Your search keyword '"Solari FA"' showing total 25 results

1. A hierarchical network of Src, Syk, Btk and PKC controls GPVI-dependent human platelet activation

Author

Zhang, P, additional, Solari, FA, additional, Heemskerk, JWM, additional, Kuijpers, M, additional, Sickmann, A, additional, Walter, U, additional, and Jurk, K, additional

Published

2023

2. Acid sphingomyelinase deactivation post-ischemia/ reperfusion promotes cerebral angiogenesis and brain remodeling via small extracellular vesicles

Author

Mohamud Yusuf, A, primary, Hagemann, N, additional, Zhang, X, additional, Zafar, M, additional, Hussner, T, additional, Bromkamp, C, additional, Martiny, C, additional, Tertel, T, additional, Börger, V, additional, Schumacher, F, additional, Solari, FA, additional, Hasenberg, M, additional, Kleinschnitz, C, additional, Doeppner, TR, additional, Kleuser, B, additional, Sickmann, A, additional, Gunzer, M, additional, Giebel, B, additional, Kolesnick, R, additional, Gulbins, E, additional, and Hermann, DM, additional

Published

2021

3. Aspartate signalling drives lung metastasis via alternative translation.

Author

Doglioni G, Fernández-García J, Igelmann S, Altea-Manzano P, Blomme A, La Rovere R, Liu XZ, Liu Y, Tricot T, Nobis M, An N, Leclercq M, El Kharraz S, Karras P, Hsieh YH, Solari FA, Martins Nascentes Melo L, Allies G, Scopelliti A, Rossi M, Vermeire I, Broekaert D, Ferreira Campos AM, Neven P, Maetens M, Van Baelen K, Alkan HF, Planque M, Floris G, Sickmann A, Tasdogan A, Marine JC, Scheele CLGJ, Desmedt C, Bultynck G, Close P, and Fendt SM

Abstract

Lung metastases occur in up to 54% of patients with metastatic tumours 1,2 . Contributing factors to this high frequency include the physical properties of the pulmonary system and a less oxidative environment that may favour the survival of cancer cells 3 . Moreover, secreted factors from primary tumours alter immune cells and the extracellular matrix of the lung, creating a permissive pre-metastatic environment primed for the arriving cancer cells 4,5 . Nutrients are also primed during pre-metastatic niche formation 6 . Yet, whether and how nutrients available in organs in which tumours metastasize confer cancer cells with aggressive traits is mostly undefined. Here we found that pulmonary aspartate triggers a cellular signalling cascade in disseminated cancer cells, resulting in a translational programme that boosts aggressiveness of lung metastases. Specifically, we observe that patients and mice with breast cancer have high concentrations of aspartate in their lung interstitial fluid. This extracellular aspartate activates the ionotropic N-methyl-D-aspartate receptor in cancer cells, which promotes CREB-dependent expression of deoxyhypusine hydroxylase (DOHH). DOHH is essential for hypusination, a post-translational modification that is required for the activity of the non-classical translation initiation factor eIF5A. In turn, a translational programme with TGFβ signalling as a central hub promotes collagen synthesis in lung-disseminated breast cancer cells. We detected key proteins of this mechanism in lung metastases from patients with breast cancer. In summary, we found that aspartate, a classical biosynthesis metabolite, functions in the lung environment as an extracellular signalling molecule to promote aggressiveness of metastases., Competing Interests: Competing interests: S.-M.F. has received funding from BlackBelt Therapeutics, Auron Therapeutics, Gilead and Alesta Therapeutics, is on the advisory board of Alesta Therapeutics and has consulted for Fund+ and Droia Ventures. The other authors declare no competing interests., (© 2025. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2025

4. Suppressed ORAI1-STIM1-dependent Ca 2+ entry by protein kinase C isoforms regulating platelet procoagulant activity.

Author

Zou J, Zhang P, Solari FA, Schönichen C, Provenzale I, Mattheij NJA, Kuijpers MJE, Rauch JS, Swieringa F, Sickmann A, Zieger B, Jurk K, and Heemskerk JWM

Subjects

Humans, Animals, Mice, Calcium Channels metabolism, Calcium Channels genetics, Membrane Proteins metabolism, Membrane Proteins genetics, Blood Coagulation, Thapsigargin pharmacology, Calcium Signaling, Adaptor Proteins, Signal Transducing metabolism, Adaptor Proteins, Signal Transducing genetics, Isoenzymes metabolism, Isoenzymes genetics, Platelet Activation drug effects, Blood Platelets metabolism, Stromal Interaction Molecule 1 metabolism, Stromal Interaction Molecule 1 genetics, ORAI1 Protein metabolism, ORAI1 Protein genetics, Protein Kinase C metabolism, Protein Kinase C genetics, Calcium metabolism, Neoplasm Proteins metabolism, Neoplasm Proteins genetics, Platelet Membrane Glycoproteins metabolism

Abstract

Agonist-induced rises in cytosolic Ca 2+ control most platelet responses in thrombosis and hemostasis. In human platelets, we earlier demonstrated that the ORAI1-STIM1 pathway is a major component of extracellular Ca 2+ entry, in particular when induced via the ITAM-linked collagen receptor, glycoprotein VI (GPVI). In the present article, using functionally defective platelets from patients with a loss-of-function mutation in ORAI1 or STIM1, we show that Ca 2+ entry induced by the endoplasmic reticulum ATPase inhibitor, thapsigargin, fully relies on this pathway. We demonstrate that both the GPVI-induced and thapsigargin-induced Ca 2+ entry are strongly suppressed by protein kinase C (PKC) activation while leaving intracellular Ca 2+ mobilization unchanged. Comparing the effects of a PKC inhibitory panel pointed to redundant roles of beta and theta PKC isoforms in Ca 2+ -entry suppression. In contrast, tyrosine kinases positively regulated GPVI-induced Ca 2+ entry and mobilization. Label-free and stable isotope phosphoproteome analysis of GPVI-stimulated platelets suggested a regulatory role of bridging integrator-2 (BIN2), known as an important mediator of the ORAI1-STIM1 pathway in mouse platelets. Identified were 25 to 45 regulated phospho-sites in BIN2 and 16 to 18 in STIM1. Five of these were characterized as direct substrates of the expressed PKC isoforms alpha, beta delta, and theta. Functional platelet testing indicated that the downregulation of Ca 2+ entry by PKC resulted in suppressed phosphatidylserine exposure and plasmatic thrombin generation. Conclusively, our results indicate that in platelets multiple PKC isoforms constrain the store-regulated Ca 2+ entry via ORAI1-BIN2-STIM1, and hence downregulate platelet-dependent coagulation., Competing Interests: Conflicts of interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: JWMH is scientific advisor for Synapse Research Institute Maastricht. The other authors report no relevant conflicts of interest., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

5. Multi-phased Kinetics and Interaction of Protein Kinase Signaling in Glycoprotein VI-Induced Platelet αIIbβ3 Integrin Activation and Degranulation.

