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Review
. 2022;11(3):269-280.
doi: 10.3233/JHD-220536.

Recent Microscopy Advances and the Applications to Huntington's Disease Research

Mouhanad Babi  1 Kaitlyn Neuman  2 Christina Y Peng  2 Tamara Maiuri  2 Celeste E Suart  2 Ray Truant  2   1
Affiliations
Review

Recent Microscopy Advances and the Applications to Huntington's Disease Research

Mouhanad Babi et al. J Huntingtons Dis. 2022.

Abstract

Huntingtin is a 3144 amino acid protein defined as a scaffold protein with many intracellular locations that suggest functions in these compartments. Expansion of the CAG DNA tract in the huntingtin first exon is the cause of Huntington's disease. An important tool in understanding the biological functions of huntingtin is molecular imaging at the single-cell level by microscopy and nanoscopy. The evolution of these technologies has accelerated since the Nobel Prize in Chemistry was awarded in 2014 for super-resolution nanoscopy. We are in a new era of light imaging at the single-cell level, not just for protein location, but also for protein conformation and biochemical function. Large-scale microscopy-based screening is also being accelerated by a coincident development of machine-based learning that offers a framework for truly unbiased data acquisition and analysis at very large scales. This review will summarize the newest technologies in light, electron, and atomic force microscopy in the context of unique challenges with huntingtin cell biology and biochemistry.

Keywords: Fluorescence microscopy; Huntingtin/HAP40; atomic force microscopy; live cell imaging; super-resolution microscopy; tissue clearing.

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Conflict of interest statement

RT is a consultant to Novartis AG. The other authors no conflict of interest to report.

References

    1. Takano H, Gusella JF, The predominantly HEAT-like motif structure of huntingtin and its association and coincident nuclear entry with dorsal, an NF-kB/Rel/dorsal family transcription factor, BMC Neurosci 2002;3:15.10.1186/1471-2202-3-15. - DOI - PMC - PubMed
    1. Atwal RS, Xia J, Pinchev D, Taylor J, Epand RM, Truant R, Huntingtinhas a membrane association signal that can modulate huntingtinaggregation, nuclear entry and toxicity, Hum Mol Genet 2007;16(21):2600–15. 10.1093/hmg/ddm217. - DOI - PubMed
    1. Desmond CR, Atwal RS, Xia J, Truant R, Identification of a karyopherin β1/β2 proline-tyrosinenuclear localization signal in huntingtin protein, J Biol Chem 2012;287(47):39626–33. 10.1074/jbc.M112.412379. - DOI - PMC - PubMed
    1. Zala D, Hinckelmann MV, Yu H, Lyra da Cunha MM, Liot G, Cordelières FP, et al.., Vesicular glycolysis provideson-board energy for fast axonal transport, Cell 2013;152(3)479–91. 10.1016/j.cell.2012.12.029. - DOI - PubMed
    1. Maiuri T, Woloshansky T, Xia J, Truant R, The huntingtin N17 domain is a multifunctional CRM1 and Ran-dependent nuclear and cilial export signal, Hum Mol Genet 2013;22(7):1383–94. - PMC - PubMed

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