CNR NANO - Istituto Nanoscienze Consiglio Nazionale delle Ricerche

02.12.2021NANO COLLOQUIA S3 Avinash Vikatakavi

Date and Time: December 2, 2021 - 15.00 ONLINE

25.11.2021Producing electricity from heat losses: engineered in Pisa the first device capable of achieving it in a controlled manner

It is now possible to create a new generation of “smart” thermoelectric systems to generate clea...

23.11.2021il progetto RIMMEL @ MECSPE - Bologna 2021

Si svolgerà martedì 23 novembre, dalle 16.45 alle 17.45 (Sala Concerto c/o Centro Servizi – Bolo...

19.11.2021Graphene as a solid lubricant becomes super-slippery

Cnr Nano researchers in collaboration with Sussex University and Rice University studied the frictio...

17.11.2021International Workshop on Advanced Materials-to-Device Solutions for Synaptic Electronics

CNR Nano and ICN2 organized the

03.11.2021The RIMMEL Project @ l'Europa è qui 2021 – VOTE THE VIDEO ONLINE

The RIMMEL project enters the “Europe is here ...

11.10.2021Quantum computers become an experimental physics laboratory

A quantum computer is a machine designed to do calculations. Now a group of physicists from CnrNano,...

05.10.20212021 Nobel Prize for the discoveries on TRPV1 and PIEZO receptors

The seminal discoveries by this year’s Nobel Laureates have explained how heat, cold and touch can...

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		- 15.11.2018 - Nano Colloquia - Lucia Angella NEST seminar room @ 15.00 Speaker: Lucia Angella (NEST, NANO-CNR) Title: “Autophagy in Krabbe disease: a double-edged sword?” Abstract: Krabbe disease (KD) is a rare hereditary condition with no cure currently available. KD is due to the deficiency of a lysosomal enzyme called galactosyl-ceramidase (GALC), which causes the accumulation of a cytotoxic sphingolipid, psychosine (PSY). The early-infantile and most widespread form of this lysosomal storage disorder (LSD) is degenerative, rapidly progressive and lethal. As the name suggests, LSDs are characterized by the accumulation of undigested material. The main physiological tool own by the cell to get rid of waste material and to recycle cellular components is autophagy. However, while there is plenty of literature describing impaired autophagy features in most of LSDs, little is known about autophagy in KD. Hence, we tried to fill this gap investigating autophagy in the twitcher mouse, which is the most common animal model for KD. In particular, we studied some of the basic autophagy markers, such as LC3 and p62. Our data suggested an autophagic dysregulation. However, this information may be a blessing in disguise and autophagy could prove to be a double-edged sword. As a matter of fact, the idea that LSDs should be regarded as disorders of autophagy is becoming established and, interestingly, there is a vast number of autophagic modulators which can be tested as potential therapies. Autophagy, in fact, is physiologically finely regulated and modulators operate on different levels of the autophagic pathway. However, for the time being, we focused on lithium, an FDA-approved drug that has been used for decades as a mood-stabilizer in the treatment of bipolar disorder. In a recent publication, we increased autophagy by lithium administration in a KD cellular model and obtained an improvement in cell viability in presence of PSY. At present, we are testing lithium in vivo, administering it in drinking water. Info fabio.taddei@nano.cnr.it Link http://www.nano.cnr.it/?mod=men&id=277