tumor necrosis factor-alpha (TNFα) and IL6 levels were higher in patients presenting pronounced neuroimaging alterations compared to those who did not (sex-, age-, and comorbidity-adjusted mean TNFα Pronounced 3.4, CI 2.4-4.4 vs. Non-Pronounced 2.0, CI 1.4-2.5, p = 0.022; IL6 Pronounced 33.11, CI 8.89-123.31 vs Non-Pronounced 6.22, CI 2.9-13.34, p = 0.046). Collectively, our findings put neuroinflammation as a possible driver of COVID-19 acute neurological disease in mild and severe cases., Competing Interests: none., (© 2024 The Authors.)

Published

2024

37. The Roles of hnRNP Family in the Brain and Brain-Related Disorders.

Author

Brandão-Teles C, Antunes ASLM, de Moraes Vrechi TA, and Martins-de-Souza D

Subjects

Humans, Animals, Neurons metabolism, Brain metabolism, Brain pathology, Heterogeneous-Nuclear Ribonucleoproteins metabolism, Heterogeneous-Nuclear Ribonucleoproteins genetics, Brain Diseases metabolism, Brain Diseases genetics, Brain Diseases pathology

Abstract

Heterogeneous nuclear ribonucleoproteins (hnRNPs) belong to a complex family of RNA-binding proteins that are essential to control alternative splicing, mRNA trafficking, synaptic plasticity, stress granule formation, cell cycle regulation, and axonal transport. Over the past decade, hnRNPs have been associated with different brain disorders such as Alzheimer's disease, multiple sclerosis, and schizophrenia. Given their essential role in maintaining cell function and integrity, it is not surprising that dysregulated hnRNP levels lead to neurological implications. This review aims to explore the primary functions of hnRNPs in neurons, oligodendrocytes, microglia, and astrocytes, and their roles in brain disorders. We also discuss proteomics and other technologies and their potential for studying and evaluating hnRNPs in brain disorders, including the discovery of new therapeutic targets and possible pharmacological interventions., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

38. Pathophysiology of chikungunya virus infection associated with fatal outcomes.

Author

de Souza WM, Fumagalli MJ, de Lima STS, Parise PL, Carvalho DCM, Hernandez C, de Jesus R, Delafiori J, Candido DS, Carregari VC, Muraro SP, Souza GF, Simões Mello LM, Claro IM, Díaz Y, Kato RB, Trentin LN, Costa CHS, Maximo ACBM, Cavalcante KF, Fiuza TS, Viana VAF, Melo MEL, Ferraz CPM, Silva DB, Duarte LMF, Barbosa PP, Amorim MR, Judice CC, Toledo-Teixeira DA, Ramundo MS, Aguilar PV, Araújo ELL, Costa FTM, Cerqueira-Silva T, Khouri R, Boaventura VS, Figueiredo LTM, Fang R, Moreno B, López-Vergès S, Mello LP, Skaf MS, Catharino RR, Granja F, Martins-de-Souza D, Plante JA, Plante KS, Sabino EC, Diamond MS, Eugenin E, Proença-Módena JL, Faria NR, and Weaver SC

Subjects

Animals, Humans, Proteomics, Cytokines metabolism, Chikungunya Fever complications, Chikungunya virus genetics

Abstract

Chikungunya virus (CHIKV) is a mosquito-borne alphavirus that causes acute, subacute, and chronic human arthritogenic diseases and, in rare instances, can lead to neurological complications and death. Here, we combined epidemiological, virological, histopathological, cytokine, molecular dynamics, metabolomic, proteomic, and genomic analyses to investigate viral and host factors that contribute to chikungunya-associated (CHIK) death. Our results indicate that CHIK deaths are associated with multi-organ infection, central nervous system damage, and elevated serum levels of pro-inflammatory cytokines and chemokines compared with survivors. The histopathologic, metabolite, and proteomic signatures of CHIK deaths reveal hemodynamic disorders and dysregulated immune responses. The CHIKV East-Central-South-African lineage infecting our study population causes both fatal and survival cases. Additionally, CHIKV infection impairs the integrity of the blood-brain barrier, as evidenced by an increase in permeability and altered tight junction protein expression. Overall, our findings improve the understanding of CHIK pathophysiology and the causes of fatal infections., Competing Interests: Declaration of interests M.S.D. is a consultant or advisor for Inbios, Ocugen, Vir Biotechnology, Topspin Therapeutics, Moderna, Merck, and Immunome. The Diamond laboratory has received funding support from Emergent BioSolutions, Moderna, and Vir Biotechnology., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

