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239 results on '"Thompson, Lachlan H."'

1. State of the Art in Sub-Phenotyping Midbrain Dopamine Neurons.

Author

Basso, Valentina, Döbrössy, Máté D., Thompson, Lachlan H., Kirik, Deniz, Fuller, Heidi R., and Gates, Monte A.

Subjects
SUBSTANTIA nigra, NEURAL circuitry, PARKINSON'S disease, NEURON development, NEURAL development, DOPAMINERGIC neurons
Abstract

Simple Summary: This review delves into the differences between two important groups of dopamine-producing brain cells, found in regions called the ventral tegmental area and the substantia nigra. While these cells are located close to each other, they play different roles in the brain and are affected differently by diseases like Parkinson's. Understanding these differences is key to developing better treatments and more selective, without causing unwanted effects on other brain functions. This review discusses how these cells are structured, how they connect to other parts of the brain, how they function, and the differences during development. The goal is to provide insights that could lead to more precise therapies, targeting specific groups of cells without harming others. This research is important for advancing treatments for brain disorders and improving our understanding of the brain's complex wiring. Dopaminergic neurons in the ventral tegmental area (VTA) and the substantia nigra pars compacta (SNpc) comprise around 75% of all dopaminergic neurons in the human brain. While both groups of dopaminergic neurons are in close proximity in the midbrain and partially overlap, development, function, and impairments in these two classes of neurons are highly diverse. The molecular and cellular mechanisms underlying these differences are not yet fully understood, but research over the past decade has highlighted the need to differentiate between these two classes of dopaminergic neurons during their development and in the mature brain. This differentiation is crucial not only for understanding fundamental circuitry formation in the brain but also for developing therapies targeted to specific dopaminergic neuron classes without affecting others. In this review, we summarize the state of the art in our understanding of the differences between the dopaminergic neurons of the VTA and the SNpc, such as anatomy, structure, morphology, output and input, electrophysiology, development, and disorders, and discuss the current technologies and methods available for studying these two classes of dopaminergic neurons, highlighting their advantages, limitations, and the necessary improvements required to achieve more-precise therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published
2024
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6. A Selective, Hydrogel‐Based Prodrug Delivery System Efficiently Activates a Suicide Gene to Remove Undifferentiated Human Stem Cells Within Neural Grafts.

Author

Law, Kevin C. L., Mahmoudi, Negar, Zadeh, Zahra E., Williams, Richard. J., Hunt, Cameron P. J., Nagy, Andras, Thompson, Lachlan H., Nisbet, David R., and Parish, Clare L.

Subjects
HUMAN stem cells, NEURAL stem cells, PLURIPOTENT stem cells, SUICIDE, PARKINSON'S disease, STEM cell donors
Abstract

The directed differentiation of human pluripotent stem cells (hPSCs) into defined populations has advanced regenerative medicine, especially for Parkinson's disease where clinical trials are underway. Despite this, tumorigenic risks associated with incompletely patterned and/or quiescent proliferative cells within grafts remain. Addressing this, donor stem cells carrying the suicide gene, thymidine kinase (activated by the prodrug ganciclovir, GCV), are employed to enable the programmed ablation of proliferative cells within neural grafts. However, coinciding the short half‐life of GCV with the short S‐phase of neural progenitors is a key challenge. To overcome this, a smart hydrogel delivery matrix is fabricatedto prolong GCV presentation. Following matrix embedment, GCV retains its functionality, demonstrated by ablation of hPSCs and proliferating neural progenitors in vitro. A prolonged GCV release is measured by mass spectrometry following the injection of a GCV‐functionalized hydrogel into mouse brains. Compared to suboptimal, daily systemic GCV injections, the intracerebral delivery of the functionalized hydrogel, as a "one‐off treatment", reduce proliferative cells in both hPSC‐derived teratomas and neural grafts, without affecting the graft's functional unit (i.e., neurons). It is demonstrated that a functionalized biomaterial can enhance prodrug delivery and address safety concerns associated with the use of hPSCs for brain repair. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Understanding the Influence of Target Acquisition on Survival, Integration, and Phenotypic Maturation of Dopamine Neurons within Stem Cell-Derived Neural Grafts in a Parkinson's Disease Model

Author

Moriarty, Niamh, primary, Kauhausen, Jessica A., additional, Pavan, Chiara, additional, Hunt, Cameron P.J., additional, de Luzy, Isabelle R., additional, Penna, Vanessa, additional, Ermine, Charlotte M., additional, Thompson, Lachlan H., additional, and Parish, Clare L., additional

Published
2022
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16. A combined cell and gene therapy approach for homotopic reconstruction of midbrain dopamine pathways using human pluripotent stem cells

Author

Moriarty, Niamh, primary, Gantner, Carlos W., additional, Hunt, Cameron P.J., additional, Ermine, Charlotte M., additional, Frausin, Stefano, additional, Viventi, Serena, additional, Ovchinnikov, Dmitry A., additional, Kirik, Deniz, additional, Parish, Clare L., additional, and Thompson, Lachlan H., additional

