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- cadherin-13 (1)
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Institute
Serotonin (5-hydroxytryptamine, 5-HT) is a neurotransmitter involved in early
developmental processes such as cell proliferation, migration, and differentiation.
Recent research in humans showed that the brain 5-HT system and CDH13 are
interlinked in the genetics of neurodevelopmental disorders including attention-
deficit/hyperactivity disorder and autism spectrum disorder (Lesch et al., 2008;
Neale et al., 2008; Neale, Medland, Ripke, Anney, et al., 2010; Neale, Medland,
Ripke, Asherson, et al., 2010; Sanders et al., 2011; Sanders et al., 2015; Zhou et
al., 2008). This study introduces Cadherin-13 (CDH13), a cell adhesion protein, as
a contributor to the development and function of the 5-HT system. Our
experiments show that the absence of CDH13 increases the density of 5-HT
neurons in the developing dorsal raphe (DR) and increases the 5-HT innervation
of the prefrontal cortex in mouse embryonic stages. CDH13 is also observed in
radial glial cells, an important progenitor cell type linked to neuronal migration.
A three-dimensional reconstruction carried out with super-resolution microscopy,
identifies 5-HT neurons intertwined with radial glial cells, and CDH13 clusters at
contact points between these cells. This indicates a potential contribution of
CDH13 to the migration of DR 5-HT neurons. As CDH13 is strongly expressed in
5-HT neurons, we asked whether the selective deletion of CDH13 from these cells
is sufficient to generate the alterations observed in the Cdh13 constitutive
knockout mouse line.
In 5-HT conditional Cdh13 knockout mice (Cdh13 cKO) an increase in DR 5-HT
neurons in the embryonic and adult brains is observed, as well as 5-HT
hyperinnervation of cortical regions. Therefore, illustrating that the lack of CDH13
from 5-HT neurons alone impacts DR formation and serotonergic innervation.
Behavioral testing conducted on Cdh13 cKO mice showed delayed learning in
visuospatial learning and memory processing, as well as, changes in sociability
parameters. To find out how CDH13 localizes in human 5-HT neurons, CDH13 was
visualized in neurons that derived from human induced pluripotent stem cells
(iPSC). Super-resolution microscopy confirmed CDH13 expression in a subgroup
of induced human neurons positive for typical hallmarks of 5-HT neurons, such as
expression of Tph2, the neuron-specific tryptophan hydroxylase, and synaptic
structures. In summary, the work included in this thesis presents a detailed
analysis of CDH13 expression and localization in the 5-HT system and shows that
deletion of CDH13 from 5-HT neurons affects specific higher-order functions of the
brain.