Citations to this article

Altered chromatin architecture underlies progressive impairment of the heat shock response in mouse models of Huntington disease
John Labbadia, … , Paolo Paganetti, Gillian P. Bates
John Labbadia, … , Paolo Paganetti, Gillian P. Bates
Published July 25, 2011
Citation Information: J Clin Invest. 2011;121(8):3306-3319. https://doi.org/10.1172/JCI57413.
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Altered chromatin architecture underlies progressive impairment of the heat shock response in mouse models of Huntington disease

Abstract

Huntington disease (HD) is a devastating neurodegenerative disorder for which there are no disease-modifying treatments. Previous studies have proposed that activation of the heat shock response (HSR) via the transcription factor heat shock factor 1 (HSF1) may be of therapeutic benefit. However, the effect of disease progression on the HSR and the therapeutic potential of this pathway are currently unknown. Here, we used a brain-penetrating HSP90 inhibitor and physiological, molecular, and behavioral readouts to demonstrate that pharmacological activation of HSF1 improves huntingtin aggregate load, motor performance, and other HD-related phenotypes in the R6/2 mouse model of HD. However, the beneficial effects of this treatment were transient and diminished with disease progression. Molecular analyses to understand the transient nature of these effects revealed altered chromatin architecture, reduced HSF1 binding, and impaired HSR accompanied disease progression in both the R6/2 transgenic and HdhQ150 knockin mouse models of HD. Taken together, our findings reveal that the HSR, a major inducible regulator of protein homeostasis and longevity, is disrupted in HD. Consequently, pharmacological induction of HSF1 as a therapeutic approach to HD is more complex than was previously anticipated.

Authors

John Labbadia, Helen Cunliffe, Andreas Weiss, Elena Katsyuba, Kirupa Sathasivam, Tamara Seredenina, Ben Woodman, Saliha Moussaoui, Stefan Frentzel, Ruth Luthi-Carter, Paolo Paganetti, Gillian P. Bates

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Real-time imaging of Huntingtin aggregates diverting target search and gene transcription: ( A ) Top, localization map of live-cell PALM data set for the indicated Htt fragment. The PALM data were recorded at 20 ms per frame using imaging conditions specified in Materials and methods. Diffraction-limited Htt-25Q aggregates are indicated by square boxes (White). Middle, reconstructed single-molecule trajectories reflecting sub-cellular molecular diffusion. Each trajectory is color-colored using the diffusion coefficient calculated by the linear regression of the MSD curve with a R 2 > 0.9. 2000 trajectories are shown for the Htt-25Q condition. Twice as many trajectories are shown for the mHtt-94Q condition to ensure relatively equal sampling and representation in regions without mHtt-94Q aggregates. Bottom, diffusion map calculated by a Bayesian inference- based method (El Beheiry et al., 2015). Trajectories with minimal 2 connected localizations were considered in this analysis. Each pixel in the image is color-coded with the most probable diffusion coefficient for that pixel calculated by InferenceMap. Scale bars, 2 µm. ( B ) Histogram of diffusion coefficients calculated same as in the middle panel of ( A ) for the indicated condition. Htt-25Q, 7266 trajectories; mHtt-94Q, 19,975 trajectories. N = 6 cells. ( C ) The temporal history of localizations in each selected region: vertical line (Black) indicates the frame from which the localization is detected. The blue trend line represents the cumulative distribution function of the total localizations detected before a given frame number. Three representative regions are shown for each condition. The images above each plot are sliding-window localization maps from Video 3, showing the temporal dynamics of Htt protein from each category. t indicates when the cluster/aggregate is clearly visible. Scale bars, 2 µm
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