The Lhx9 homeobox gene controls pineal gland development and prevents postnatal hydrocephalus

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

The Lhx9 homeobox gene controls pineal gland development and prevents postnatal hydrocephalus. / Yamazaki, Fumiyoshi; Møller, Morten; Fu, Cong; Clokie, Samuel J; Zykovich, Artem; Coon, Steven L; Klein, David C; Rath, Martin F.

In: Brain Structure and Function (Print Edition), Vol. 220, No. 3, 2015, p. 1497-1509.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Yamazaki, F, Møller, M, Fu, C, Clokie, SJ, Zykovich, A, Coon, SL, Klein, DC & Rath, MF 2015, 'The Lhx9 homeobox gene controls pineal gland development and prevents postnatal hydrocephalus', Brain Structure and Function (Print Edition), vol. 220, no. 3, pp. 1497-1509. https://doi.org/10.1007/s00429-014-0740-x

APA

Yamazaki, F., Møller, M., Fu, C., Clokie, S. J., Zykovich, A., Coon, S. L., Klein, D. C., & Rath, M. F. (2015). The Lhx9 homeobox gene controls pineal gland development and prevents postnatal hydrocephalus. Brain Structure and Function (Print Edition), 220(3), 1497-1509. https://doi.org/10.1007/s00429-014-0740-x

Vancouver

Yamazaki F, Møller M, Fu C, Clokie SJ, Zykovich A, Coon SL et al. The Lhx9 homeobox gene controls pineal gland development and prevents postnatal hydrocephalus. Brain Structure and Function (Print Edition). 2015;220(3):1497-1509. https://doi.org/10.1007/s00429-014-0740-x

Author

Yamazaki, Fumiyoshi ; Møller, Morten ; Fu, Cong ; Clokie, Samuel J ; Zykovich, Artem ; Coon, Steven L ; Klein, David C ; Rath, Martin F. / The Lhx9 homeobox gene controls pineal gland development and prevents postnatal hydrocephalus. In: Brain Structure and Function (Print Edition). 2015 ; Vol. 220, No. 3. pp. 1497-1509.

Bibtex

@article{7845ceff41b94b349f577318cb55a700,
title = "The Lhx9 homeobox gene controls pineal gland development and prevents postnatal hydrocephalus",
abstract = "Lhx9 is a member of the LIM homeobox gene family. It is expressed during mammalian embryogenesis in the brain including the pineal gland. Deletion of Lhx9 results in sterility due to failure of gonadal development. The current study was initiated to investigate Lhx9 biology in the pineal gland. Lhx9 is highly expressed in the developing pineal gland of the rat with transcript abundance peaking early in development; transcript levels decrease postnatally to nearly undetectable levels in the adult, a temporal pattern that is generally similar to that reported for Lhx9 expression in other brain regions. Studies with C57BL/6J Lhx9 (-/-) mutant mice revealed marked alterations in brain and pineal development. Specifically, the superficial pineal gland is hypoplastic, being reduced to a small cluster of pinealocytes surrounded by meningeal and vascular tissue. The deep pineal gland and the pineal stalk are also reduced in size. Although the brains of neonatal Lhx9 (-/-) mutant mice appear normal, severe hydrocephalus develops in about 70 % of the Lhx9 (-/-) mice at 5-8 weeks of age; these observations are the first to document that deletion of Lhx9 results in hydrocephalus and as such indicate that Lhx9 contributes to the maintenance of normal brain structure. Whereas hydrocephalus is absent in neonatal Lhx9 (-/-)mutant mice, the neonatal pineal gland in these animals is hypoplastic. Accordingly, it appears that Lhx9 is essential for early development of the mammalian pineal gland and that this effect is not secondary to hydrocephalus.",
author = "Fumiyoshi Yamazaki and Morten M{\o}ller and Cong Fu and Clokie, {Samuel J} and Artem Zykovich and Coon, {Steven L} and Klein, {David C} and Rath, {Martin F}",
year = "2015",
doi = "10.1007/s00429-014-0740-x",
language = "English",
volume = "220",
pages = "1497--1509",
journal = "Brain Structure and Function",
issn = "1863-2653",
publisher = "Springer",
number = "3",