Author

Zhang P, von Ungern-Sternberg S, Hastenplug L, Solari FA, Sickmann A, Kuijpers MJE, Heemskerk JWM, Walter U, and Jurk K

Abstract

Background:  Platelet glycoprotein VI (GPVI) stimulation activates the tyrosine kinases Syk and Btk, and the effector proteins phospholipase Cγ 2 (PLCγ2) and protein kinase C (PKC). Here, the activation sequence, crosstalk, and downstream effects of this Syk-Btk-PKC signalosome in human platelets were analyzed., Methods and Results:  Using immunoblotting, we quantified 14 regulated phospho-sites in platelets stimulated by convulxin with and without inhibition of Syk, Btk, or PKC. Convulxin induced fast, reversible tyrosine phosphorylation (pY) of Syk, Btk, LAT, and PLCγ2, followed by reversible serine/threonine phosphorylation (pS/T) of Syk, Btk, and downstream kinases MEK1/2, Erk1/2, p38, and Akt. Syk inhibition by PRT-060318 abolished all phosphorylations, except Syk pY352. Btk inhibition by acalabrutinib strongly decreased Btk pY223/pS180, Syk pS297, PLCγ2 pY759/Y1217, MEK1/2 pS217/221, Erk1/2 pT202/Y204, p38 pT180/Y182, and Akt pT308/S473. PKC inhibition by GF109203X abolished most pS/T phosphorylations except p38 pT180/Y182 and Akt pT308, but enhanced most Y-phosphorylations. Acalabrutinib, but not GF109203X, suppressed convulxin-induced intracellular Ca 2+ mobilization, whereas all three protein kinase inhibitors abolished degranulation and αIIbβ3 integrin activation assessed by flow cytometry. Inhibition of autocrine ADP effects by AR-C669931 partly diminished convulxin-triggered degranulation., Conclusion:  Kinetic analysis of GPVI-initiated multisite protein phosphorylation in human platelets demonstrates multiple phases and interactions of tyrosine and serine/threonine kinases with activation-altering feedforward and feedback loops partly involving PKC. The protein kinase inhibitor effects on multisite protein phosphorylation and functional readouts reveal that the signaling network of Syk, Btk, and PKC controls platelet granule exocytosis and αIIbβ3 integrin activation., Competing Interests: J.W.M.H. is a scientific advisor for Synapse Research Institute. P.Z. was supported by the European Union's Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant agreement TICARDIO no. 813409. P.Z. was enrolled in a joint PhD project of the Universities of Maastricht (NL) and Mainz (DE). The other authors declare no relevant conflicts of interest., (The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/).)

Published

2024

6. Endothelium-mediated regulation of platelet activation: Involvement of multiple protein kinases.

Author

Provenzale I, Solari FA, Schönichen C, Brouns SLN, Fernández DI, Kuijpers MJE, van der Meijden PEJ, Gibbins JM, Sickmann A, Jones C, and Heemskerk JWM

Subjects

Humans, Protein Kinases metabolism, Nitric Oxide metabolism, Endothelial Cells metabolism, Platelet Activation physiology, Blood Platelets metabolism, Endothelium metabolism, Prostaglandins I, Platelet Membrane Glycoproteins metabolism, Thrombin metabolism

Abstract

The endothelial regulation of platelet activity is incompletely understood. Here we describe novel approaches to find molecular pathways implicated on the platelet-endothelium interaction. Using high-shear whole-blood microfluidics, employing coagulant or non-coagulant conditions at physiological temperature, we observed that the presence of human umbilical vein endothelial cells (HUVEC) strongly suppressed platelet adhesion and activation, via the collagen receptor glycoprotein VI (GPVI) and the PAR receptors for thrombin. Real-time monitoring of the cytosolic Ca 2+ rises in the platelets indicated no major improvement of inhibition by prostacyclin or nitric oxide. Similarly under stasis, exposure of isolated platelets to HUVEC reduced the Ca 2+ responses by collagen-related peptide (CRP-XL, GPVI agonist) and thrombin (PAR agonist). We then analyzed the label-free phosphoproteome of platelets (three donors), exposed to HUVEC, CRP-XL, and/or thrombin. High-resolution mass spectrometry gave 5463 phosphopeptides, corresponding to 1472 proteins, with good correlation between biological and technical replicates (R > .86). Stringent filtering steps revealed 26 regulatory pathways (Reactome) and 143 regulated kinase substrates (PhosphoSitePlus), giving a set of protein phosphorylation sites that was differentially (44) or similarly (110) regulated by HUVEC or agonist exposure. The differential regulation was confirmed by stable-isotope analysis of platelets from two additional donors. Substrate analysis indicated major roles of poorly studied protein kinase classes (MAPK, CDK, DYRK, STK, PKC members). Collectively, these results reveal a resetting of the protein phosphorylation profile in platelets exposed to endothelium or to conventional agonists and to endothelium-promoted activity of a multi-kinase network, beyond classical prostacyclin and nitric oxide actors, that may contribute to platelet inhibition., (© 2024 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)

Published

2024

7. Differential Regulation of GPVI-Induced Btk and Syk Activation by PKC, PKA and PP2A in Human Platelets.

Author

Zhang P, Solari FA, Heemskerk JWM, Kuijpers MJE, Sickmann A, Walter U, and Jurk K

