BACKGROUND: D-ribose, an important reducing monosaccharide, is highly active in the glycation of proteins, and results in the rapid production of advanced glycation end products (AGEs) in vitro. However, whether D-ribose participates in glycation and leads to production of AGEs in vivo still requires investigation. METHODOLOGY/PRINCIPAL FINDINGS: Here we treated cultured cells and mice with D-ribose and D-glucose to compare ribosylation and glucosylation for production of AGEs. Treatment with D-ribose decreased cell viability and induced more AGE accumulation in cells. C57BL/6J mice intraperitoneally injected with D-ribose for 30 days showed high blood levels of glycated proteins and AGEs. Administration of high doses D-ribose also accelerated AGE formation in the mouse brain and induced impairment of spatial learning and memory ability according to the performance in Morris water maze test. CONCLUSIONS/SIGNIFICANCE: These data demonstrate that D-ribose but not D-glucose reacts rapidly with proteins and produces significant amounts of AGEs in both cultured cells and the mouse brain, leading to accumulation of AGEs which may impair mouse spatial cognition

Chanshuai Han

Yang Lu

Yan Wei

Ying Liu

Rongqiao He

Xiao-Jiang Li

PAC Cloos

JF Day

M Brownlee

PJ Keller

AD Broom

M Mauser

VM Monnier

HF Bunn

SC Harvey

S Tanaka

G Luciano Viviani

Y Wei

RQ He

L Chen

M Takeuchi

K Yang

WF Agnew

N Sasaki

RL Garlick

JV Woodside

TJ Lyons

T Miyata

H Vlassara

A Takeda

G Munch

RL Woltjer

M Neeper

M Pertynska-Marczewska

JE Teitelbaum

W Pliml

B Gebhart

SS Heinzel

JL Biedler

YP Li

V Wang

GJ Brewer

L Mayo

R Morris

D Weng

RN Johnson

RJL Bondar

HU Bergmeyer

H Bartels

E Planel

English

PubMed

The meso-scale surface roughness of piezoelectric fiber composites can be manipulated by applying an electric field to a piezocomposite with a polished surface. In the absence of an applied voltage, the tips of the embedded piezoelectric ceramic fibers are below the surface of the piezocomposite and a silicon wafer counter surface rests solely on the matrix region of the piezocomposite surface. When actuated, the piezoelectric ceramic fibers protrude from the surface and the wafer rests solely on these protrusions. A threefold decrease in engineering static friction coefficient upon actuation of the piezocomposite was observed: from μ 1.65 to μ 0.50. These experimental results could be linked to the change in contact surface area and roughness using capillary adhesion theory, which relates the adhesive force to the number and size of the contacting asperities for the different surface states. © 2013 AIP Publishing LLC

Ende, D.A. van den

Fischer, H.R.

Groen, W.A.

Zwaag, S. van der

NARCIS 

Switchable static friction of piezoelectric composite-silicon wafer contacts

Crossref

PLoS ONE

D-Ribose Induces Cellular Protein Glycation and Impairs Mouse Spatial Cognition

Directory of Open Access Journals

D-ribose induces cellular protein glycation and impairs mouse spatial cognition.

The meso-scale surface roughness of piezoelectric fiber composites can be manipulated by applying an electric field to a piezocomposite with a polished surface. In the absence of an applied voltage, the tips of the embedded piezoelectric ceramic fibers are below the surface of the piezocomposite and a silicon wafer counter surface rests solely on the matrix region of the piezocomposite surface. When actuated, the piezoelectric ceramic fibers protrude from the surface and the wafer rests solely on these protrusions. A threefold decrease in engineering static friction coefficient upon actuation of the piezocomposite was observed: from ?*?=?1.65 to ?*?=?0.50. These experimental results could be linked to the change in contact surface area and roughness using capillary adhesion theory, which relates the adhesive force to the number and size of the contacting asperities for the different surface statesAerospace Structures & MaterialsAerospace Engineerin

Van den Ende, D.A. (author)

Fischer, H.R. (author)

Groen, W.A. (author)

Van der Zwaag, S. (author)

TU Delft Repository

Switchable static friction of piezoelectric composite—silicon wafer contacts

The meso-scale surface roughness of piezoelectric fiber composites can be manipulated by applying an electric field to a piezocomposite with a polished surface. In the absence of an applied voltage, the tips of the embedded piezoelectric ceramic fibers are below the surface of the piezocomposite and a silicon wafer counter surface rests solely on the matrix region of the piezocomposite surface. When actuated, the piezoelectric ceramic fibers protrude from the surface and the wafer rests solely on these protrusions. A threefold decrease in engineering static friction coefficient upon actuation of the piezocomposite was observed: from ?*?=?1.65 to ?*?=?0.50. These experimental results could be linked to the change in contact surface area and roughness using capillary adhesion theory, which relates the adhesive force to the number and size of the contacting asperities for the different surface state

Van den Ende, D.A.

Van der Zwaag, S.

 still requires investigation.Here we treated cultured cells and mice with D-ribose and D-glucose to compare ribosylation and glucosylation for production of AGEs. Treatment with D-ribose decreased cell viability and induced more AGE accumulation in cells. C57BL/6J mice intraperitoneally injected with D-ribose for 30 days showed high blood levels of glycated proteins and AGEs. Administration of high doses D-ribose also accelerated AGE formation in the mouse brain and induced impairment of spatial learning and memory ability according to the performance in Morris water maze test.These data demonstrate that D-ribose but not D-glucose reacts rapidly with proteins and produces significant amounts of AGEs in both cultured cells and the mouse brain, leading to accumulation of AGEs which may impair mouse spatial cognition

Han Chanshuai

Lu Yang

Wei Yan

Liu Ying

He Rongqiao

Public Library of Science (PLOS)

Background: D-Ribose, an important reducing monosaccharide, is highly active in the glycation of proteins, and results in the rapid production of advanced glycation end products (AGEs) in vitro. However, whether D-ribose participates in glycation and leads to production of AGEs in vivo still requires investigation. Methodology/Principal Findings: Here we treated cultured cells and mice with D-ribose and D-glucose to compare ribosylation and glucosylation for production of AGEs. Treatment with D-ribose decreased cell viability and induced more AGE accumulation in cells. C57BL/6J mice intraperitoneally injected with D-ribose for 30 days showed high blood levels of glycated proteins and AGEs. Administration of high doses D-ribose also accelerated AGE formation in the mouse brain and induced impairment of spatial learning and memory ability according to the performance in Morris water maze test. Conclusions/Significance: These data demonstrate that D-ribose but not D-glucose reacts rapidly with proteins and produces significant amounts of AGEs in both cultured cells and the mouse brain, leading to accumulation of AGEs which may impair mouse spatial cognition

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D-Ribose Induces Cellular Protein Glycation and Impairs Mouse Spatial Cognition

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