Life Extension Factor Klotho Enhances Cognition

Dena B. Dubal; Jennifer S. Yokoyama; Lei Zhu; Lauren Broestl; Kurtresha Worden; Dan Wang; Virginia E. Sturm; Daniel Kim; Eric Klein; Gui-Qiu Yu; Kaitlyn Ho; Kirsten Eilertson; Lei Yu; Makoto Kuro‐o; Philip L. De Jager; Giovanni Coppola; Gary W. Small; David A. Bennett; Joel H. Kramer; Carmela R. Abraham; Bruce L. Miller; Lennart Mucke

doi:10.1016/j.celrep.2014.03.076

Life Extension Factor Klotho Enhances Cognition

Dena B. Dubal(Gladstone Institutes), Jennifer S. Yokoyama(University of California, San Francisco), Lei Zhu(Gladstone Institutes), Lauren Broestl(University of California, San Francisco), Kurtresha Worden(Gladstone Institutes), Dan Wang(University of California, San Francisco), Virginia E. Sturm(University of California, San Francisco), Daniel Kim(Gladstone Institutes), Eric Klein(University of California, Los Angeles), Gui-Qiu Yu(Gladstone Institutes), Kaitlyn Ho(Gladstone Institutes), Kirsten Eilertson(Gladstone Institutes), Lei Yu(Rush University Medical Center), Makoto Kuro‐o(Jichi Medical University), Philip L. De Jager(Broad Institute), Giovanni Coppola(University of California, Los Angeles), Gary W. Small(University of California, Los Angeles), David A. Bennett(Rush University Medical Center), Joel H. Kramer(University of California, San Francisco), Carmela R. Abraham(Boston University), Bruce L. Miller(University of California, San Francisco), Lennart Mucke(Gladstone Institutes)

Cell Reports

May 1, 2014

10.1016/j.celrep.2014.03.076

Cited by 324Open Access

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Abstract

Aging is the primary risk factor for cognitive decline, an emerging health threat to aging societies worldwide. Whether anti-aging factors such as klotho can counteract cognitive decline is unknown. We show that a lifespan-extending variant of the human KLOTHO gene, KL-VS, is associated with enhanced cognition in heterozygous carriers. Because this allele increased klotho levels in serum, we analyzed transgenic mice with systemic overexpression of klotho. They performed better than controls in multiple tests of learning and memory. Elevating klotho in mice also enhanced long-term potentiation, a form of synaptic plasticity, and enriched synaptic GluN2B, an N-methyl-D-aspartate receptor (NMDAR) subunit with key functions in learning and memory. Blockade of GluN2B abolished klotho-mediated effects. Surprisingly, klotho effects were evident also in young mice and did not correlate with age in humans, suggesting independence from the aging process. Augmenting klotho or its effects may enhance cognition and counteract cognitive deficits at different life stages.

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