39. Diving into the proteomic atlas of SARS-CoV-2 infected cells.

Author

Carregari VC, Reis-de-Oliveira G, Crunfli F, Smith BJ, de Souza GF, Muraro SP, Saia-Cereda VM, Vendramini PH, Baldasso PA, Silva-Costa LC, Zuccoli GS, Brandão-Teles C, Antunes A, Valença AF, Davanzo GG, Virgillio-da-Silva JV, Dos Reis Araújo T, Guimarães RC, Chaim FDM, Chaim EA, Kawagosi Onodera CM, Ludwig RG, Saccon TD, Damásio ARL, Leiria LOS, Vinolo MAR, Farias AS, Moraes-Vieira PM, Mori MA, Módena JLP, and Martins-de-Souza D

Subjects

Humans, Proteomics, Pandemics, SARS-CoV-2, COVID-19

Abstract

The COVID-19 pandemic was initiated by the rapid spread of a SARS-CoV-2 strain. Though mainly classified as a respiratory disease, SARS-CoV-2 infects multiple tissues throughout the human body, leading to a wide range of symptoms in patients. To better understand how SARS-CoV-2 affects the proteome from cells with different ontologies, this work generated an infectome atlas of 9 cell models, including cells from brain, blood, digestive system, and adipocyte tissue. Our data shows that SARS-CoV-2 infection mainly trigger dysregulations on proteins related to cellular structure and energy metabolism. Despite these pivotal processes, heterogeneity of infection was also observed, highlighting many proteins and pathways uniquely dysregulated in one cell type or ontological group. These data have been made searchable online via a tool that will permit future submissions of proteomic data ( https://reisdeoliveira.shinyapps.io/Infectome&#95;App/ ) to enrich and expand this knowledgebase., (© 2024. The Author(s).)

Published

2024

40. NMDA glutamate receptor antagonist MK-801 induces proteome changes in adult human brain slices which are partially counteracted by haloperidol and clozapine.

Author

de Almeida V, Mendes ND, Zuccoli GS, Reis-de-Oliveira G, Almeida GM, Podolsky-Gondim GG, Neder L, Martins-de-Souza D, and Sebollela A

Subjects

Animals, Humans, Haloperidol pharmacology, Excitatory Amino Acid Antagonists pharmacology, Dizocilpine Maleate pharmacology, Proteome metabolism, N-Methylaspartate, Glutamic Acid metabolism, Receptors, N-Methyl-D-Aspartate metabolism, Proteomics, Brain metabolism, Clozapine pharmacology, Antipsychotic Agents pharmacology

Abstract

Deciphering the molecular pathways associated with N-methyl-D-aspartate receptor (NMDAr) hypofunction and its interaction with antipsychotics is necessary to advance our understanding of the basis of schizophrenia, as well as our capacity to treat this disease. In this regard, the development of human brain-derived models that are amenable to studying the neurobiology of schizophrenia may contribute to filling the gaps left by the widely employed animal models. Here, we assessed the proteomic changes induced by the NMDA glutamate receptor antagonist MK-801 on human brain slice cultures obtained from adult donors submitted to respective neurosurgery. Initially, we demonstrated that MK-801 diminishes NMDA glutamate receptor signaling in human brain slices in culture. Next, using mass-spectrometry-based proteomics and systems biology in silico analyses, we found that MK-801 led to alterations in proteins related to several pathways previously associated with schizophrenia pathophysiology, including ephrin, opioid, melatonin, sirtuin signaling, interleukin 8, endocannabinoid, and synaptic vesicle cycle. We also evaluated the impact of both typical and atypical antipsychotics on MK-801-induced proteome changes. Interestingly, the atypical antipsychotic clozapine showed a more significant capacity to counteract the protein alterations induced by NMDAr hypofunction than haloperidol. Finally, using our dataset, we identified potential modulators of the MK-801-induced proteome changes, which may be considered promising targets to treat NMDAr hypofunction in schizophrenia. This dataset is publicly available and may be helpful in further studies aimed at evaluating the effects of MK-801 and antipsychotics in the human brain., (© 2024 International Society for Neurochemistry.)