Published
2022
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18. Tissue Programmed Hydrogels Functionalized with GDNF Improve Human Neural Grafts in Parkinson's Disease (Adv. Funct. Mater. 47/2021)

Author

Hunt, Cameron P. J., primary, Penna, Vanessa, additional, Gantner, Carlos W., additional, Moriarty, Niamh, additional, Wang, Yi, additional, Franks, Stephanie, additional, Ermine, Charlotte M., additional, Luzy, Isabelle R., additional, Pavan, Chiara, additional, Long, Benjamin M., additional, Williams, Richard J., additional, Thompson, Lachlan H., additional, Nisbet, David R., additional, and Parish, Clare L., additional

Published
2021
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34. Viral Delivery of GDNF Promotes Functional Integration of Human Stem Cell Grafts in Parkinson’s Disease

Author

Gantner, Carlos W., primary, de Luzy, Isabelle R., additional, Kauhausen, Jessica A., additional, Moriarty, Niamh, additional, Niclis, Jonathan C., additional, Bye, Christopher R., additional, Penna, Vanessa, additional, Hunt, Cameron P.J., additional, Ermine, Charlotte M., additional, Pouton, Colin W., additional, Kirik, Deniz, additional, Thompson, Lachlan H., additional, and Parish, Clare L., additional

Published
2020
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38. VIRAL DELIVERY OF GDNF PROMOTES FUNCTIONAL INTEGRATION OF HUMAN STEM CELL GRAFTS IN PARKINSON’S DISEASE

Author

Gantner, Carlos W, primary, de Luzy, Isabelle R, additional, Kauhausen, Jessica A, additional, Moriarty, Niamh, additional, Niclis, Jonathan C, additional, Penna, Vanessa, additional, Hunt, Cameron P., additional, Bye, Christopher R, additional, Ermine, Charlotte M, additional, Pouton, Colin W, additional, Kirik, Deniz, additional, Thompson, Lachlan H, additional, and Parish, Clare L, additional

Published
2019
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43. Isolation of LMX1a Ventral Midbrain Progenitors Improves the Safety and Predictability of Human Pluripotent Stem Cell-Derived Neural Transplants in Parkinsonian Disease

Author

de Luzy, Isabelle R., primary, Niclis, Jonathan C., additional, Gantner, Carlos W., additional, Kauhausen, Jessica A., additional, Hunt, Cameron P.J., additional, Ermine, Charlotte, additional, Pouton, Colin W., additional, Thompson, Lachlan H., additional, and Parish, Clare L., additional

Published
2019
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49. Long-distance axonal growth and protracted functional maturation of neurons derived from human induced pluripotent stem cells after intracerebral transplantation

Author

Niclis, Jonathan C, Turner, Christopher, Durnall, Jennifer, McDougal, Stuart, Kauhausen, Jessica A, Leaw, Bryan, Dottori, Mirella, Parish, Clare L, Thompson, Lachlan H, Niclis, Jonathan C, Turner, Christopher, Durnall, Jennifer, McDougal, Stuart, Kauhausen, Jessica A, Leaw, Bryan, Dottori, Mirella, Parish, Clare L, and Thompson, Lachlan H

Abstract

The capacity for induced pluripotent stem (iPS) cells to be differentiated into a wide range of neural cell types makes them an attractive donor source for autologous neural transplantation therapies aimed at brain repair. Translation to the in vivo setting has been difficult, however, with mixed results in a wide variety of preclinical models of brain injury and limited information on the basic in vivo properties of neural grafts generated from human iPS cells. Here we have generated a human iPS cell line constitutively expressing green fluorescent protein as a basis to identify and characterize grafts resulting from transplantation of neural progenitors into the adult rat brain. The results show that the grafts contain a mix of neural cell types, at various stages of differentiation, including neurons that establish extensive patterns of axonal growth and progressively develop functional properties over the course of 1 year after implantation. These findings form an important basis for the design and interpretation of preclinical studies using human stem cells for functional circuit re-construction in animal models of brain injury.

Published
2017

50. Peptide-based scaffolds support human cortical progenitor graft integration to reduce atrophy and promote functional repair in a model of stroke

Author

Somaa, Fahad A, Wang, Ting-Yi, Niclis, Jonathan C, Bruggeman, Kiara F, Kauhausen, Jessica A, Guo, Haoyao, McDougall, Stuart, Williams, Richard J, Nisbet, David R, Thompson, Lachlan H, Parish, Clare L, Somaa, Fahad A, Wang, Ting-Yi, Niclis, Jonathan C, Bruggeman, Kiara F, Kauhausen, Jessica A, Guo, Haoyao, McDougall, Stuart, Williams, Richard J, Nisbet, David R, Thompson, Lachlan H, and Parish, Clare L

Published
2017

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