Inhibitory Effects of Novel Immucillin Analogues on Borrelia burgdorferi Bgp Nucleosidase

Christian Guerrero; Seth Eidemiller; Ken Cornell

Inhibitory Effects of Novel Immucillin Analogues on Borrelia burgdorferi Bgp Nucleosidase

Christian Guerrero, Seth Eidemiller, Ken Cornell

Chemistry Department

Boise State University

Research output: Contribution to conference › Presentation

Abstract

The pathogenic spirochaete Borrelia burgdorferi causes Lyme disease and is transmitted by deer ticks when they feed. Lyme disease is multisystemic—it adversely affects the heart, joints, and skin. Recent studies demonstrate that B. burgdorferi possesses three methylthioadenosine/Sadenosylhomocysteine (MTA/SAH) nucleosidases essential for the catabolic breakdown of both MTA and SAH. Both MTA and SAH are by-products of major pathways involving Sadenosylmethionine (SAM) and are kept at low micromolar concentrations due to their inhibitory activity.

This project examined the effect of transition state inhibitors on the surface binding Borrelia glycosaminoglycanbinding protein (Bgp) nucleosidase using recombinant Bgp and whole-cell B. burgdorferi activity assays. The transition state analogues are potent inhibitors of Bgp activity with Ki values ranging from 6pM-6nM. Bgp on the surface of live B. burgdorferi was also inhibited by treatment with low nanomolar concentrations of transition state analogues.

Original language	American English
State	Published - 1 Jul 2012

Keywords

Enzyme
Lyme Disease
Methionine salvage Pathway
Transition State Analogues
glycosaminoglycan-binding protein
inhibition

EGS Disciplines

Biochemistry

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@conference{7539d18462ae4d298f61f79eba3d242c,

title = "Inhibitory Effects of Novel Immucillin Analogues on Borrelia burgdorferi Bgp Nucleosidase",

abstract = " The pathogenic spirochaete Borrelia burgdorferi causes Lyme disease and is transmitted by deer ticks when they feed. Lyme disease is multisystemic—it adversely affects the heart, joints, and skin. Recent studies demonstrate that B. burgdorferi possesses three methylthioadenosine/Sadenosylhomocysteine (MTA/SAH) nucleosidases essential for the catabolic breakdown of both MTA and SAH. Both MTA and SAH are by-products of major pathways involving Sadenosylmethionine (SAM) and are kept at low micromolar concentrations due to their inhibitory activity. This project examined the effect of transition state inhibitors on the surface binding Borrelia glycosaminoglycanbinding protein (Bgp) nucleosidase using recombinant Bgp and whole-cell B. burgdorferi activity assays. The transition state analogues are potent inhibitors of Bgp activity with Ki values ranging from 6pM-6nM. Bgp on the surface of live B. burgdorferi was also inhibited by treatment with low nanomolar concentrations of transition state analogues.",

keywords = "Enzyme, Lyme Disease, Methionine salvage Pathway, Transition State Analogues, glycosaminoglycan-binding protein, inhibition",

author = "Christian Guerrero and Seth Eidemiller and Ken Cornell",

year = "2012",

month = jul,

day = "1",

language = "American English",

}

TY - CONF

T1 - Inhibitory Effects of Novel Immucillin Analogues on Borrelia burgdorferi Bgp Nucleosidase

AU - Guerrero, Christian

AU - Eidemiller, Seth

AU - Cornell, Ken

PY - 2012/7/1

Y1 - 2012/7/1

N2 - The pathogenic spirochaete Borrelia burgdorferi causes Lyme disease and is transmitted by deer ticks when they feed. Lyme disease is multisystemic—it adversely affects the heart, joints, and skin. Recent studies demonstrate that B. burgdorferi possesses three methylthioadenosine/Sadenosylhomocysteine (MTA/SAH) nucleosidases essential for the catabolic breakdown of both MTA and SAH. Both MTA and SAH are by-products of major pathways involving Sadenosylmethionine (SAM) and are kept at low micromolar concentrations due to their inhibitory activity. This project examined the effect of transition state inhibitors on the surface binding Borrelia glycosaminoglycanbinding protein (Bgp) nucleosidase using recombinant Bgp and whole-cell B. burgdorferi activity assays. The transition state analogues are potent inhibitors of Bgp activity with Ki values ranging from 6pM-6nM. Bgp on the surface of live B. burgdorferi was also inhibited by treatment with low nanomolar concentrations of transition state analogues.

AB - The pathogenic spirochaete Borrelia burgdorferi causes Lyme disease and is transmitted by deer ticks when they feed. Lyme disease is multisystemic—it adversely affects the heart, joints, and skin. Recent studies demonstrate that B. burgdorferi possesses three methylthioadenosine/Sadenosylhomocysteine (MTA/SAH) nucleosidases essential for the catabolic breakdown of both MTA and SAH. Both MTA and SAH are by-products of major pathways involving Sadenosylmethionine (SAM) and are kept at low micromolar concentrations due to their inhibitory activity. This project examined the effect of transition state inhibitors on the surface binding Borrelia glycosaminoglycanbinding protein (Bgp) nucleosidase using recombinant Bgp and whole-cell B. burgdorferi activity assays. The transition state analogues are potent inhibitors of Bgp activity with Ki values ranging from 6pM-6nM. Bgp on the surface of live B. burgdorferi was also inhibited by treatment with low nanomolar concentrations of transition state analogues.

KW - Enzyme

KW - Lyme Disease

KW - Methionine salvage Pathway

KW - Transition State Analogues

KW - glycosaminoglycan-binding protein

KW - inhibition

UR - https://scholarworks.boisestate.edu/brc_inbre/11

M3 - Presentation

ER -

Inhibitory Effects of Novel Immucillin Analogues on Borrelia burgdorferi Bgp Nucleosidase

Abstract

Keywords

EGS Disciplines

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