Subjects

Humans, Agammaglobulinaemia Tyrosine Kinase metabolism, Blood Platelets metabolism, Phospholipase C gamma metabolism, Phosphorylation, Platelet Membrane Glycoproteins metabolism, Syk Kinase metabolism, Protein Kinase C metabolism, Protein Phosphatase 2 metabolism

Abstract

Bruton's tyrosine kinase (Btk) and spleen tyrosine kinase (Syk) are major signaling proteins in human platelets that are implicated in atherothrombosis and thrombo-inflammation, but the mechanisms controlling their activities are not well understood. Previously, we showed that Syk becomes phosphorylated at S297 in glycoprotein VI (GPVI)-stimulated human platelets, which limits Syk activation. Here, we tested the hypothesis that protein kinases C (PKC) and A (PKA) and protein phosphatase 2A (PP2A) jointly regulate GPVI-induced Btk activation in platelets. The GPVI agonist convulxin caused rapid, transient Btk phosphorylation at S180 (pS180↑), Y223 and Y551, while direct PKC activation strongly increased Btk pS180 and pY551. This increase in Btk pY551 was also Src family kinase (SFK)-dependent, but surprisingly Syk-independent, pointing to an alternative mechanism of Btk phosphorylation and activation. PKC inhibition abolished convulxin-stimulated Btk pS180 and Syk pS297, but markedly increased the tyrosine phosphorylation of Syk, Btk and effector phospholipase Cγ2 (PLCγ2). PKA activation increased convulxin-induced Btk activation at Y551 but strongly suppressed Btk pS180 and Syk pS297. PP2A inhibition by okadaic acid only increased Syk pS297. Both platelet aggregation and PLCγ2 phosphorylation with convulxin stimulation were Btk-dependent, as shown by the selective Btk inhibitor acalabrutinib. Together, these results revealed in GPVI-stimulated platelets a transient Syk, Btk and PLCγ2 phosphorylation at multiple sites, which are differentially regulated by PKC, PKA or PP2A. Our work thereby demonstrated the GPVI-Syk-Btk signalosome as a tightly controlled protein kinase network, in agreement with its role in atherothrombosis.

Published

2023

8. Multi-omics approaches to study platelet mechanisms.

Author

Solari FA, Krahn D, Swieringa F, Verhelst S, Rassaf T, Tasdogan A, Zahedi RP, Lorenz K, Renné T, Heemskerk JWM, and Sickmann A

Subjects

Humans, Proteomics, Multiomics, Platelet Activation, Blood Platelets metabolism, Blood Platelets pathology, Thrombosis metabolism, Thrombosis pathology

Abstract

Platelets are small anucleate cell fragments (2-4 μm in diameter) in the blood, which play an essential role in thrombosis and hemostasis. Genetic or acquired platelet dysfunctions are linked to bleeding, increased risk of thromboembolic events and cardiovascular diseases. Advanced proteomic approaches may pave the way to a better understanding of the roles of platelets in hemostasis, and pathophysiological processes such as inflammation, metastatic spread and thrombosis. Further insights into the molecular biology of platelets are crucial to aid drug development and identify diagnostic markers of platelet activation. Platelet activation is known to be an extremely rapid process and involves multiple post-translational mechanisms at sub second time scale, including proteolysis and phosphorylation. Multi-omics technologies and biochemical approaches can be exploited to precisely probe and define these posttranslational pathways. Notably, the absence of a nucleus in platelets significantly reduces the number of present proteins, simplifying mass spectrometry-based proteomics and metabolomics approaches., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

9. Acid sphingomyelinase deactivation post-ischemia promotes brain angiogenesis and remodeling by small extracellular vesicles.

Author

Mohamud Yusuf A, Hagemann N, Zhang X, Zafar M, Hussner T, Bromkamp C, Martiny C, Tertel T, Börger V, Schumacher F, Solari FA, Hasenberg M, Kleinschnitz C, Doeppner TR, Kleuser B, Sickmann A, Gunzer M, Giebel B, Kolesnick R, Gulbins E, and Hermann DM

Subjects

Animals, Antidepressive Agents metabolism, Antidepressive Agents pharmacology, Brain metabolism, Ceramides metabolism, Ceramides pharmacology, Desipramine metabolism, Desipramine pharmacology, Endothelial Cells metabolism, Fluoxetine metabolism, Fluoxetine pharmacology, Ischemia metabolism, Mice, Proteomics, Amitriptyline metabolism, Amitriptyline pharmacology, Extracellular Vesicles metabolism

Abstract

Antidepressants have been reported to enhance stroke recovery independent of the presence of depressive symptoms. They have recently been proposed to exert their mood-stabilizing actions by inhibition of acid sphingomyelinase (ASM), which catalyzes the hydrolysis of sphingomyelin to ceramide. Their restorative action post-ischemia/reperfusion (I/R) still had to be defined. Mice subjected to middle cerebral artery occlusion or cerebral microvascular endothelial cells exposed to oxygen-glucose deprivation were treated with vehicle or with the chemically and pharmacologically distinct antidepressants amitriptyline, fluoxetine or desipramine. Brain ASM activity significantly increased post-I/R, in line with elevated ceramide levels in microvessels. ASM inhibition by amitriptyline reduced ceramide levels, and increased microvascular length and branching point density in wildtype, but not sphingomyelinase phosphodiesterase-1 ([Smpd1] -/- ) (i.e., ASM-deficient) mice, as assessed by 3D light sheet microscopy. In cell culture, amitriptyline, fluoxetine, and desipramine increased endothelial tube formation, migration, VEGFR2 abundance and VEGF release. This effect was abolished by Smpd1 knockdown. Mechanistically, the promotion of angiogenesis by ASM inhibitors was mediated by small extracellular vesicles (sEVs) released from endothelial cells, which exhibited enhanced uptake in target cells. Proteomic analysis of sEVs revealed that ASM deactivation differentially regulated proteins implicated in protein export, focal adhesion, and extracellular matrix interaction. In vivo, the increased angiogenesis was accompanied by a profound brain remodeling response with increased blood-brain barrier integrity, reduced leukocyte infiltrates and increased neuronal survival. Antidepressive drugs potently boost angiogenesis in an ASM-dependent way. The release of sEVs by ASM inhibitors disclosed an elegant target, via which brain remodeling post-I/R can be amplified., (© 2022. The Author(s).)

