pkh-26 and Parkinsonian-Disorders

pkh-26 has been researched along with Parkinsonian-Disorders* in 2 studies

Other Studies

2 other study(ies) available for pkh-26 and Parkinsonian-Disorders

Article	Year
Transplantation of immortalized mesencephalic progenitors (CSM14.1 cells) into the neonatal parkinsonian rat caudate putamen. Journal of neuroscience research, 2007, Volume: 85, Issue:4 The present study analyzed whether grafts of the mesencephalic progenitor cell line CSM14.1 into the neonatal rat caudate putamen (CPu) differentiate into neurons and whether this is accompanied by a functional improvement in 6-hydroxydopamine (6-OHDA)-lesioned animals. As in previous studies, a neuronal differentiation of CSM14.1 cells transplanted into the CPu of adult animals could not be observed, so we here used neonatal rats, because graft location and host age seemingly are crucial parameters for neural transplant differentiation and integration. Rats bilaterally lesioned at postnatal day 1 by intraventricular 6-OHDA-injections 2 days later received 100,000 CSM14.1 cells prelabelled with the fluorescent dye PKH26 into the right CPu. Five weeks after grafting, the cylinder test was performed, and the data compared with data from age-matched intact controls and bilaterally lesioned-only animals. Brain slices immunostained for tyrosine hydroxylase (TH) were quantified by optical densitometry. We observed a significant preference of left forelimb use exclusively in transplanted animals. In these rats, TH-containing perikarya were found in the grafted CPu, presumedly leading to the significant increase of TH-immunoreactive fibers in this region. Moreover, confocal laser microscopy revealed a differentiation of transplanted PKH26-labelled CSM14.1 cells into neuronal nuclei antigen or TH-immunoreactive cells. Thus, CSM14.1 cells differentiate into TH-containing neurons, which most probably contribute to the preferred forelimb use, indicating a functional integration of CSM14.1 cells into the host basal ganglia loops during early postnatal development. These findings that are in contrast to observations in adult rats suggest instructive cues for neuronal differentiation and integration given by the neonatal microenvironment. Topics: Animals; Animals, Newborn; Behavior, Animal; Cell Differentiation; Cell Line; Cell Movement; Disease Models, Animal; Male; Mesencephalon; Neostriatum; Organic Chemicals; Oxidopamine; Parkinsonian Disorders; Psychomotor Performance; Rats; Rats, Wistar; Stem Cell Transplantation; Stem Cells; Tyrosine 3-Monooxygenase	2007
Behavioral changes in unilaterally 6-hydroxy-dopamine lesioned rats after transplantation of differentiated mouse embryonic stem cells without morphological integration. Stem cells (Dayton, Ohio), 2004, Volume: 22, Issue:3 Transplantation of fetal mesencephalic cells into the striatum has been performed in about 350 patients with Parkinson's disease and has been intensively studied in rat models of Parkinson's disease. Limited access to this material has shifted the focus toward embryonic stem (ES) cells. The grafting of undifferentiated ES cells to 6-hydroxy-dopamine (6-OHDA)-lesioned rats leads to behavioral improvements but may induce teratoma-like structures. This risk might be avoided by using more differentiated ES cells. In this study, we aimed to investigate differentiated mouse ES cells regarding their in vivo development and fate after transplantation in the striatum in the 6-OHDA rat model and the behavioral changes induced after transplantation.. Mouse ES cells were differentiated on PA6 feeder cells for 14 days before grafting. Twenty to twenty-five percent of the neurons obtained were positive for tyrosine-hydroxylase (TH). PKH26-labeled cells were transplanted in the striata of unilaterally 6-OHDA-lesioned rats.. Direct PKH26 fluorescence visualization and TH staining proved the existence of cell deposits in the striata of all grafted animals, indicating cell survival for at least 5 weeks posttransplantation. There was no evidence of tumor formation. Immunocytochemical staining showed glial immunoreactivity surrounding the grafted cell deposits, probably inhibiting axonal outgrowth into the surrounding host tissue. There was a significant reduction in amphetamine-induced rotational behavior seen in grafted animals, which was not observed in sham-operated animals.. The findings of this study suggest that the amphetamine-induced rotational behavioral test without histological confirmation is not proof of morphological integration with axonal outgrowth within the first 4 weeks posttransplantation. Topics: Animals; Behavior, Animal; Brain Tissue Transplantation; Cell Differentiation; Corpus Striatum; Humans; Male; Mesencephalon; Mice; Neurons; Organic Chemicals; Oxidopamine; Parkinsonian Disorders; Rats; Rats, Wistar; Stem Cell Transplantation; Stem Cells; Tyrosine 3-Monooxygenase	2004

Article

Year

Transplantation of immortalized mesencephalic progenitors (CSM14.1 cells) into the neonatal parkinsonian rat caudate putamen.

