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Dr Andrew Tosolini
Dr

Andrew Tosolini

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Overview

Background

​Dr Tosolini is a cell biologist with a focus at the intersection of axonal transport, neurotrophic factors, motor neurons and skeletal muscle, in the context of motor neuron disease (MND)/amyotrophic lateral sclerosis (ALS). His research to date has focused on utilising the connectivity between skeletal muscle and motor neurons for the enhanced delivery of therapeutic agents to the spinal cord (e.g., viral-mediated gene therapy). Building upon these foundations, his postdoctoral training focused on defining the axonal transport dynamics in a number of different experimental conditions, including stimulation with different neurotrophic factors (e.g., BDNF, GDNF), α motor neuron subtypes (i.e., fast motor neurons vs slow motor neurons), and alterations to such factors in MND/ALS pathology.

Dr Tosolini has joined the laboratories of A/Prof. Shyuan Ngo (AIBN) and Dr. Derek Steyn (SBMS) to undertake a novel project looking at assessing a novel therapeutic compound in mouse models of ALS, and in as well as in ALS patient-derived muscle cultures. This project is in collaboration with Dr. Giovanni Nardo at Laboratory of Molecular Neurobiology, Department of Neuroscience, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Milan, Italy.

​Dr Tosolini completed his PhD in 2015 in the discipline of Anatomy at the School of Medical Sciences, University of New South Wales (UNSW). His PhD project focused on characterising the connectivity between various skeletal muscles and their innervating motor neuron pools, to optimally deliver agents (e.g., retrograde tracers, virus) to the spinal cord motor neurons via retrograde axonal transport. For the work produced in his PhD, Dr Tosolini was awarded a place on the Faculty of Medicine's Dean's List.

In 2016, Dr Tosolini joined the Schiavo Laboratory at University College London (UCL), UK as a Post-Doctoral Research Associate to undertake a project focused on: 1) understanding factors influencing axonal transport dynamics in distinct in vitro and in vivo models of motor neuron disease (MND)/amyotrophic lateral sclerosis (ALS), and 2) revealing the signalling elements governing neuronal trans-synaptic transfer.

In 2020, Dr Tosolini was awarded a Junior Non-Clinical Post-Doctoral Fellowship by the Motor Neuron Disease Association, UK to expand his work on evaluating axonal transport dynamics in mouse models of motor neuron disease (MND) as well as in diverse human induced pluripotent stem cell (hiPSC)-derived motor neurons. This project is a direct continuation of my post-doctoral training in the Schiavo laboratory, and included a novel collaboration with Prof. Rickie Patani (Francis Crick Institute, London, UK), to evaluate axonal transport dynamics of diverse organelles in mouse and human models of MND/ALS.

Availability

Dr Andrew Tosolini is:
Available for supervision

Qualifications

  • Bachelor (Honours), University of New South Wales
  • Doctor of Philosophy, University of New South Wales

Works

Search Professor Andrew Tosolini’s works on UQ eSpace

37 works between 2011 and 2024

1 - 20 of 37 works

Featured

2024

Journal Article

The node of Ranvier influences the in vivo axonal transport of mitochondria and signalling endosomes

Tosolini, Andrew P., Abatecola, Federico, Negro, Samuele, Sleigh, James N. and Schiavo, Giampietro (2024). The node of Ranvier influences the in vivo axonal transport of mitochondria and signalling endosomes. iScience 111158. doi: 10.1016/j.isci.2024.111158

The node of Ranvier influences the in vivo axonal transport of mitochondria and signalling endosomes

Featured

2022

Journal Article

BDNF-dependent modulation of axonal transport is selectively impaired in ALS

Tosolini, Andrew P., Sleigh, James N., Surana, Sunaina, Rhymes, Elena R., Cahalan, Stephen D. and Schiavo, Giampietro (2022). BDNF-dependent modulation of axonal transport is selectively impaired in ALS. Acta Neuropathologica Communications, 10 (1) 121, 1-17. doi: 10.1186/s40478-022-01418-4