Published

2024

41. Induced-pluripotent stem cells and neuroproteomics as tools for studying neurodegeneration.

Author

Brandão-Teles C, Zuccoli GS, de Moraes Vrechi TA, Ramos-da-Silva L, Santos AVS, Crunfli F, and Martins-de-Souza D

Subjects

Humans, Cellular Reprogramming, Induced Pluripotent Stem Cells metabolism, Induced Pluripotent Stem Cells pathology, Neurodegenerative Diseases metabolism

Abstract

The investigation of neurodegenerative diseases advanced significantly with the advent of cell-reprogramming technology, leading to the creation of new models of human illness. These models, derived from induced pluripotent stem cells (iPSCs), facilitate the study of sporadic as well as hereditary diseases and provide a comprehensive understanding of the molecular mechanisms involved with neurodegeneration. Through proteomics, a quantitative tool capable of identifying thousands of proteins from small sample volumes, researchers have attempted to identify disease mechanisms by detecting differentially expressed proteins and proteoforms in disease models, biofluids, and postmortem brain tissue. The integration of these two technologies allows for the identification of novel pathological targets within the realm of neurodegenerative diseases. Here, we highlight studies from the past 5 years on the contributions of iPSCs within neuroproteomic investigations, which uncover the molecular mechanisms behind these illnesses., (© 2024 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society.)

Published

2024

42. Depicting the molecular features of suicidal behavior: a review from an "omics" perspective.

Author

Pereira CA, Reis-de-Oliveira G, Pierone BC, Martins-de-Souza D, and Kaster MP

Subjects

Male, Humans, Proteomics, Risk Factors, Gene Expression Profiling, Suicidal Ideation, Mental Disorders

Abstract

Background Suicide is one of the leading global causes of death. Behavior patterns from suicide ideation to completion are complex, involving multiple risk factors. Advances in technologies and large-scale bioinformatic tools are changing how we approach biomedical problems. The "omics" field may provide new knowledge about suicidal behavior to improve identification of relevant biological pathways associated with suicidal behavior. Methods We reviewed transcriptomic, proteomic, and metabolomic studies conducted in blood and post-mortem brains from individuals who experienced suicide or suicidal behavior. Omics data were combined using systems biology in silico, aiming at identifying major biological mechanisms and key molecules associated with suicide. Results Post-mortem samples of suicide completers indicate major dysregulations in pathways associated with glial cells (astrocytes and microglia), neurotransmission (GABAergic and glutamatergic systems), neuroplasticity and cell survivor, immune responses and energy homeostasis. In the periphery, studies found alterations in molecules involved in immune responses, polyamines, lipid transport, energy homeostasis, and amino and nucleic acid metabolism. Limitations We included only exploratory, non-hypothesis-driven studies; most studies only included one brain region and whole tissue analysis, and focused on suicide completers who were white males with almost none confounding factors. Conclusions We can highlight the importance of synaptic function, especially the balance between the inhibitory and excitatory synapses, and mechanisms associated with neuroplasticity, common pathways associated with psychiatric disorders. However, some of the pathways highlighted in this review, such as transcriptional factors associated with RNA splicing, formation of cortical connections, and gliogenesis, point to mechanisms that still need to be explored., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

43. Gut microbiota from patients with COVID-19 cause alterations in mice that resemble post-COVID symptoms.

Author

Mendes de Almeida V, Engel DF, Ricci MF, Cruz CS, Lopes ÍS, Alves DA, d' Auriol M, Magalhães J, Machado EC, Rocha VM, Carvalho TG, Lacerda LSB, Pimenta JC, Aganetti M, Zuccoli GS, Smith BJ, Carregari VC, da Silva Rosa E, Galvão I, Dantas Cassali G, Garcia CC, Teixeira MM, André LC, Ribeiro FM, Martins FS, Saia RS, Costa VV, Martins-de-Souza D, Hansbro PM, Marques JT, Aguiar ERGR, and Vieira AT

Subjects

Animals, Mice, SARS-CoV-2, Anti-Bacterial Agents, Disease Progression, COVID-19, Gastrointestinal Microbiome