Journal of neuroscience research, 2007, Volume: 85, Issue:4

The present study analyzed whether grafts of the mesencephalic progenitor cell line CSM14.1 into the neonatal rat caudate putamen (CPu) differentiate into neurons and whether this is accompanied by a functional improvement in 6-hydroxydopamine (6-OHDA)-lesioned animals. As in previous studies, a neuronal differentiation of CSM14.1 cells transplanted into the CPu of adult animals could not be observed, so we here used neonatal rats, because graft location and host age seemingly are crucial parameters for neural transplant differentiation and integration. Rats bilaterally lesioned at postnatal day 1 by intraventricular 6-OHDA-injections 2 days later received 100,000 CSM14.1 cells prelabelled with the fluorescent dye PKH26 into the right CPu. Five weeks after grafting, the cylinder test was performed, and the data compared with data from age-matched intact controls and bilaterally lesioned-only animals. Brain slices immunostained for tyrosine hydroxylase (TH) were quantified by optical densitometry. We observed a significant preference of left forelimb use exclusively in transplanted animals. In these rats, TH-containing perikarya were found in the grafted CPu, presumedly leading to the significant increase of TH-immunoreactive fibers in this region. Moreover, confocal laser microscopy revealed a differentiation of transplanted PKH26-labelled CSM14.1 cells into neuronal nuclei antigen or TH-immunoreactive cells. Thus, CSM14.1 cells differentiate into TH-containing neurons, which most probably contribute to the preferred forelimb use, indicating a functional integration of CSM14.1 cells into the host basal ganglia loops during early postnatal development. These findings that are in contrast to observations in adult rats suggest instructive cues for neuronal differentiation and integration given by the neonatal microenvironment.

Topics: Animals; Animals, Newborn; Behavior, Animal; Cell Differentiation; Cell Line; Cell Movement; Disease Models, Animal; Male; Mesencephalon; Neostriatum; Organic Chemicals; Oxidopamine; Parkinsonian Disorders; Psychomotor Performance; Rats; Rats, Wistar; Stem Cell Transplantation; Stem Cells; Tyrosine 3-Monooxygenase

2007

Behavioral changes in unilaterally 6-hydroxy-dopamine lesioned rats after transplantation of differentiated mouse embryonic stem cells without morphological integration.

Stem cells (Dayton, Ohio), 2004, Volume: 22, Issue:3

Transplantation of fetal mesencephalic cells into the striatum has been performed in about 350 patients with Parkinson's disease and has been intensively studied in rat models of Parkinson's disease. Limited access to this material has shifted the focus toward embryonic stem (ES) cells. The grafting of undifferentiated ES cells to 6-hydroxy-dopamine (6-OHDA)-lesioned rats leads to behavioral improvements but may induce teratoma-like structures. This risk might be avoided by using more differentiated ES cells. In this study, we aimed to investigate differentiated mouse ES cells regarding their in vivo development and fate after transplantation in the striatum in the 6-OHDA rat model and the behavioral changes induced after transplantation.. Mouse ES cells were differentiated on PA6 feeder cells for 14 days before grafting. Twenty to twenty-five percent of the neurons obtained were positive for tyrosine-hydroxylase (TH). PKH26-labeled cells were transplanted in the striata of unilaterally 6-OHDA-lesioned rats.. Direct PKH26 fluorescence visualization and TH staining proved the existence of cell deposits in the striata of all grafted animals, indicating cell survival for at least 5 weeks posttransplantation. There was no evidence of tumor formation. Immunocytochemical staining showed glial immunoreactivity surrounding the grafted cell deposits, probably inhibiting axonal outgrowth into the surrounding host tissue. There was a significant reduction in amphetamine-induced rotational behavior seen in grafted animals, which was not observed in sham-operated animals.. The findings of this study suggest that the amphetamine-induced rotational behavioral test without histological confirmation is not proof of morphological integration with axonal outgrowth within the first 4 weeks posttransplantation.

Topics: Animals; Behavior, Animal; Brain Tissue Transplantation; Cell Differentiation; Corpus Striatum; Humans; Male; Mesencephalon; Mice; Neurons; Organic Chemicals; Oxidopamine; Parkinsonian Disorders; Rats; Rats, Wistar; Stem Cell Transplantation; Stem Cells; Tyrosine 3-Monooxygenase

2004