Published

2022

10. Electronic cigarette liquids impair metabolic cooperation and alter proteomic profiles in V79 cells.

Author

Trifunovic S, Smiljanić K, Sickmann A, Solari FA, Kolarevic S, Divac Rankov A, and Ljujic M

Subjects

Nicotine pharmacology, Proteome, Proteomics, Electronic Nicotine Delivery Systems, Tobacco Products

Abstract

Background: Although still considered a safer alternative to classical cigarettes, growing body of work points to harmful effects of electronic cigarettes (e-cigarettes) affecting a range of cellular processes. The biological effect of e-cigarettes needs to be investigated in more detail considering their widespread use., Methods: In this study, we treated V79 lung fibroblasts with sub-cytotoxic concentration of e-cigarette liquids, with and without nicotine. Mutagenicity was evaluated by HPRT assay, genotoxicity by comet assay and the effect on cellular communication by metabolic cooperation assay. Additionally, comprehensive proteome analysis was performed via high resolution, parallel accumulation serial fragmentation-PASEF mass spectrometry., Results: E-cigarette liquid concentration used in this study showed no mutagenic or genotoxic effect, however it negatively impacted metabolic cooperation between V79 cells. Both e-cigarette liquids induced significant depletion in total number of proteins and impairment of mitochondrial function in treated cells. The focal adhesion proteins were upregulated, which is in accordance with the results of metabolic cooperation assay. Increased presence of posttranslational modifications (PTMs), including carbonylation and direct oxidative modifications, was observed. Data are available via ProteomeXchange with identifier PXD032071., Conclusions: Our study revealed impairment of metabolic cooperation as well as significant proteome and PTMs alterations in V79 cells treated with e-cigarette liquid warranting future studies on e-cigarettes health impact., (© 2022. The Author(s).)

Published

2022

11. Toward Zero Variance in Proteomics Sample Preparation: Positive-Pressure FASP in 96-Well Format (PF96) Enables Highly Reproducible, Time- and Cost-Efficient Analysis of Sample Cohorts.

Author

Loroch S, Kopczynski D, Schneider AC, Schumbrutzki C, Feldmann I, Panagiotidis E, Reinders Y, Sakson R, Solari FA, Vening A, Swieringa F, Heemskerk JWM, Grandoch M, Dandekar T, and Sickmann A

Subjects

Animals, Chromatography, Liquid methods, Humans, Mass Spectrometry methods, Mice, Reproducibility of Results, Peptides analysis, Proteomics methods

Abstract

As novel liquid chromatography-mass spectrometry (LC-MS) technologies for proteomics offer a substantial increase in LC-MS runs per day, robust and reproducible sample preparation emerges as a new bottleneck for throughput. We introduce a novel strategy for positive-pressure 96-well filter-aided sample preparation (PF96) on a commercial positive-pressure solid-phase extraction device. PF96 allows for a five-fold increase in throughput in conjunction with extraordinary reproducibility with Pearson product-moment correlations on the protein level of r = 0.9993, as demonstrated for mouse heart tissue lysate in 40 technical replicates. The targeted quantification of 16 peptides in the presence of stable-isotope-labeled reference peptides confirms that PF96 variance is barely assessable against technical variation from nanoLC-MS instrumentation. We further demonstrate that protein loads of 36-60 μg result in optimal peptide recovery, but lower amounts ≥3 μg can also be processed reproducibly. In summary, the reproducibility, simplicity, and economy of time provide PF96 a promising future in biomedical and clinical research.

Published

2022

12. Molecular Proteomics and Signalling of Human Platelets in Health and Disease.

Author

Huang J, Zhang P, Solari FA, Sickmann A, Garcia A, Jurk K, and Heemskerk JWM

Subjects

Blood Platelet Disorders blood, Blood Platelet Disorders pathology, Humans, Platelet Activation genetics, Protein Processing, Post-Translational genetics, Signal Transduction genetics, Blood Platelet Disorders genetics, Blood Platelets metabolism, Proteome genetics, Proteomics

Abstract

Platelets are small anucleate blood cells that play vital roles in haemostasis and thrombosis, besides other physiological and pathophysiological processes. These roles are tightly regulated by a complex network of signalling pathways. Mass spectrometry-based proteomic techniques are contributing not only to the identification and quantification of new platelet proteins, but also reveal post-translational modifications of these molecules, such as acetylation, glycosylation and phosphorylation. Moreover, target proteomic analysis of platelets can provide molecular biomarkers for genetic aberrations with established or non-established links to platelet dysfunctions. In this report, we review 67 reports regarding platelet proteomic analysis and signalling on a molecular base. Collectively, these provide detailed insight into the: (i) technical developments and limitations of the assessment of platelet (sub)proteomes; (ii) molecular protein changes upon ageing of platelets; (iii) complexity of platelet signalling pathways and functions in response to collagen, rhodocytin, thrombin, thromboxane A 2 and ADP; (iv) proteomic effects of endothelial-derived mediators such as prostacyclin and the anti-platelet drug aspirin; and (v) molecular protein changes in platelets from patients with congenital disorders or cardiovascular disease. However, sample sizes are still low and the roles of differentially expressed proteins are often unknown. Based on the practical and technical possibilities and limitations, we provide a perspective for further improvements of the platelet proteomic field.