BDNF-dependent modulation of axonal transport is selectively impaired in ALS

Featured

2021

Journal Article

Expanding the toolkit for in vivo imaging of axonal transport

Tosolini, Andrew P., Villarroel-Campos, David, Schiavo, Giampietro and Sleigh, James N. (2021). Expanding the toolkit for in vivo imaging of axonal transport. Journal of Visualized Experiments, 2021 (178) e63471. doi: 10.3791/63471

Expanding the toolkit for in vivo imaging of axonal transport

2024

Conference Publication

In vivo axonal transport of mitochondria and signalling endosomes at the node of Ranvier

Tosolini, Andrew P., Abatecola, Federico, Negro, Samuele, Sleigh, James N. and Schiavo, Giampietro (2024). In vivo axonal transport of mitochondria and signalling endosomes at the node of Ranvier. 3rd Australian and New Zealand MND Research Symposium, Melbourne, VIC, Australia, 27 - 28 August 2024.

In vivo axonal transport of mitochondria and signalling endosomes at the node of Ranvier

2024

Journal Article

The node of Ranvier influences the in vivo axonal transport of mitochondria and signalling endosomes

Tosolini, Andrew Paul, Abatecola, Federico, Negro, Samuele, Sleigh, James Nicholas and Schiavo, Giampietro (2024). The node of Ranvier influences the in vivo axonal transport of mitochondria and signalling endosomes.

The node of Ranvier influences the in vivo axonal transport of mitochondria and signalling endosomes

2024

Conference Publication

In vivo axonal transport of mitochondria and signalling endosomes at the node of Ranvier

Tosolini, Andrew P., Abatecola, Federico, Negro, Samuele, Sleigh, James N. and Schiavo, Giampietro (2024). In vivo axonal transport of mitochondria and signalling endosomes at the node of Ranvier. 14th Queensland Cell and Developmental Biology Meeting, Brisbane, QLD, Australia, 3 June 2024.

In vivo axonal transport of mitochondria and signalling endosomes at the node of Ranvier

2023

Conference Publication

BDNF-dependent modulation of axonal transport is selectively impaired in Motor Neuron Disease

Tosolini, Andrew P., Sleigh, James N., Surana, Sunaina, Rhymes, Elena R., Cahalan, Stephen D. and Schiavo, Giampietro (2023). BDNF-dependent modulation of axonal transport is selectively impaired in Motor Neuron Disease. Australasian Neuroscience Society - 41st Annual Scientific Meeting, Brisbane, Australia, 4-7 December 2023.

BDNF-dependent modulation of axonal transport is selectively impaired in Motor Neuron Disease

2023

Conference Publication

In vivo axonal transport of diverse organelles in ALS

Tosolini, Andrew P., Birsa, Nicol, Cunningham, Tom, Fisher, Elizabeth, Fratta, Pietro and Schiavo, Giampietro (2023). In vivo axonal transport of diverse organelles in ALS. CAMAND Conference - Cellular and Molecular Advances in Neurodegeneration, Brisbane, Australia, 3-4 December 2023.

In vivo axonal transport of diverse organelles in ALS

2023

Conference Publication

In vivo axonal transport of diverse organelles in MND

Tosolini, Andrew P., Sleigh, James N., Surana, Sunaina, Rhymes, Elena R., Birsa, Nicol, Cunningham, Tom, Fisher, Elizabeth M.C., Fratta, Pietro and Schiavo, Giampietro (2023). In vivo axonal transport of diverse organelles in MND. 4th Annual Griffith University Parkinson's Disease Network Symposium, Brisbane, QLD, Australia, 30 November 2023.

