MSCA postdoctoral fellowship for Quentin Faucher (Utrecht University)

Quentin Faucher from Utrecht University was awarded an MSCA postdoctoral fellowship by the European Research Executive Agency (grant reference HORIZON-MSCA-2022-PF-01). The project is entitled ‘Deciphering the role of the blood-brain barrier in uremic toxins-induced neuropathies (BBB-UT)’.

Chronic kidney disease (CKD) is estimated to affect more than 840 million people worldwide constituting a major global health crisis. Clinically, the number of CKD patients will continue to rise mostly because of the ageing population and the increased prevalence of comorbidities such as diabetes and hypertension. In Europe, around 100,000 million people are affected by it. According to the gloomy predictions, Europe is at risk of a dismal increase of CKD patients as well as costs to healthcare systems. Patients with advanced CKD display a loss of kidney function leading to a blood accumulation of, a.o. protein-bound uremic toxins (PBUTs) that are poorly eliminated by renal replacement therapies. This systemic retention known as the uremic syndrome affects other organs. Indeed, neurologic complications such as blood-brain barrier (BBB) disruption have been reported in CKD patients. The BBB guarantees the exchange between the blood and the brain through a complex cellular organization and a diverse range of transport proteins mediates the movement of endo/exogenous compounds.

The hypothesis is that impairment of kidney tubular functionality in CKD causes an alteration of BBB integrity and function. This results in an aberrant BBB pass-through of PBUTs as well as impacts BBB vectorial transport capabilities. This fellowship aims to develop an appropriate multi-organs-on-chip device to accurately describe (i) the impact of PBUTs on BBB integrity and functionality, and (ii) the involvement of kidney-brain axis dysfunction in PBUTs-driven BBB disruption. A bioprinting-based microfluidic BBB-on-chip will be developed to accurately study BBB permeability, architecture, and transport function. This device will be connected to the established proximal tubule-on-chip to form a robust (kidney-brain) multi-organs-on-chip system. This project will pave the way toward the establishment of new and effective CKD therapies, and an expert system for pharmacology studies in the near future.

Partners:

Prof. dr. Roos Masereeuw (Utrecht University)
Prof. dr. Jos Malda (UMC Utrecht)
Prof. dr. Elizabeth De Lange (Leiden University)
Prof. dr. Elga De Vries (Amsterdam UMC)

Source: Utrecht University 

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