Abstract

Long-term sequelae of coronavirus disease (COVID)-19 are frequent and of major concern. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection affects the host gut microbiota, which is linked to disease severity in patients with COVID-19. Here, we report that the gut microbiota of post-COVID subjects had a remarkable predominance of Enterobacteriaceae strains with an antibiotic-resistant phenotype compared to healthy controls. Additionally, short-chain fatty acid (SCFA) levels were reduced in feces. Fecal transplantation from post-COVID subjects to germ-free mice led to lung inflammation and worse outcomes during pulmonary infection by multidrug-resistant Klebsiella pneumoniae . transplanted mice also exhibited poor cognitive performance. Overall, we show prolonged impacts of SARS-CoV-2 infection on the gut microbiota that persist after subjects have cleared the virus. Together, these data demonstrate that the gut microbiota can directly contribute to post-COVID sequelae, suggesting that it may be a potential therapeutic target.

Published

2023

44. Mitochondrial, cell cycle control and neuritogenesis alterations in an iPSC-based neurodevelopmental model for schizophrenia.

Author

Zuccoli GS, Nascimento JM, Moraes-Vieira PM, Rehen SK, and Martins-de-Souza D

Subjects

Adult, Humans, Cell Differentiation genetics, Reactive Oxygen Species metabolism, Proteomics, Cell Cycle Checkpoints, Mitochondria metabolism, Schizophrenia metabolism, Induced Pluripotent Stem Cells metabolism

Abstract

Schizophrenia is a severe psychiatric disorder of neurodevelopmental origin that affects around 1% of the world's population. Proteomic studies and other approaches have provided evidence of compromised cellular processes in the disorder, including mitochondrial function. Most of the studies so far have been conducted on postmortem brain tissue from patients, and therefore, do not allow the evaluation of the neurodevelopmental aspect of the disorder. To circumvent that, we studied the mitochondrial and nuclear proteomes of neural stem cells (NSCs) and neurons derived from induced pluripotent stem cells (iPSCs) from schizophrenia patients versus healthy controls to assess possible alterations related to energy metabolism and mitochondrial function during neurodevelopment in the disorder. Our results revealed differentially expressed proteins in pathways related to mitochondrial function, cell cycle control, DNA repair and neuritogenesis and their possible implication in key process of neurodevelopment, such as neuronal differentiation and axonal guidance signaling. Moreover, functional analysis of NSCs revealed alterations in mitochondrial oxygen consumption in schizophrenia-derived cells and a tendency of higher levels of intracellular reactive oxygen species (ROS). Hence, this study shows evidence that alterations in important cellular processes are present during neurodevelopment and could be involved with the establishment of schizophrenia, as well as the phenotypic traits observed in adult patients. Neural stem cells (NSCs) and neurons were derived from induced pluripotent stem cells (iPSCs) from schizophrenia patients and controls. Proteomic analyses were performed on the enriched mitochondrial and nuclear fractions of NSCs and neurons. Whole-cell proteomic analysis was also performed in neurons. Our results revealed alteration in proteins related to mitochondrial function, cell cycle control, among others. We also performed energy pathway analysis and reactive oxygen species (ROS) analysis of NSCs, which revealed alterations in mitochondrial oxygen consumption and a tendency of higher levels of intracellular ROS in schizophrenia-derived cells., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.)

Published

2023

45. SARS-CoV-2 uses CD4 to infect T helper lymphocytes.

Author

Brunetti NS, Davanzo GG, de Moraes D, Ferrari AJR, Souza GF, Muraro SP, Knittel TL, Boldrini VO, Monteiro LB, Virgílio-da-Silva JV, Profeta GS, Wassano NS, Nunes Santos L, Carregari VC, Dias AHS, Veras FP, Tavares LA, Forato J, Castro IMS, Silva-Costa LC, Palma AC, Mansour E, Ulaf RG, Bernardes AF, Nunes TA, Ribeiro LC, Agrela MV, Moretti ML, Buscaratti LI, Crunfli F, Ludwig RG, Gerhardt JA, Munhoz-Alves N, Marques AM, Sesti-Costa R, Amorim MR, Toledo-Teixeira DA, Parise PL, Martini MC, Bispos-Dos-Santos K, Simeoni CL, Granja F, Silvestrini VC, de Oliveira EB, Faca VM, Carvalho M, Castelucci BG, Pereira AB, Coimbra LD, Dias MMG, Rodrigues PB, Gomes ABSP, Pereira FB, Santos LMB, Bloyet LM, Stumpf S, Pontelli MC, Whelan S, Sposito AC, Carvalho RF, Vieira AS, Vinolo MAR, Damasio A, Velloso L, Figueira ACM, da Silva LLP, Cunha TM, Nakaya HI, Marques-Souza H, Marques RE, Martins-de-Souza D, Skaf MS, Proenca-Modena JL, Moraes-Vieira PMM, Mori MA, and Farias AS

