CK2 alpha prime and alpha-synuclein pathogenic functional interaction mediates synaptic dysregulation in Huntington’s disease

Abstract: Huntington’s disease (HD) is a neurodegenerative disorder caused by a CAG trinucleotide repeat expansion in the HTT gene for which no therapies are available. HTT mutation causes protein misfolding and aggregation, preferentially affecting medium spiny neurons (MSNs) of the basal ganglia. Transcriptional perturbations in synaptic genes and neuroinflammation are key processes that precede MSN dysfunction and motor symptom onset. Understanding the interplay between these processes is crucial to develop effective… Show more

“…CK2 is a serine/threonine protein kinase extensively studied in the context of cancer and inflammation [136,137] and it was first identified in relation to HD in studies using HEK293T cells co-expressing NMDA receptors (NR1 and NR2B) and human HTT-138Q where CK2 was seen to be upregulated [132]. This observation has since been validated in multiple HD models including striatal tissues from YAC72, YAC128, and zQ175 mice, in primary neurons from YAC mice, in immortalized STHdh Q111 cells, and in striatal tissues from patients with HD [132,138,139]. The study by Fan et al showed that pharmacological inhibition of CK2 exacerbated NMDA-mediated toxicity in YAC-derived neurons and proposed a protective role of CK2 in HD.…”

“…Recent studies in STHdh-Q111 cells using siRNA against different CK2 subunits showed that silencing the catalytic subunit CK2α', but not CK2α or CK2β, improved cellular toxicity [138]. Similarly, CK2α' genetic haploinsufficiency in zQ175 mice (zQ175:CK2α' (+/-) ) provided ample benefits in ameliorating several HD-like phenotypes suggesting that CK2α' plays a detrimental role in HD [138,139]. Unfortunately, these studies did not explore whether the benefits exerted by CK2α' in these various HD models had an impact on HTT phosphorylation.…”

“…A differential abundance between CK2 subunits in HD was first reported in YAC72 and YAC128 striatal tissues although their differential contribution to HD remained unknown [132]. Almost a decade later Gomez-Pastor et al showed that CK2α', but not CK2α or CK2, was specifically induced in HD cells and mouse models and in patients with HD, and that such induction played a detrimental role in HD [138,139]. Although, whether CK2α' plays a direct role in HTT phosphorylation still remains elusive, other roles for this kinase have been recently discovered in the context of HD.…”

Kinases and Their Potential as Therapeutic Targets in Huntington’s Disease

“…CK2 is a serine/threonine protein kinase extensively studied in the context of cancer and inflammation [136,137] and it was first identified in relation to HD in studies using HEK293T cells co-expressing NMDA receptors (NR1 and NR2B) and human HTT-138Q where CK2 was seen to be upregulated [132]. This observation has since been validated in multiple HD models including striatal tissues from YAC72, YAC128, and zQ175 mice, in primary neurons from YAC mice, in immortalized STHdh Q111 cells, and in striatal tissues from patients with HD [132,138,139]. The study by Fan et al showed that pharmacological inhibition of CK2 exacerbated NMDA-mediated toxicity in YAC-derived neurons and proposed a protective role of CK2 in HD.…”

“…Recent studies in STHdh-Q111 cells using siRNA against different CK2 subunits showed that silencing the catalytic subunit CK2α', but not CK2α or CK2β, improved cellular toxicity [138]. Similarly, CK2α' genetic haploinsufficiency in zQ175 mice (zQ175:CK2α' (+/-) ) provided ample benefits in ameliorating several HD-like phenotypes suggesting that CK2α' plays a detrimental role in HD [138,139]. Unfortunately, these studies did not explore whether the benefits exerted by CK2α' in these various HD models had an impact on HTT phosphorylation.…”

“…A differential abundance between CK2 subunits in HD was first reported in YAC72 and YAC128 striatal tissues although their differential contribution to HD remained unknown [132]. Almost a decade later Gomez-Pastor et al showed that CK2α', but not CK2α or CK2, was specifically induced in HD cells and mouse models and in patients with HD, and that such induction played a detrimental role in HD [138,139]. Although, whether CK2α' plays a direct role in HTT phosphorylation still remains elusive, other roles for this kinase have been recently discovered in the context of HD.…”

Kinases and Their Potential as Therapeutic Targets in Huntington’s Disease

“…Following publication of the original article [ 1 ], an error was identified in the corresponding authorship and equal contributions in the author group due to a typesetting mistake: the third author, Angel White, should have been indicated as equal contributor, instead of as corresponding author.…”

“…The author group has been updated above and the original article [ 1 ] has been corrected. The publisher apologises to the authors and readers for the inconvenience caused by the error.…”

Correction to: CK2 alpha prime and alpha-synuclein pathogenic functional interaction mediates synaptic dysregulation in Huntington’s disease

Tumor suppressor p53 regulates heat shock factor 1 protein degradation in Huntington’s disease