Multielectrode Arrays As a Means to Study Exocytosis in Human Platelets

Overview

Journal Biosensors (Basel)

Specialty Biotechnology

Date 2023 Jan 21

PMID 36671921

Authors

Rosalia Gonzalez Brito

Pablo Montenegro

Alicia Mendez

Valentina Carabelli

Giulia Tomagra

Ramtin E Shabgahi

Alberto Pasquarelli

Ricardo Borges

Affiliations

Soon will be listed here.

Abstract

Platelets are probably the most accessible human cells to study exocytosis by amperometry. These cell fragments accumulate biological amines, serotonin in particular, using similar if not the same mechanisms as those employed by sympathetic, serotoninergic, and histaminergic neurons. Thus, platelets have been widely recognized as a model system to study certain neurological and psychiatric diseases. Platelets release serotonin by exocytosis, a process that entails the fusion of a secretory vesicle to the plasma membrane and that can be monitored directly by classic single cell amperometry using carbon fiber electrodes. However, this is a tedious technique because any given platelet releases only 4-8 secretory δ-granules. Here, we introduce and validate a diamond-based multielectrode array (MEA) device for the high-throughput study of exocytosis by human platelets. This is probably the first reported study of human tissue using an MEA, demonstrating that they are very interesting laboratory tools to assess alterations to exocytosis in neuropsychiatric diseases. Moreover, these devices constitute a valuable platform for the rapid testing of novel drugs that act on secretory pathways in human tissues.

Citing Articles

XMEA: A New Hybrid Diamond Multielectrode Array for the In Situ Assessment of the Radiation Dose Enhancement by Nanoparticles.

Nicolucci P, Gambaro G, Araujo Silva K, Souza Lima I, Baffa O, Pasquarelli A Sensors (Basel). 2024; 24(8).

PMID: 38676026 PMC: 11053603. DOI: 10.3390/s24082409.

Analytical Determination of Serotonin Exocytosis in Human Platelets with BDD-on-Quartz MEA Devices.

Gonzalez Brito R, Montenegro P, Mendez A, Shabgahi R, Pasquarelli A, Borges R Biosensors (Basel). 2024; 14(2).

PMID: 38391994 PMC: 10886747. DOI: 10.3390/bios14020075.

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