In vivo axonal transport of diverse organelles in MND

2023

Journal Article

BDNF controls phosphorylation and transcriptional networks governing cytoskeleton organization and axonal regeneration

Vargas, J. N. S, Brown, A. L., Sun, K., Hagemann, C., Geary, B., Villarroel-Campos, D., Bryce-Smith, S., Zanovello, M., Lombardo, M., Ryandov, E., Stepic, A., Meysman, L., Majewski, S., Tosolini, A. P., Secrier, M., Keuss, M. J., Serio, A., Sleigh, J. N., Fratta, P. and Schiavo, G. (2023). BDNF controls phosphorylation and transcriptional networks governing cytoskeleton organization and axonal regeneration.

BDNF controls phosphorylation and transcriptional networks governing cytoskeleton organization and axonal regeneration

2023

Journal Article

Gene therapy for the central and peripheral nervous system: volume II

Tosolini, Andrew P. and Smith, George M. (2023). Gene therapy for the central and peripheral nervous system: volume II. Frontiers in Molecular Neuroscience, 16 1258458, 01-03. doi: 10.3389/fnmol.2023.1258458

Gene therapy for the central and peripheral nervous system: volume II

2023

Journal Article

Boosting peripheral BDNF rescues impaired in vivo axonal transport in CMT2D mice

Sleigh, James N., Villarroel-Campos, David, Surana, Sunaina, Wickenden, Tahmina, Tong, Yao, Simkin, Rebecca L., Vargas, Jose Norberto S., Rhymes, Elena R., Tosolini, Andrew P., West, Steven J., Zhang, Qian, Yang, Xiang-Lei and Schiavo, Giampietro (2023). Boosting peripheral BDNF rescues impaired in vivo axonal transport in CMT2D mice. JCI Insight, 8 (9) e157191. doi: 10.1172/jci.insight.157191

Boosting peripheral BDNF rescues impaired in vivo axonal transport in CMT2D mice

2023

Conference Publication

Axonal transport in MND

Tosolini, Andrew P. (2023). Axonal transport in MND. Australian and New Zealand MND Research Symposium, Wollongong, NSW, Australia, 17-18 November 2023.

Axonal transport in MND

2023

Conference Publication

In vivo axonal transport of diverse organelles in MND

Tosolini, Andrew P., Sleigh, James N., Surana, Sunaina, Rhymes, Elena R., Birsa, Nicol, Cunningham, Tom, Fisher, Elizabeth, Schiavo, Giampietro and Fratta, Pietro (2023). In vivo axonal transport of diverse organelles in MND. Australia and New Zealand MND Research Symposium, Wollongong, NSW, Australia, 17-18 November 2023.

In vivo axonal transport of diverse organelles in MND

2022

Journal Article

Hydrogen peroxide induced by nerve injury promotes axon regeneration via connective tissue growth factor

Negro, Samuele, Lauria, Fabio, Stazi, Marco, Tebaldi, Toma, D’Este, Giorgia, Pirazzini, Marco, Megighian, Aram, Lessi, Francesca, Mazzanti, Chiara M., Sales, Gabriele, Romualdi, Chiara, Fillo, Silvia, Lista, Florigio, Sleigh, James N., Tosolini, Andrew P., Schiavo, Giampietro, Viero, Gabriella and Rigoni, Michela (2022). Hydrogen peroxide induced by nerve injury promotes axon regeneration via connective tissue growth factor. Acta Neuropathologica Communications, 10 (1) 189, 1-22. doi: 10.1186/s40478-022-01495-5

Hydrogen peroxide induced by nerve injury promotes axon regeneration via connective tissue growth factor

2022

Journal Article

Bimodal regulation of axonal transport by the GDNF-RET signalling axis in healthy and diseased motor neurons

Rhymes, Elena R., Tosolini, Andrew P., Fellows, Alexander D., Mahy, William, McDonald, Neil Q. and Schiavo, Giampietro (2022). Bimodal regulation of axonal transport by the GDNF-RET signalling axis in healthy and diseased motor neurons. Cell Death and Disease, 13 (7) 584, 1-11. doi: 10.1038/s41419-022-05031-0