Subjects

Humans, CD8-Positive T-Lymphocytes, T-Lymphocytes, Helper-Inducer, Lung, SARS-CoV-2, COVID-19

Abstract

The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the agent of a major global outbreak of respiratory tract disease known as Coronavirus Disease 2019 (COVID-19). SARS-CoV-2 infects mainly lungs and may cause several immune-related complications, such as lymphocytopenia and cytokine storm, which are associated with the severity of the disease and predict mortality. The mechanism by which SARS-CoV-2 infection may result in immune system dysfunction is still not fully understood. Here, we show that SARS-CoV-2 infects human CD4 + T helper cells, but not CD8 + T cells, and is present in blood and bronchoalveolar lavage T helper cells of severe COVID-19 patients. We demonstrated that SARS-CoV-2 spike glycoprotein (S) directly binds to the CD4 molecule, which in turn mediates the entry of SARS- CoV-2 in T helper cells. This leads to impaired CD4 T cell function and may cause cell death. SARS-CoV-2-infected T helper cells express higher levels of IL-10, which is associated with viral persistence and disease severity. Thus, CD4-mediated SARS-CoV-2 infection of T helper cells may contribute to a poor immune response in COVID-19 patients., Competing Interests: NB, GD, Dd, AF, GS, SM, TK, VB, LM, JV, GP, NW, LN, VC, AD, FV, LT, JF, IC, LS, AP, EM, RU, AB, TN, LR, MA, MM, LB, FC, RL, JG, NM, AM, RS, MA, DT, PP, MM, KB, CS, FG, VS, Ed, VF, MC, BC, AP, LC, MD, PR, AG, FP, LS, LB, SS, MP, SW, AS, RC, AV, MV, AD, LV, AF, Ld, TC, HN, HM, RM, DM, MS, JP, PM, MM, AF No competing interests declared, (© 2023, Brunetti, Davanzo, de Moraes et al.)

Published

2023

46. Exogenous succinate impacts mouse brown adipose tissue mitochondrial proteome and potentiates body mass reduction induced by liraglutide.

Author

Gaspar RS, Delafiori J, Zuccoli G, Carregari VC, Prado TP, Morari J, Sidarta-Oliveira D, Solon CS, Catharino RR, Araujo EP, Martins-de-Souza D, and Velloso LA

Subjects

Animals, Mice, Energy Metabolism, Obesity metabolism, Proteome metabolism, Succinic Acid pharmacology, Succinic Acid metabolism, Succinic Acid therapeutic use, Thermogenesis, Uncoupling Protein 1 metabolism, Adipose Tissue, Brown metabolism, Liraglutide pharmacology, Liraglutide therapeutic use

