Cell Structure and Function
Online ISSN : 1347-3700
Print ISSN : 0386-7196
ISSN-L : 0386-7196
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Immunohistochemical Localization of Klotho Protein in Brain, Kidney, and Reproductive Organs of Mice
Shun-Ai LiMasami WatanabeHiroshi YamadaAtsushi NagaiMasahiro KinutaKohji Takei
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2004 Volume 29 Issue 4 Pages 91-99

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Abstract

Klotho mutant mouse (kl-/-), a mouse model for human aging, exhibits various phenotypes in a wide range of organs including arteriosclerosis, neural degeneration, skin and gonadal atrophy, pulmonary emphysema, calcification of soft tissues, and cognition impairment. Klotho mRNA, however, is expressed only in brain, kidney, reproductive organs, pituitary gland, and parathyroid gland. Therefore it remains to be elucidated how lack of Klotho protein in these limited organs leads to the variety of phenotypes. To shed light on mechanisms by which Klotho protein acts on distant targets, we examined localization of Klotho protein in brain, kidney, and reproductive organs, and analyzed brain and kidney in kl-/- mice searching for changes in target regions in these organs. In brain, Klotho proteins were localized at choroid plexus, where the proteins were dominantly localized at the apical plasma membrane of ependymal cells. In kl-/- brain, reduction of synapses was evident in hippocampus, suggesting a role of Klotho as a humoral factor in cerebrospinal fluid. Klotho proteins in kidney localized at distal renal tubules. Interestingly, in kl-/-mice, type IIa Na/phosphate (Pi) cotransporters, which function at the proximal renal tubules in reabsorption of phosphate ions, were translocated. This suggests that Klotho protein in kidney is implicated in calcium homeostasis which regulates localization of type IIa Na/Pi cotransporters via parathyroid hormone (PTH). Klotho proteins in reproductive organs were expressed only in mature germ cells, although in kl-/- mice germ cell maturation was arrested at earlier stages. Thus, Klotho proteins not only function as a humoral factor, but also are implicated in hormonal regulation, which may explain why mutation of klotho gene results in a variety of phenotypes.

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© 2004 by Japan Society for Cell Biology
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