Persistence of Cerebellar Thymidine Kinase in Staggerer and Hypothyroid Mutants
- 1 January 1984
- journal article
- research article
- Published by Taylor & Francis in Journal of Neurogenetics
- Vol. 1 (3) , 239-248
- https://doi.org/10.3109/01677068409107089
Abstract
These experiments address the mechanism of action of the persistence of proliferation in the cerebellar external granule layer (EGL) by comparing congenital hypothyroidism due to a recessive mutation in mice to the staggerer mouse mutant. In both cases persistence of the EGL can be demonstrated histologically, with the process more drawn out in staggerer than in hypothyroid. This correlates with higher than normal levels of the enzyme thymidine kinase, a biochemical marker of proliferation, in both mutants. It is hypothesized that the proliferation of EGL cells in both cases is controlled by effects of the mutations on the maturation rate of the Purkinje cells, possibly with other cell types as intermediates.Keywords
This publication has 24 references indexed in Scilit:
- Neuron-glia interactions and glial enzyme expression in the mouse cerebellumInternational Journal of Developmental Neuroscience, 1983
- Embryonic to adult conversion of neural cell adhesion molecules in normal and staggerer mice.Proceedings of the National Academy of Sciences, 1982
- Inherited Primary Hypothyroidism in MiceScience, 1981
- Effects of Thyroid State on the Formation and Early Morphological Development of Bergmann Glia in the Developing Rat CerebellumDevelopmental Neuroscience, 1980
- Staggerer chimeras: Intrinsic nature of purkinje cell defects and implications for normal cerebellar developmentBrain Research, 1979
- Postnatal cerebellar cells from staggerer mutant mice express embryonic cell surface characteristicNature, 1978
- Abnormal staggerer cerebellar cell interactions and survival in vitroNeuroscience Letters, 1978
- Electron microscopic analysis of postnatal histogenesis in the cerebellar cortex of staggerer mutant miceJournal of Comparative Neurology, 1978
- Effect of thyroid deficiency on cell acquisition in the postnatal rat brain: A quantitative histological studyBrain Research, 1976
- COMPARATIVE EFFECTS OF HYPOTHYROIDISM, HYPERTHYROIDISM AND UNDERNUTRITION ON THE PROTEIN AND NUCLEIC ACID CONTENTS OF THE CEREBELLUM IN THE YOUNG RATJournal of Neurochemistry, 1973