Abstract

Obesity is one of the leading noncommunicable diseases in the world. Despite intense efforts to develop strategies to prevent and treat obesity, its prevalence continues to rise worldwide. A recent study has shown that the tricarboxylic acid intermediate succinate increases body energy expenditure by promoting brown adipose tissue thermogenesis through the activation of uncoupling protein-1; this has generated interest surrounding its potential usefulness as an approach to treat obesity. It is currently unknown how succinate impacts brown adipose tissue protein expression, and how exogenous succinate impacts body mass reduction promoted by a drug approved to treat human obesity, the glucagon-like-1 receptor agonist, liraglutide. In the first part of this study, we used bottom-up shotgun proteomics to determine the acute impact of exogenous succinate on the brown adipose tissue. We show that succinate rapidly affects the expression of 177 brown adipose tissue proteins, which are mostly associated with mitochondrial structure and function. In the second part of this study, we performed a short-term preclinical pharmacological intervention, treating diet-induced obese mice with a combination of exogenous succinate and liraglutide. We show that the combination was more efficient than liraglutide alone in promoting body mass reduction, food energy efficiency reduction, food intake reduction, and an increase in body temperature. Using serum metabolomics analysis, we showed that succinate, but not liraglutide, promoted a significant increase in the blood levels of several medium and long-chain fatty acids. In conclusion, exogenous succinate promotes rapid changes in brown adipose tissue mitochondrial proteins, and when used in association with liraglutide, increases body mass reduction. NEW & NOTEWORTHY Exogenous succinate induces major changes in brown adipose tissue protein expression affecting particularly mitochondrial respiration and structural proteins. When given exogenously in drinking water, succinate mitigates body mass gain in a rodent model of diet-induced obesity; in addition, when given in association with the glucagon-like peptide-1 receptor agonist, liraglutide, succinate increases body mass reduction promoted by liraglutide alone.

Published

2023

47. Induced pluripotent stem cell-derived astrocytes from patients with schizophrenia exhibit an inflammatory phenotype that affects vascularization.

Author

Trindade P, Nascimento JM, Casas BS, Monteverde T, Gasparotto J, Ribeiro CT, Devalle S, Sauma D, Moreira JCF, Gelain DP, Porciuncula LO, Palma V, Martins-de-Souza D, and Rehen SK

Subjects

Humans, Astrocytes metabolism, Proteomics, Cytokines metabolism, Tumor Necrosis Factor-alpha metabolism, Tumor Necrosis Factor-alpha pharmacology, Phenotype, Induced Pluripotent Stem Cells metabolism, Schizophrenia metabolism

Abstract

Molecular and functional abnormalities of astrocytes have been implicated in the etiology and pathogenesis of schizophrenia (SCZ). In this study, we examined the proteome, inflammatory responses, and secretome effects on vascularization of human induced pluripotent stem cell (hiPSC)-derived astrocytes from patients with SCZ. Proteomic analysis revealed alterations in proteins related to immune function and vascularization. Reduced expression of the nuclear factor kappa B (NF-κB) p65 subunit was observed in these astrocytes, with no incremental secretion of cytokines after tumor necrosis factor alpha (TNF-α) stimulation. Among inflammatory cytokines, secretion of interleukin (IL)-8 was particularly elevated in SCZ-patient-derived-astrocyte-conditioned medium (A SCZ CM). In a chicken chorioallantoic membrane (CAM) assay, A SCZ CM reduced the diameter of newly grown vessels. This effect could be mimicked with exogenous addition of IL-8. Taken together, our results suggest that SCZ astrocytes are immunologically dysfunctional and may consequently affect vascularization through secreted factors., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

48. Proteomic signatures of schizophrenia-sourced iPSC-derived neural cells and brain organoids are similar to patients' postmortem brains.

Author

Nascimento JM, Saia-Cereda VM, Zuccoli GS, Reis-de-Oliveira G, Carregari VC, Smith BJ, Rehen SK, and Martins-de-Souza D

Abstract

Background: Schizophrenia is a complex and severe neuropsychiatric disorder, with a wide range of debilitating symptoms. Several aspects of its multifactorial complexity are still unknown, and some are accepted to be an early developmental deficiency with a more specifically neurodevelopmental origin. Understanding the timepoints of disturbances during neural cell differentiation processes could lead to an insight into the development of the disorder. In this context, human brain organoids and neural cells differentiated from patient-derived induced pluripotent stem cells are of great interest as a model to study the developmental origins of the disease., Results: Here we evaluated the differential expression of proteins of schizophrenia patient-derived neural progenitors (NPCs), early neurons, and brain organoids in comparison to healthy individuals. Using bottom-up shotgun proteomics with a label-free approach for quantitative analysis, we found multiple dysregulated proteins since NPCs, modified, and disrupted the 21DIV neuronal differentiation, and cerebral organoids. Our experimental methods have shown impairments in pathways never before found in patient-derived induced pluripotent stem cells studies, such as spliceosomes and amino acid metabolism; but also, those such as axonal guidance and synaptogenesis, in line with postmortem tissue studies of schizophrenia patients., Conclusion: In conclusion, here we provide comprehensive, large-scale, protein-level data of different neural cell models that may uncover early events in brain development, underlying several of the mechanisms within the origins of schizophrenia., (© 2022. The Author(s).)