}

RIS

TY - JOUR

T1 - The Lhx9 homeobox gene controls pineal gland development and prevents postnatal hydrocephalus

AU - Yamazaki, Fumiyoshi

AU - Møller, Morten

AU - Fu, Cong

AU - Clokie, Samuel J

AU - Zykovich, Artem

AU - Coon, Steven L

AU - Klein, David C

AU - Rath, Martin F

PY - 2015

Y1 - 2015

N2 - Lhx9 is a member of the LIM homeobox gene family. It is expressed during mammalian embryogenesis in the brain including the pineal gland. Deletion of Lhx9 results in sterility due to failure of gonadal development. The current study was initiated to investigate Lhx9 biology in the pineal gland. Lhx9 is highly expressed in the developing pineal gland of the rat with transcript abundance peaking early in development; transcript levels decrease postnatally to nearly undetectable levels in the adult, a temporal pattern that is generally similar to that reported for Lhx9 expression in other brain regions. Studies with C57BL/6J Lhx9 (-/-) mutant mice revealed marked alterations in brain and pineal development. Specifically, the superficial pineal gland is hypoplastic, being reduced to a small cluster of pinealocytes surrounded by meningeal and vascular tissue. The deep pineal gland and the pineal stalk are also reduced in size. Although the brains of neonatal Lhx9 (-/-) mutant mice appear normal, severe hydrocephalus develops in about 70 % of the Lhx9 (-/-) mice at 5-8 weeks of age; these observations are the first to document that deletion of Lhx9 results in hydrocephalus and as such indicate that Lhx9 contributes to the maintenance of normal brain structure. Whereas hydrocephalus is absent in neonatal Lhx9 (-/-)mutant mice, the neonatal pineal gland in these animals is hypoplastic. Accordingly, it appears that Lhx9 is essential for early development of the mammalian pineal gland and that this effect is not secondary to hydrocephalus.

AB - Lhx9 is a member of the LIM homeobox gene family. It is expressed during mammalian embryogenesis in the brain including the pineal gland. Deletion of Lhx9 results in sterility due to failure of gonadal development. The current study was initiated to investigate Lhx9 biology in the pineal gland. Lhx9 is highly expressed in the developing pineal gland of the rat with transcript abundance peaking early in development; transcript levels decrease postnatally to nearly undetectable levels in the adult, a temporal pattern that is generally similar to that reported for Lhx9 expression in other brain regions. Studies with C57BL/6J Lhx9 (-/-) mutant mice revealed marked alterations in brain and pineal development. Specifically, the superficial pineal gland is hypoplastic, being reduced to a small cluster of pinealocytes surrounded by meningeal and vascular tissue. The deep pineal gland and the pineal stalk are also reduced in size. Although the brains of neonatal Lhx9 (-/-) mutant mice appear normal, severe hydrocephalus develops in about 70 % of the Lhx9 (-/-) mice at 5-8 weeks of age; these observations are the first to document that deletion of Lhx9 results in hydrocephalus and as such indicate that Lhx9 contributes to the maintenance of normal brain structure. Whereas hydrocephalus is absent in neonatal Lhx9 (-/-)mutant mice, the neonatal pineal gland in these animals is hypoplastic. Accordingly, it appears that Lhx9 is essential for early development of the mammalian pineal gland and that this effect is not secondary to hydrocephalus.

U2 - 10.1007/s00429-014-0740-x

DO - 10.1007/s00429-014-0740-x

M3 - Journal article

C2 - 24647753

VL - 220

SP - 1497

EP - 1509

JO - Brain Structure and Function

JF - Brain Structure and Function

SN - 1863-2653

IS - 3

ER -

ID: 106812567