Published

2021

13. Global kinome profiling reveals DYRK1A as critical activator of the human mitochondrial import machinery.

Author

Walter C, Marada A, Suhm T, Ernsberger R, Muders V, Kücükköse C, Sánchez-Martín P, Hu Z, Aich A, Loroch S, Solari FA, Poveda-Huertes D, Schwierzok A, Pommerening H, Matic S, Brix J, Sickmann A, Kraft C, Dengjel J, Dennerlein S, Brummer T, Vögtle FN, and Meisinger C

Subjects

Autism Spectrum Disorder genetics, Cytosol metabolism, Down Syndrome genetics, Down Syndrome metabolism, Humans, Microcephaly genetics, Microcephaly metabolism, Mitochondria genetics, Mitochondrial Membrane Transport Proteins genetics, Mitochondrial Precursor Protein Import Complex Proteins, Phosphorylation, Protein Serine-Threonine Kinases genetics, Protein-Tyrosine Kinases genetics, Dyrk Kinases, Autism Spectrum Disorder metabolism, Mitochondria metabolism, Mitochondrial Membrane Transport Proteins metabolism, Protein Serine-Threonine Kinases metabolism, Protein-Tyrosine Kinases metabolism

Abstract

The translocase of the outer mitochondrial membrane TOM constitutes the organellar entry gate for nearly all precursor proteins synthesized on cytosolic ribosomes. Thus, TOM presents the ideal target to adjust the mitochondrial proteome upon changing cellular demands. Here, we identify that the import receptor TOM70 is targeted by the kinase DYRK1A and that this modification plays a critical role in the activation of the carrier import pathway. Phosphorylation of TOM70 Ser91 by DYRK1A stimulates interaction of TOM70 with the core TOM translocase. This enables transfer of receptor-bound precursors to the translocation pore and initiates their import. Consequently, loss of TOM70 Ser91 phosphorylation results in a strong decrease in import capacity of metabolite carriers. Inhibition of DYRK1A impairs mitochondrial structure and function and elicits a protective transcriptional response to maintain a functional import machinery. The DYRK1A-TOM70 axis will enable insights into disease mechanisms caused by dysfunctional DYRK1A, including autism spectrum disorder, microcephaly and Down syndrome., (© 2021. The Author(s).)

Published

2021

14. Assessment of a complete and classified platelet proteome from genome-wide transcripts of human platelets and megakaryocytes covering platelet functions.

Author

Huang J, Swieringa F, Solari FA, Provenzale I, Grassi L, De Simone I, Baaten CCFMJ, Cavill R, Sickmann A, Frontini M, and Heemskerk JWM

Subjects

Humans, Molecular Sequence Annotation, Proteome classification, Proteome metabolism, Blood Platelets metabolism, Hematologic Diseases genetics, Megakaryocytes metabolism, Proteome genetics, Transcriptome

Abstract

Novel platelet and megakaryocyte transcriptome analysis allows prediction of the full or theoretical proteome of a representative human platelet. Here, we integrated the established platelet proteomes from six cohorts of healthy subjects, encompassing 5.2 k proteins, with two novel genome-wide transcriptomes (57.8 k mRNAs). For 14.8 k protein-coding transcripts, we assigned the proteins to 21 UniProt-based classes, based on their preferential intracellular localization and presumed function. This classified transcriptome-proteome profile of platelets revealed: (i) Absence of 37.2 k genome-wide transcripts. (ii) High quantitative similarity of platelet and megakaryocyte transcriptomes (R = 0.75) for 14.8 k protein-coding genes, but not for 3.8 k RNA genes or 1.9 k pseudogenes (R = 0.43-0.54), suggesting redistribution of mRNAs upon platelet shedding from megakaryocytes. (iii) Copy numbers of 3.5 k proteins that were restricted in size by the corresponding transcript levels (iv) Near complete coverage of identified proteins in the relevant transcriptome (log2fpkm > 0.20) except for plasma-derived secretory proteins, pointing to adhesion and uptake of such proteins. (v) Underrepresentation in the identified proteome of nuclear-related, membrane and signaling proteins, as well proteins with low-level transcripts. We then constructed a prediction model, based on protein function, transcript level and (peri)nuclear localization, and calculated the achievable proteome at ~ 10 k proteins. Model validation identified 1.0 k additional proteins in the predicted classes. Network and database analysis revealed the presence of 2.4 k proteins with a possible role in thrombosis and hemostasis, and 138 proteins linked to platelet-related disorders. This genome-wide platelet transcriptome and (non)identified proteome database thus provides a scaffold for discovering the roles of unknown platelet proteins in health and disease.

Published

2021

15. Mild hyperlipidemia in mice aggravates platelet responsiveness in thrombus formation and exploration of platelet proteome and lipidome.

Author

van Geffen JP, Swieringa F, van Kuijk K, Tullemans BME, Solari FA, Peng B, Clemetson KJ, Farndale RW, Dubois LJ, Sickmann A, Zahedi RP, Ahrends R, Biessen EAL, Sluimer JC, Heemskerk JWM, and Kuijpers MJE

Subjects

Animals, Cholesterol blood, Disease Models, Animal, Female, Gene Knockout Techniques, Hyperlipidemias blood, Hyperlipidemias genetics, Male, Mice, Platelet Activation, Thrombosis etiology, Apolipoproteins E genetics, Blood Platelets chemistry, Hyperlipidemias complications, Lipidomics methods, Proteomics methods, Receptors, LDL genetics, Thrombosis blood

Abstract

Hyperlipidemia is a well-established risk factor for cardiovascular diseases. Millions of people worldwide display mildly elevated levels of plasma lipids and cholesterol linked to diet and life-style. While the prothrombotic risk of severe hyperlipidemia has been established, the effects of moderate hyperlipidemia are less clear. Here, we studied platelet activation and arterial thrombus formation in Apoe -/- and Ldlr -/- mice fed a normal chow diet, resulting in mildly increased plasma cholesterol. In blood from both knockout mice, collagen-dependent thrombus and fibrin formation under flow were enhanced. These effects did not increase in severe hyperlipidemic blood from aged mice and upon feeding a high-fat diet (Apoe -/- mice). Bone marrow from wild-type or Ldlr -/- mice was transplanted into irradiated Ldlr -/- recipients. Markedly, thrombus formation was enhanced in blood from chimeric mice, suggesting that the hyperlipidemic environment altered the wild-type platelets, rather than the genetic modification. The platelet proteome revealed high similarity between the three genotypes, without clear indication for a common protein-based gain-of-function. The platelet lipidome revealed an altered lipid profile in mildly hyperlipidemic mice. In conclusion, in Apoe -/- and Ldlr -/- mice, modest elevation in plasma and platelet cholesterol increased platelet responsiveness in thrombus formation and ensuing fibrin formation, resulting in a prothrombotic phenotype.