Bimodal regulation of axonal transport by the GDNF-RET signalling axis in healthy and diseased motor neurons

2021

Journal Article

Editorial: Dysfunction and Repair of Neural Circuits for Motor Control

Tosolini, Andrew Paul, Mentis, George Z. and Martin, John H. (2021). Editorial: Dysfunction and Repair of Neural Circuits for Motor Control. Frontiers in Molecular Neuroscience, 14 669824. doi: 10.3389/fnmol.2021.669824

Editorial: Dysfunction and Repair of Neural Circuits for Motor Control

2021

Conference Publication

Molecular mechanisms of interneuronal transfer of pathogenic molecules

Panzi, Chiara, Restani, Laura, Tosolini, Andrew, Massa, Verediana, Caleo, Matteo and Schiavo, Giampietro (2021). Molecular mechanisms of interneuronal transfer of pathogenic molecules. TOXINS 2021 Virtual Conference, Online, 16-17 January 2021. Oxford, United Kingdom: Elsevier. doi: 10.1016/j.toxicon.2020.11.458

Molecular mechanisms of interneuronal transfer of pathogenic molecules

2020

Journal Article

Intramuscular delivery of gene therapy for targeting the nervous system

Tosolini, Andrew P. and Sleigh, James N. (2020). Intramuscular delivery of gene therapy for targeting the nervous system. Frontiers in Molecular Neuroscience, 13 129. doi: 10.3389/fnmol.2020.00129

Intramuscular delivery of gene therapy for targeting the nervous system

2020

Journal Article

Mice carrying ALS mutant TDP-43, but not mutant FUS, display in vivo defects in axonal transport of signaling endosomes

Sleigh, James N., Tosolini, Andrew P., Gordon, David, Devoy, Anny, Fratta, Pietro, Fisher, Elizabeth M.C., Talbot, Kevin and Schiavo, Giampietro (2020). Mice carrying ALS mutant TDP-43, but not mutant FUS, display in vivo defects in axonal transport of signaling endosomes. Cell Reports, 30 (11) 362546, 3655-3662e2. doi: 10.1016/j.celrep.2020.02.078

Mice carrying ALS mutant TDP-43, but not mutant FUS, display in vivo defects in axonal transport of signaling endosomes

Funding

Current funding

  • 2024 - 2025
    Investigating alterations in axonal transport of diverse organelles in mouse and human models of MND
    Motor Neurone Disease Association
    Open grant
  • 2024 - 2025
    Could Schwann cells be exacerbating motor neuron dysfunction in MND? (University of Melbourne administered MNDRIA grant)
    University of Melbourne
    Open grant
  • 2024 - 2025
    Determining the dynamic association between mitochondria and the selective vulnerability of motor neurons in MND mice
    Motor Neurone Disease Research Institute of Australia Inc Innovator Grant
    Open grant

Supervision

Availability

Dr Andrew Tosolini is:
Available for supervision

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Available projects

  • Axonal transport in Motor Neuron Disease

    Axonal transport maintains neuronal homeostasis by ensuring the long-range delivery of several cargoes, including cytoskeletal components, organelles, signalling molecules and RNA between proximal and distal neuronal compartments. As a result, perturbations in axonal transport have severe consequences for neuronal homeostasis and function. Indeed, axonal transport is perturbed in many neurodegenerative disorders, including motor neuron disease (MND)/amyotrophic lateral sclerosis(ALS).

    In this project, we will assess axonal transport dynamics of distinct intracellular organelles (e.g., signalling endosomes, mitochondria, lysosomes, neurotrophic factors) in both mouse and human models of MND/ALS. The in vivo component will assess axonal transport in several mouse models of MND/ALS that are currently available at UQ. This will be complemented by the in vitro component that will assess transport dynamics in motor neurons derived from human induced pluripotent stem cells harbouring diverse MND/ALS patient mutations.

Media

Enquiries

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communications@uq.edu.au