Your search keyword '"Voerman, Stijn"' showing total 4 results

1. Plasticity mechanisms of genetically distinct Purkinje cells

Author

Voerman, Stijn, Broersen, Robin, Swagemakers, Sigrid M A, De Zeeuw, Chris I, van der Spek, Peter J, Voerman, Stijn, Broersen, Robin, Swagemakers, Sigrid M A, De Zeeuw, Chris I, and van der Spek, Peter J

Abstract

Despite its uniform appearance, the cerebellar cortex is highly heterogeneous in terms of structure, genetics and physiology. Purkinje cells (PCs), the principal and sole output neurons of the cerebellar cortex, can be categorized into multiple populations that differentially express molecular markers and display distinctive physiological features. Such features include action potential rate, but also their propensity for synaptic and intrinsic plasticity. However, the precise molecular and genetic factors that correlate with the differential physiological properties of PCs remain elusive. In this article, we provide a detailed overview of the cellular mechanisms that regulate PC activity and plasticity. We further perform a pathway analysis to highlight how molecular characteristics of specific PC populations may influence their physiology and plasticity mechanisms.

Published

2024

2. Plasticity mechanisms of genetically distinct Purkinje cells

Author

Voerman, Stijn, Broersen, Robin, Swagemakers, Sigrid M A, De Zeeuw, Chris I, van der Spek, Peter J, Voerman, Stijn, Broersen, Robin, Swagemakers, Sigrid M A, De Zeeuw, Chris I, and van der Spek, Peter J

Abstract

Despite its uniform appearance, the cerebellar cortex is highly heterogeneous in terms of structure, genetics and physiology. Purkinje cells (PCs), the principal and sole output neurons of the cerebellar cortex, can be categorized into multiple populations that differentially express molecular markers and display distinctive physiological features. Such features include action potential rate, but also their propensity for synaptic and intrinsic plasticity. However, the precise molecular and genetic factors that correlate with the differential physiological properties of PCs remain elusive. In this article, we provide a detailed overview of the cellular mechanisms that regulate PC activity and plasticity. We further perform a pathway analysis to highlight how molecular characteristics of specific PC populations may influence their physiology and plasticity mechanisms.

Published

2024

3. Postsynaptic plasticity of Purkinje cells in mice is determined by molecular identity

Author

Voerman, Stijn, Urbanus, Bastiaan H A, Schonewille, Martijn, White, Joshua J, De Zeeuw, Chris I, Voerman, Stijn, Urbanus, Bastiaan H A, Schonewille, Martijn, White, Joshua J, and De Zeeuw, Chris I

Abstract

Cerebellar learning is expressed as upbound or downbound changes in simple spike activity of Purkinje cell subpopulations, but the underlying mechanism remains enigmatic. By visualizing murine Purkinje cells with different molecular identities, we demonstrate that the potential for induction of long-term depression is prominent in downbound and minimal in the upbound subpopulation. These differential propensities depend on the expression profile, but not on the synaptic inputs, of the individual Purkinje cell involved, highlighting the functional relevance of intrinsic properties for memory formation.

Published

2022

4. Postsynaptic plasticity of Purkinje cells in mice is determined by molecular identity

Author

Voerman, Stijn, Urbanus, Bastiaan H.A., Schonewille, Martijn, White, Joshua J., De Zeeuw, Chris I., Voerman, Stijn, Urbanus, Bastiaan H.A., Schonewille, Martijn, White, Joshua J., and De Zeeuw, Chris I.

Abstract

Cerebellar learning is expressed as upbound or downbound changes in simple spike activity of Purkinje cell subpopulations, but the underlying mechanism remains enigmatic. By visualizing murine Purkinje cells with different molecular identities, we demonstrate that the potential for induction of long-term depression is prominent in downbound and minimal in the upbound subpopulation. These differential propensities depend on the expression profile, but not on the synaptic inputs, of the individual Purkinje cell involved, highlighting the functional relevance of intrinsic properties for memory formation.

Published

2022