Literature DB >> 536314

A morphological study of the development of the mouse choroid plexus.

R R Sturrock.   

Abstract

Development of the mouse choroid plexus was studied by semithin light microscopy, transmission electron microscopy and scanning electron microscopy. The choroid plexus is first observed as a bilateral ridge at 11 days postconception. The major morphological development appears to occur between 11 and 14 days postconception. By 14 days both dark and light choroid plexus epithelial cells are present. The percentage of dark cells appears constant from 14 days postconception up to 3 months postnatum. Metachromatically staining glycogen masses are present in the choroidal epithelium from 13 days postconception until 5 days postnatum, after which time glcogen granules are sparsely scattered throughout the cytoplasm. A few fine microvilli are present at 11 days postconception and these increase in number and become much more bulbous by 13 days. In contrast to the light choroid plexus epithelial cells, the dark cells have fine narrow microvilli. The possible significance of the two types of choroid plexus cells is discussed.

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Mesh:

Year:  1979        PMID: 536314      PMCID: PMC1232989     

Source DB:  PubMed          Journal:  J Anat        ISSN: 0021-8782            Impact factor:   2.610


  15 in total

1.  MODE OF GROWTH OF THE CHOROID PLEXUS IN MOUSE EMBRYOS.

Authors:  P A KNUDSEN
Journal:  Acta Anat (Basel)       Date:  1964

2.  [Histological research on the importance of neuroglial & choroid plexus ependyma in carbohydrate metabolism of the central nervous system].

Authors:  A OKSCHE
Journal:  Z Zellforsch Mikrosk Anat       Date:  1958

3.  Histogenesis of the anterior limb of the anterior commissure of the mouse brain. 3. An electron microscopic study of gliogenesis.

Authors:  R R Sturrock
Journal:  J Anat       Date:  1974-02       Impact factor: 2.610

4.  Proliferative characteristics of the ependymal layer during the early development of the mouse neocortex: a pilot study based on recording the number, location and plane of cleavage of mitotic figures.

Authors:  I H Smart
Journal:  J Anat       Date:  1973-10       Impact factor: 2.610

5.  The location of nuclei of different labelling intensities in autoradiographs of the anterior forebrain of postnatial mice injected with [3H]thymidine on the eleventh and twelfth days post-conception.

Authors:  I H Smart; M Smart
Journal:  J Anat       Date:  1977-04       Impact factor: 2.610

6.  A developmental study of epiplexus cells and supraependymal cells and their possible relationship to microglia.

Authors:  R R Sturrock
Journal:  Neuropathol Appl Neurobiol       Date:  1978 Sep-Oct       Impact factor: 8.090

7.  Closure of the neural tube in the cephalic region of the mouse embryo.

Authors:  J A Geelen; J Langman
Journal:  Anat Rec       Date:  1977-12

8.  Ultrastructural alterations in neuroepithelial cells of mouse embryos exposed to cytotoxic doses of hydroxyurea.

Authors:  T W Sadler; R R Cardell
Journal:  Anat Rec       Date:  1977-05

9.  Light microscopic identification of immature glial cells in semithin sections of the developing mouse corpus callosum.

Authors:  R R Sturrock
Journal:  J Anat       Date:  1976-12       Impact factor: 2.610

10.  Uptake of horseradish peroxidase from CSF into the choroid plexus of the rat, with special reference to transepithelial transport.

Authors:  B van Deurs; M Møller; O Amtorp
Journal:  Cell Tissue Res       Date:  1978-02-24       Impact factor: 5.249
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  35 in total

1.  Emx2 is required for growth of the hippocampus but not for hippocampal field specification.

Authors:  S Tole; G Goudreau; S Assimacopoulos; E A Grove
Journal:  J Neurosci       Date:  2000-04-01       Impact factor: 6.167

2.  Proliferative zones in the epithelium of the choroid plexuses of the human embryo brain.

Authors:  D E Korzhevskii
Journal:  Neurosci Behav Physiol       Date:  2000 Sep-Oct

3.  The human brain at stages 18-20, including the choroid plexuses and the amygdaloid and septal nuclei.

Authors:  F Müller; R O'Rahilly
Journal:  Anat Embryol (Berl)       Date:  1990

4.  Molecularly and temporally separable lineages form the hindbrain roof plate and contribute differentially to the choroid plexus.

Authors:  Nina L Hunter; Susan M Dymecki
Journal:  Development       Date:  2007-08-29       Impact factor: 6.868

Review 5.  Development and functions of the choroid plexus-cerebrospinal fluid system.

Authors:  Melody P Lun; Edwin S Monuki; Maria K Lehtinen
Journal:  Nat Rev Neurosci       Date:  2015-07-15       Impact factor: 34.870

6.  Spatially heterogeneous choroid plexus transcriptomes encode positional identity and contribute to regional CSF production.

Authors:  Melody P Lun; Matthew B Johnson; Kevin G Broadbelt; Momoko Watanabe; Young-Jin Kang; Kevin F Chau; Mark W Springel; Alexandra Malesz; André M M Sousa; Mihovil Pletikos; Tais Adelita; Tai Adelita; Monica L Calicchio; Yong Zhang; Michael J Holtzman; Hart G W Lidov; Nenad Sestan; Hanno Steen; Edwin S Monuki; Maria K Lehtinen
Journal:  J Neurosci       Date:  2015-03-25       Impact factor: 6.167

7.  The human brain at stage 16, including the initial evagination of the neurohypophysis.

Authors:  F Müller; R O'Rahilly
Journal:  Anat Embryol (Berl)       Date:  1989

8.  Regional surface changes during the development of the telencephalic choroid plexus in the chick. A scanning-electron microscopic study.

Authors:  S el-Gammal
Journal:  Cell Tissue Res       Date:  1983       Impact factor: 5.249

9.  Uniform cell-autonomous tumorigenesis of the choroid plexus by papovavirus large T antigens.

Authors:  J D Chen; T Van Dyke
Journal:  Mol Cell Biol       Date:  1991-12       Impact factor: 4.272

10.  A novel mouse model reveals that polycystin-1 deficiency in ependyma and choroid plexus results in dysfunctional cilia and hydrocephalus.

Authors:  Claas Wodarczyk; Isaline Rowe; Marco Chiaravalli; Monika Pema; Feng Qian; Alessandra Boletta
Journal:  PLoS One       Date:  2009-09-23       Impact factor: 3.240
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