Published

2020

16. Cyclin Y is expressed in Platelets and Modulates Integrin Outside-in Signaling.

Author

Kyselova A, Siragusa M, Anthes J, Solari FA, Loroch S, Zahedi RP, Walter U, Fleming I, and Randriamboavonjy V

Subjects

Adult, Animals, Cyclins metabolism, Female, Humans, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Middle Aged, Platelet Activation genetics, Platelet Adhesiveness genetics, Platelet Aggregation genetics, Signal Transduction genetics, Young Adult, Blood Platelets metabolism, Cyclins genetics, Integrins metabolism

Abstract

Diabetes is associated with platelet hyper-reactivity and enhanced risk of thrombosis development. Here we compared protein expression in platelets from healthy donors and diabetic patients to identify differentially expressed proteins and their possible function in platelet activation. Mass spectrometry analyses identified cyclin Y (CCNY) in platelets and its reduced expression in platelets from diabetic patients, a phenomenon that could be attributed to the increased activity of calpains. To determine the role of CCNY in platelets, mice globally lacking the protein were studied. CCNY -/- mice demonstrated lower numbers of circulating platelets but platelet responsiveness to thrombin and a thromboxane A 2 analogue were comparable with that of wild-type mice, as was agonist-induced α and dense granule secretion. CCNY-deficient platelets demonstrated enhanced adhesion to fibronectin and collagen as well as an attenuated spreading and clot retraction, indicating an alteration in "outside in" integrin signalling. This phenotype was accompanied by a significant reduction in the agonist-induced tyrosine phosphorylation of β3 integrin. Taken together we have shown that CCNY is present in anucleated platelets where it is involved in the regulation of integrin-mediated outside in signalling associated with thrombin stimulation.

Published

2020

17. Impaired iloprost-induced platelet inhibition and phosphoproteome changes in patients with confirmed pseudohypoparathyroidism type Ia, linked to genetic mutations in GNAS.

Author

Swieringa F, Solari FA, Pagel O, Beck F, Huang J, Feijge MAH, Jurk K, Körver-Keularts IMLW, Mattheij NJA, Faber J, Pohlenz J, Russo A, Stumpel CTRM, Schrander DE, Zieger B, van der Meijden PEJ, Zahedi RP, Sickmann A, and Heemskerk JWM

Subjects

Biomarkers metabolism, Blood Platelets drug effects, Cell Adhesion Molecules metabolism, Child, Chromogranins metabolism, Cyclic AMP-Dependent Protein Kinases metabolism, Drug Resistance genetics, Epigenesis, Genetic, Female, GTP-Binding Protein alpha Subunits, Gs metabolism, Humans, Iloprost therapeutic use, Male, Microfilament Proteins metabolism, Mutation, Phosphoproteins metabolism, Phosphorylation, Platelet Aggregation drug effects, Platelet Aggregation genetics, Proteome metabolism, Proteomics, Pseudohypoparathyroidism blood, Pseudohypoparathyroidism genetics, Vasodilator-Stimulated Phosphoprotein, Blood Platelets metabolism, Chromogranins genetics, GTP-Binding Protein alpha Subunits, Gs genetics, Iloprost pharmacology, Pseudohypoparathyroidism diagnosis

Abstract

Patients diagnosed with pseudohypoparathyroidism type Ia (PHP Ia) suffer from hormonal resistance and abnormal postural features, in a condition classified as Albright hereditary osteodystrophy (AHO) syndrome. This syndrome is linked to a maternally inherited mutation in the GNAS complex locus, encoding for the GTPase subunit Gsα. Here, we investigated how platelet phenotype and omics analysis can assist in the often difficult diagnosis. By coupling to the IP receptor, Gsα induces platelet inhibition via adenylyl cyclase and cAMP-dependent protein kinase A (PKA). In platelets from seven patients with suspected AHO, one of the largest cohorts examined, we studied the PKA-induced phenotypic changes. Five patients with a confirmed GNAS mutation, displayed impairments in Gsα-dependent VASP phosphorylation, aggregation, and microfluidic thrombus formation. Analysis of the platelet phosphoproteome revealed 2,516 phosphorylation sites, of which 453 were regulated by Gsα-PKA. Common changes in the patients were: (1) a joint panel of upregulated and downregulated phosphopeptides; (2) overall PKA dependency of the upregulated phosphopeptides; (3) links to key platelet function pathways. In one patient with GNAS mutation, diagnosed as non-AHO, the changes in platelet phosphoproteome were reversed. This combined approach thus revealed multiple phenotypic and molecular biomarkers to assist in the diagnosis of suspected PHP Ia.

Published

2020

18. Simple, scalable, and ultrasensitive tip-based identification of protease substrates.

Author

Shema G, Nguyen MTN, Solari FA, Loroch S, Venne AS, Kollipara L, Sickmann A, Verhelst SHL, and Zahedi RP

Subjects

Cell Line, Tumor, Chromatography methods, Humans, Mass Spectrometry methods, Apoptosis drug effects, Peptide Hydrolases metabolism, Proteomics methods, Staurosporine pharmacology

Abstract

Proteases are in the center of many diseases, and consequently, proteases and their substrates are important drug targets as represented by an estimated 5-10% of all drugs under development. Mass spectrometry has been an indispensable tool for the discovery of novel protease substrates, particularly through the proteome-scale enrichment of so-called N-terminal peptides representing endogenous protein N termini. Methods such as combined fractional diagonal chromatography (COFRADIC) 1 and, later, terminal amine isotopic labeling of substrates (TAILS) have revealed numerous insights into protease substrates and consensus motifs. We present an alternative and simple protocol for N-terminal peptide enrichment, based on charge-based fractional diagonal chromatography (ChaFRADIC) and requiring only well-established protein chemistry and a pipette tip. Using iTRAQ-8-plex, we quantified on average 2,073 ± 52 unique N-terminal peptides from only 4.3 μg per sample/channel, allowing the identification of proteolytic targets and consensus motifs. This high sensitivity may even allow working with clinical samples such as needle biopsies in the future. We applied our method to study the dynamics of staurosporine-induced apoptosis. Our data demonstrate an orchestrated regulation of specific pathways after 1.5 h, 3 h, and 6 h of treatment, with many important players of homeostasis targeted already after 1.5 h. We additionally observed an early multilevel modulation of the splicing machinery both by proteolysis and phosphorylation. This may reflect the known role of alternative splicing variants for a variety of apoptotic genes, which seems to be a driving force of staurosporine-induced apoptosis., (© 2018 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2018

19. Temporal quantitative phosphoproteomics of ADP stimulation reveals novel central nodes in platelet activation and inhibition.

