TY - JOUR
T1 - In vitro modeling of the human dopaminergic system using spatially arranged ventral midbrain-striatum-cortex assembloids
AU - Reumann, Daniel
AU - Krauditsch, Christian
AU - Novatchkova, Maria
AU - Sozzi, Edoardo
AU - Wong, Sakurako Nagumo
AU - Zabolocki, Michael
AU - Priouret, Marthe
AU - Doleschall, Balint
AU - Ritzau-Reid, Kaja I
AU - Piber, Marielle
AU - Morassut, Ilaria
AU - Fieseler, Charles
AU - Fiorenzano, Alessandro
AU - Stevens, Molly M
AU - Zimmer, Manuel
AU - Bardy, Cedric
AU - Parmar, Malin
AU - Knoblich, Jürgen A
N1 - © 2023. The Author(s).
PY - 2023/12
Y1 - 2023/12
N2 - Ventral midbrain dopaminergic neurons project to the striatum as well as the cortex and are involved in movement control and reward-related cognition. In Parkinson's disease, nigrostriatal midbrain dopaminergic neurons degenerate and cause typical Parkinson's disease motor-related impairments, while the dysfunction of mesocorticolimbic midbrain dopaminergic neurons is implicated in addiction and neuropsychiatric disorders. Study of the development and selective neurodegeneration of the human dopaminergic system, however, has been limited due to the lack of an appropriate model and access to human material. Here, we have developed a human in vitro model that recapitulates key aspects of dopaminergic innervation of the striatum and cortex. These spatially arranged ventral midbrain-striatum-cortical organoids (MISCOs) can be used to study dopaminergic neuron maturation, innervation and function with implications for cell therapy and addiction research. We detail protocols for growing ventral midbrain, striatal and cortical organoids and describe how they fuse in a linear manner when placed in custom embedding molds. We report the formation of functional long-range dopaminergic connections to striatal and cortical tissues in MISCOs, and show that injected, ventral midbrain-patterned progenitors can mature and innervate the tissue. Using these assembloids, we examine dopaminergic circuit perturbations and show that chronic cocaine treatment causes long-lasting morphological, functional and transcriptional changes that persist upon drug withdrawal. Thus, our method opens new avenues to investigate human dopaminergic cell transplantation and circuitry reconstruction as well as the effect of drugs on the human dopaminergic system.
AB - Ventral midbrain dopaminergic neurons project to the striatum as well as the cortex and are involved in movement control and reward-related cognition. In Parkinson's disease, nigrostriatal midbrain dopaminergic neurons degenerate and cause typical Parkinson's disease motor-related impairments, while the dysfunction of mesocorticolimbic midbrain dopaminergic neurons is implicated in addiction and neuropsychiatric disorders. Study of the development and selective neurodegeneration of the human dopaminergic system, however, has been limited due to the lack of an appropriate model and access to human material. Here, we have developed a human in vitro model that recapitulates key aspects of dopaminergic innervation of the striatum and cortex. These spatially arranged ventral midbrain-striatum-cortical organoids (MISCOs) can be used to study dopaminergic neuron maturation, innervation and function with implications for cell therapy and addiction research. We detail protocols for growing ventral midbrain, striatal and cortical organoids and describe how they fuse in a linear manner when placed in custom embedding molds. We report the formation of functional long-range dopaminergic connections to striatal and cortical tissues in MISCOs, and show that injected, ventral midbrain-patterned progenitors can mature and innervate the tissue. Using these assembloids, we examine dopaminergic circuit perturbations and show that chronic cocaine treatment causes long-lasting morphological, functional and transcriptional changes that persist upon drug withdrawal. Thus, our method opens new avenues to investigate human dopaminergic cell transplantation and circuitry reconstruction as well as the effect of drugs on the human dopaminergic system.
KW - Humans
KW - Parkinson Disease
KW - Mesencephalon/anatomy & histology
KW - Dopamine
KW - Dopaminergic Neurons
KW - Corpus Striatum
U2 - 10.1038/s41592-023-02080-x
DO - 10.1038/s41592-023-02080-x
M3 - Article
C2 - 38052989
SN - 1549-1277
VL - 20
SP - 2034
EP - 2047
JO - Nature Methods
JF - Nature Methods
IS - 12
ER -