Sp1 Is Up-regulated in Cellular and Transgenic Models of Huntington Disease, and Its Reduction Is Neuroprotective

Michelle Bejarano,Fran Norflus,Robert J. Ferrante,Zhihua Qiu,Birgit Zucker,Rodica Buzescu,Jang-Ho J. Cha,Derek P. DiRocco,Mary K. Swindell,Caroline L. Benn,Steven M. Hersch,Raman Chopra,Bhupinder Singh

doi:10.1074/jbc.m511648200

Abstract

Interactions between mutant huntingtin (Htt) and a variety of transcription factors including specificity proteins (Sp) have been suggested as a central mechanism in Huntington disease (HD). However, the transcriptional activity induced by Htt in neurons that triggers neuronal death has yet to be fully elucidated. In the current study, we characterized the relationship of Sp1 to Htt protein aggregation and neuronal cell death. We found increased levels of Sp1 in neuronal-like PC12 cells expressing mutant Htt, primary striatal neurons, and brain tissue of HD transgenic mice. Sp1 levels were also elevated when 3-nitropropionate (3-NP) was used to induce cell death in PC12 cells. To assess the effects of knocking down Sp1 in HD pathology, we used Sp1 siRNA, a heterozygous Sp1 knock-out mouse, and mithramycin A, a DNA-intercalating agent that inhibits Sp1 function. The three approaches consistently yielded reduced levels of Sp1 which ameliorated toxicity caused by either mutant Htt or 3-NP. In addition, when HD mice were crossed with Sp1 heterozygous knock-out mice, the resulting offspring did not experience the loss of dopamine D2 receptor mRNA characteristic of HD mice, and survived longer than their HD counterparts. Our data suggest that enhancement of transcription factor Sp1 contributes to the pathology of HD and demonstrates that its suppression is beneficial.

Highlights

Interactions between mutant huntingtin (Htt) and a variety of transcription factors including specificity proteins (Sp) have been suggested as a central mechanism in Huntington disease (HD)
In this study we have examined the potential role of Sp1 in HD using complementary cellular and transgenic models, demonstrating that Sp1 is up-regulated in the presence of mutant Htt and its reduction is neuroprotective
Our approach was to determine the effects of mutant Htt and the mitochondrial toxin 3-NP on Sp1 levels in PC12 cells, assess Sp1 levels in primary neurons and transgenic mice, and modulate Sp1 by small interfering RNA (siRNA), mithramycin A, and genetically using Sp1 heterozygous knock-out mice crossed with HD transgenic mice

Summary

Introduction

Interactions between mutant huntingtin (Htt) and a variety of transcription factors including specificity proteins (Sp) have been suggested as a central mechanism in Huntington disease (HD). We found increased levels of Sp1 in neuronal-like PC12 cells expressing mutant Htt, primary striatal neurons, and brain tissue of HD transgenic mice.

Results

Conclusion