Author

Beck F, Geiger J, Gambaryan S, Solari FA, Dell'Aica M, Loroch S, Mattheij NJ, Mindukshev I, Pötz O, Jurk K, Burkhart JM, Fufezan C, Heemskerk JW, Walter U, Zahedi RP, and Sickmann A

Subjects

Blood Platelets drug effects, Blotting, Western, Humans, Iloprost pharmacology, Phosphorylation, Platelet Activation drug effects, Platelet Aggregation Inhibitors pharmacology, Proteomics methods, Adenosine Diphosphate metabolism, Blood Platelets metabolism, Platelet Activation physiology, Signal Transduction physiology

Abstract

Adenosine diphosphate (ADP) enhances platelet activation by virtually any other stimulant to complete aggregation. It binds specifically to the G-protein-coupled membrane receptors P2Y1 and P2Y12, stimulating intracellular signaling cascades, leading to integrin αIIbβ3 activation, a process antagonized by endothelial prostacyclin. P2Y12 inhibitors are among the most successful antiplatelet drugs, however, show remarkable variability in efficacy. We reasoned whether a more detailed molecular understanding of ADP-induced protein phosphorylation could identify (1) critical hubs in platelet signaling toward aggregation and (2) novel molecular targets for antiplatelet treatment strategies. We applied quantitative temporal phosphoproteomics to study ADP-mediated signaling at unprecedented molecular resolution. Furthermore, to mimic the antagonistic efficacy of endothelial-derived prostacyclin, we determined how Iloprost reverses ADP-mediated signaling events. We provide temporal profiles of 4797 phosphopeptides, 608 of which showed significant regulation. Regulated proteins are implicated in well-known activating functions such as degranulation and cytoskeletal reorganization, but also in less well-understood pathways, involving ubiquitin ligases and GTPase exchange factors/GTPase-activating proteins (GEF/GAP). Our data demonstrate that ADP-triggered phosphorylation occurs predominantly within the first 10 seconds, with many short rather than sustained changes. For a set of phosphorylation sites (eg, PDE3A Ser312 , CALDAG-GEFI Ser587 , ENSA Ser109 ), we demonstrate an inverse regulation by ADP and Iloprost, suggesting that these are central modulators of platelet homeostasis. This study demonstrates an extensive spectrum of human platelet protein phosphorylation in response to ADP and Iloprost, which inversely overlap and represent major activating and inhibitory pathways., (© 2017 by The American Society of Hematology.)

Published

2017

20. Combined Quantification of the Global Proteome, Phosphoproteome, and Proteolytic Cleavage to Characterize Altered Platelet Functions in the Human Scott Syndrome.

Author

Solari FA, Mattheij NJ, Burkhart JM, Swieringa F, Collins PW, Cosemans JM, Sickmann A, Heemskerk JW, and Zahedi RP

Subjects

Blood Coagulation Disorders metabolism, Blood Platelets drug effects, Calcium metabolism, Crotalid Venoms pharmacology, Gene Expression Regulation, Humans, Ionomycin pharmacology, Lectins, C-Type, Phosphoproteins drug effects, Proteolysis, Signal Transduction, Thrombin pharmacology, Blood Coagulation Disorders blood, Blood Platelets physiology, Phosphoproteins analysis, Proteomics methods

Abstract

The Scott syndrome is a very rare and likely underdiagnosed bleeding disorder associated with mutations in the gene encoding anoctamin-6. Platelets from Scott patients are impaired in various Ca 2+ -dependent responses, including phosphatidylserine exposure, integrin closure, intracellular protein cleavage, and cytoskeleton-dependent morphological changes. Given the central role of anoctamin-6 in the platelet procoagulant response, we used quantitative proteomics to understand the underlying molecular mechanisms and the complex phenotypic changes in Scott platelets compared with control platelets. Therefore, we applied an iTRAQ-based multi-pronged strategy to quantify changes in (1) the global proteome, (2) the phosphoproteome, and (3) proteolytic events between resting and stimulated Scott and control platelets. Our data indicate a limited number of proteins with decreased (70) or increased (64) expression in Scott platelets, among those we confirmed the absence of anoctamin-6 and the strong up-regulation of aquaporin-1 by parallel reaction monitoring. The quantification of 1566 phosphopeptides revealed major differences between Scott and control platelets after stimulation with thrombin/convulxin or ionomycin. In Scott platelets, phosphorylation levels of proteins regulating cytoskeletal or signaling events were increased. Finally, we quantified 1596 N-terminal peptides in activated Scott and control platelets, 180 of which we identified as calpain-regulated, whereas a distinct set of 23 neo-N termini was caspase-regulated. In Scott platelets, calpain-induced cleavage of cytoskeleton-linked and signaling proteins was downregulated, in accordance with an increased phosphorylation state. Thus, multipronged proteomic profiling of Scott platelets provides detailed insight into their protection against detrimental Ca 2+ -dependent changes that are normally associated with phosphatidylserine exposure., Competing Interests: We declare no conflicts of interest., (© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2016

21. Simultaneous Metabolite, Protein, Lipid Extraction (SIMPLEX): A Combinatorial Multimolecular Omics Approach for Systems Biology.