Published

2022

49. Plasma proteomic signature of major depressive episode in the elderly.

Author

Silva-Costa LC, Smith BJ, Carregari VC, Souza GHMF, Vieira EM, Mendes-Silva AP, de Almeida V, Carvalho BS, Diniz BS, and Martins-de-Souza D

Subjects

Aged, Calcium Channels, Humans, Plasma, Proteins, Proteomics, Depressive Disorder, Major

Abstract

Depression is a complex and multifactorial disease, affecting about 6.5% of the elderly population in what is referred to as late-life depression (LLD). Despite its public health relevance, there is still limited information about the molecular mechanisms of LLD. We analyzed the blood plasma of 50 older adults, 19 with LLD and 31 controls, through untargeted mass spectrometry, and used systems biology tools to identify biochemical pathways and biological processes dysregulated in the disease. We found 96 differentially expressed proteins between LLD patients and control individuals. Using elastic-net regression, we generated a panel of 75 proteins that comprises a potential model for determining the molecular signature of LLD. We also showed that biological pathways related to vesicle-mediated transport and voltage-dependent calcium channels may be dysregulated in LLD. These data can help to build an understanding of the molecular basis of LLD, offering an integrated view of the biomolecular alterations that occur in this disorder. SIGNIFICANCE: Major depressive disorder in the elderly, called late-life depression (LLD), is a common and disabling disorder, with recent prevalence estimates of 6.5% in the general population. Despite the public health relevance, there is still limited information about the molecular mechanisms of LLD. The findings in this paper shed light on LLD heterogeneous biological mechanisms. We uncovered a potential novel biomolecular signature for LLD and biological pathways related to this condition which can be targets for the development of novel interventions for prevention, early diagnosis, and treatment of LLD., Competing Interests: Declaration of Competing Interest All authors have read the journal's policy on disclosure of potential conflicts of interest. All authors have disclosed any financial or personal relationship with organizations that could potentially be perceived as influencing the described research., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

50. Cannabinoids modulate proliferation, differentiation, and migration signaling pathways in oligodendrocytes.

Author

de Almeida V, Seabra G, Reis-de-Oliveira G, Zuccoli GS, Rumin P, Fioramonte M, Smith BJ, Zuardi AW, Hallak JEC, Campos AC, Crippa JA, and Martins-de-Souza D

Subjects

Carbohydrates, Cell Proliferation physiology, Endocannabinoids metabolism, Endocannabinoids pharmacology, Humans, Oligodendroglia metabolism, Proteome, Signal Transduction, Cannabidiol pharmacology, Cannabinoids pharmacology

Abstract

Cannabinoid signaling, mainly via CB1 and CB2 receptors, plays an essential role in oligodendrocyte health and functions. However, the specific molecular signals associated with the activation or blockade of CB1 and CB2 receptors in this glial cell have yet to be elucidated. Mass spectrometry-based shotgun proteomics and in silico biology tools were used to determine which signaling pathways and molecular mechanisms are triggered in a human oligodendrocytic cell line (MO3.13) by several pharmacological stimuli: the phytocannabinoid cannabidiol (CBD); CB1 and CB2 agonists ACEA, HU308, and WIN55, 212-2; CB1 and CB2 antagonists AM251 and AM630; and endocannabinoids anandamide (AEA) and 2-arachidonoylglycerol (2-AG). The modulation of cannabinoid signaling in MO3.13 was found to affect pathways linked to cell proliferation, migration, and differentiation of oligodendrocyte progenitor cells. Additionally, we found that carbohydrate and lipid metabolism, as well as mitochondrial function, were modulated by these compounds. Comparing the proteome changes and upstream regulators among treatments, the highest overlap was between the CB1 and CB2 antagonists, followed by overlaps between AEA and 2-AG. Our study opens new windows of opportunities, suggesting that cannabinoid signaling in oligodendrocytes might be relevant in the context of demyelinating and neurodegenerative diseases. Proteomics data are available at ProteomeXchange (PXD031923)., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.)

Published

2022