Claudia Verderio combines Cell biology and Genetics in her research. Genetics and Cell biology are two areas of study in which she engages in interdisciplinary research. Her multidisciplinary approach integrates Biochemistry and Cell in her work. By researching both Cell and Gene, Claudia Verderio produces research that crosses academic boundaries. She merges Gene with Biogenesis in her research. The study of Neuroscience is intertwined with the study of Inhibitory postsynaptic potential in a number of ways. Her Immunology study frequently links to adjacent areas such as Apyrase. Her research brings together the fields of Immunology and Apyrase. Claudia Verderio frequently studies issues relating to Internal medicine and Receptor.
Her research on Neuroscience frequently links to adjacent areas such as Hippocampal formation. Claudia Verderio undertakes interdisciplinary study in the fields of Biochemistry and Organic chemistry through her research. In her works, she undertakes multidisciplinary study on Organic chemistry and Biochemistry. Her research is interdisciplinary, bridging the disciplines of Intracellular and Cell biology. Receptor connects with themes related to Neurotransmission in her study. Her research ties Receptor and Neurotransmission together. Her research on Immunology frequently links to adjacent areas such as Microglia. Her Microglia study frequently links to other fields, such as Immunology. In her articles, Claudia Verderio combines various disciplines, including Inflammation and Extracellular.
Claudia Verderio regularly ties together related areas like Stimulation in her Neuroscience studies. Her Stimulation study frequently draws connections to other fields, such as Neuroscience. Borrowing concepts from Downregulation and upregulation, Claudia Verderio weaves in ideas under Inflammation. In her works, Claudia Verderio conducts interdisciplinary research on Downregulation and upregulation and Inflammation. As part of her studies on Immunology, Claudia Verderio often connects relevant areas like Inflammasome. In her works, she undertakes multidisciplinary study on Inflammasome and Innate immune system. She merges many fields, such as Innate immune system and Proinflammatory cytokine, in her writings. While working on this project, Claudia Verderio studies both Proinflammatory cytokine and Chemokine. Claudia Verderio conducts interdisciplinary study in the fields of Chemokine and CXCL10 through her works.
While working in this field, Claudia Verderio studies both Inflammation and Tumor necrosis factor alpha. She connects Tumor necrosis factor alpha with Immune system in her study. She undertakes multidisciplinary studies into Immune system and Inflammation in her work. Claudia Verderio combines Myelin and Remyelination in her research. She merges many fields, such as Remyelination and Central nervous system, in her writings. She combines Central nervous system and Neuroinflammation in her research. In her works, Claudia Verderio undertakes multidisciplinary study on Neuroinflammation and Microglia. Microglia is often connected to Immunology in her work. Her Multiple sclerosis research extends to the thematically linked field of Immunology.
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Acid sphingomyelinase activity triggers microparticle release from glial cells.
Fabio Bianco;Cristiana Perrotta;Luisa Novellino;Maura Francolini.
The EMBO Journal (2009)
Storage and Release of ATP from Astrocytes in Culture
Silvia Coco;Federico Calegari;Elena Pravettoni;Davide Pozzi.
Journal of Biological Chemistry (2003)
Astrocyte-Derived ATP Induces Vesicle Shedding and IL-1β Release from Microglia
Fabio Bianco;Elena Pravettoni;Alessio Colombo;Ursula Schenk.
Journal of Immunology (2005)
The orphan receptor GPR17 identified as a new dual uracil nucleotides/cysteinyl-leukotrienes receptor
Paolo Ciana;Marta Fumagalli;Maria Letizia Trincavelli;Claudia Verderio.
The EMBO Journal (2006)
Purinergic Control of T Cell Activation by ATP Released Through Pannexin-1 Hemichannels
Ursula Schenk;Astrid M. Westendorf;Enrico Radaelli;Anna Casati.
Science Signaling (2008)
Vesicular transmitter release from astrocytes.
Vedrana Montana;Erik B. Malarkey;Claudia Verderio;Michela Matteoli.
Nucleotide‐mediated calcium signaling in rat cortical astrocytes: Role of P2X and P2Y receptors
Marta Fumagalli;Roberta Brambilla;Nadia D'Ambrosi;Cinzia Volonté.
Myeloid microvesicles are a marker and therapeutic target for neuroinflammation
Claudia Verderio;Luca Muzio;Elena Turola;Alessandra Bergami.
Annals of Neurology (2012)
ATP Mediates Calcium Signaling Between Astrocytes and Microglial Cells: Modulation by IFN-γ
Claudia Verderio;Michela Matteoli.
Journal of Immunology (2001)
The recently identified P2Y-like receptor GPR17 is a sensor of brain damage and a new target for brain repair.
Davide Lecca;Maria Letizia Trincavelli;Paolo Gelosa;Luigi Sironi.
PLOS ONE (2008)
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