Author

Coman C, Solari FA, Hentschel A, Sickmann A, Zahedi RP, and Ahrends R

Subjects

Animals, Cell Line, Gene Regulatory Networks, Mice, Reproducibility of Results, Workflow, Lipids isolation & purification, Metabolomics methods, Proteomics methods, Systems Biology methods

Abstract

Interconnected molecular networks are at the heart of signaling pathways that mediate adaptive plasticity of eukaryotic cells. To gain deeper insights into the underlying molecular mechanisms, a comprehensive and representative analysis demands a deep and parallel coverage of a broad spectrum of molecular species. Therefore, we introduce a simultaneous metabolite, protein, lipid extraction (SIMPLEX) procedure, a novel strategy for the quantitative investigation of lipids, metabolites, and proteins. Compared with unimolecular workflows, SIMPLEX offers a fundamental turn in study design since multiple molecular classes can be accessed in parallel from one sample with equal efficiency and reproducibility. Application of this method in mass-spectrometry-based workflows allowed the simultaneous quantification of 360 lipids, 75 metabolites, and 3327 proteins from 10(6)cells. The versatility of this method is shown in a model system for adipogenesis- peroxisomal proliferator-activated receptor gamma (PPARG) signaling in mesenchymal stem cells-where we utilized SIMPLEX to explore cross-talk within and between all three molecular classes and identified novel potential molecular entry points for interventions, indicating that SIMPLEX provides a superior strategy compared with conventional workflows., (© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2016

22. Two Birds with One Stone: Parallel Quantification of Proteome and Phosphoproteome Using iTRAQ.

Author

Solari FA, Kollipara L, Sickmann A, and Zahedi RP

Subjects

Animals, Cell Line, Chromatography, Liquid, Humans, Peptides metabolism, Phosphorylation, Tandem Mass Spectrometry, Phosphoproteins metabolism, Proteome, Proteomics methods

Abstract

Altered and abnormal levels of proteins and their phosphorylation states are associated with many disorders. Detection and quantification of such perturbations may provide a better understanding of pathological conditions and help finding candidates for treatment or biomarkers. Over the years, isobaric mass tags for relative quantification of proteins and protein phosphorylation by mass spectrometry have become increasingly popular. One of the most commonly used isobaric chemical tags is iTRAQ (isobaric tag for relative and absolute quantitation). In a typical iTRAQ-8plex experiment, a multiplexed sample amounts for up to 800 μg of peptides. Using state-of-the-art LC-MS approaches, only a fraction (~5 %) of such a sample is required to generate comprehensive quantitative data on the global proteome level, so that the bulk of the sample can be simultaneously used for quantitative phosphoproteomics. Here, we provide a simple and straightforward protocol to perform quantitative analyses of both proteome and phosphoproteome from the same sample using iTRAQ.

Published

2016

23. Biological pathways modulated by antipsychotics in the blood plasma of schizophrenia patients and their association to a clinical response.

Author

Martins-de-Souza D, Solari FA, Guest PC, Zahedi RP, and Steiner J

Abstract

Proteomics is a valuable tool to unravel molecular mechanisms involved in human disorders. Considering the mediocre effectiveness of antipsychotics, which are the main class of drug used to treat schizophrenia, we analyzed a cohort of 58 schizophrenia patients who had blood collected before and after 6 weeks of antipsychotic treatment using a shotgun mass spectrometry proteomic profiling approach. Our aim was to unravel molecular pathways involved with an effective drug response. The results showed that all patients had essentially the same biochemical pathways triggered Independent of the antipsychotic response outcome. However, we observed that these pathways were regulated in different directions in blood samples from those who responded well to antipsychotics, compared with those who had a poorer outcome. These data are novel, timely and may help to guide new research efforts in the design of new treatments or medications for schizophrenia based on biologically relevant pathways.

Published

2015

24. An improved workflow for quantitative N-terminal charge-based fractional diagonal chromatography (ChaFRADIC) to study proteolytic events in Arabidopsis thaliana.

Author

Venne AS, Solari FA, Faden F, Paretti T, Dissmeyer N, and Zahedi RP

Subjects

Amino Acid Sequence, Arabidopsis chemistry, Arabidopsis Proteins chemistry, Chromatography, Liquid methods, Methionine analysis, Methionine metabolism, Peptides chemistry, Peptides metabolism, Proteomics methods, Workflow, Arabidopsis metabolism, Arabidopsis Proteins metabolism, Proteolysis

Abstract

We applied an extended charge-based fractional diagonal chromatography (ChaFRADIC) workflow to analyze the N-terminal proteome of Arabidopsis thaliana seedlings. Using iTRAQ protein labeling and a multi-enzyme digestion approach including trypsin, GluC, and subtilisin, a total of 200 μg per enzyme, and measuring only one third of each ChaFRADIC-enriched fraction by LC-MS, we quantified a total of 2791 unique N-terminal peptides corresponding to 2249 different unique N-termini from 1270 Arabidopsis proteins. Our data indicate the power, reproducibility, and sensitivity of the applied strategy that might be applicable to quantify proteolytic events from as little as 20 μg of protein per condition across up to eight different samples. Furthermore, our data clearly reflect the methionine excision dogma as well as the N-end rule degradation pathway (NERP) discriminating into a stabilizing or destabilizing function of N-terminal amino acid residues. We found bona fide NERP destabilizing residues underrepresented, and the list of neo N-termini from wild type samples may represent a helpful resource during the evaluation of NERP substrate candidates. All MS data have been deposited in the ProteomeXchange with identifier PXD001855 (http://proteomecentral.proteomexchange.org/dataset/PXD001855)., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

25. Why phosphoproteomics is still a challenge.

Author

Solari FA, Dell'Aica M, Sickmann A, and Zahedi RP

Subjects

Biomedical Research, Humans, Phosphoamino Acids analysis, Phosphoamino Acids chemistry, Phosphopeptides analysis, Phosphopeptides chemistry, Phosphoproteins analysis, Phosphoproteins chemistry, Proteomics

Abstract

Despite continuous improvements phosphoproteomics still faces challenges that are often neglected, e.g. partially poor recovery of phosphopeptide enrichment, assessment of phosphorylation stoichiometry, label-free quantification, poor behavior during chromatography, and general limitations of peptide-centric proteomics. Here we critically discuss current limitations that need consideration in both qualitative and quantitative studies.

Published

2015