Abstract
Adenylyl cyclase 5 (ADCY5)-related phenotypes comprise an expanding disease continuum, but much remains to be understood about the underlying pathogenic mechanisms of the disease. ADCY5-related disease comprises a spectrum of hyperkinetic disorders involving chorea, myoclonus, and/or dystonia, often with paroxysmal exacerbations. Hypotonia, developmental delay, and intellectual disability may be present. The causative gene encodes adenylyl cyclase, the enzyme responsible for the conversion of adenosine triphosphate (ATP) to cyclic adenosine-3',5'-monophosphate (cAMP). cAMP is a second messenger that exerts a wide variety of effects via several intracellular signaling pathways. ADCY5 is the most commonly expressed isoform of adenylyl cyclase in medium spiny neurons (MSNs) of the striatum, and it integrates and controls dopaminergic signaling. Through cAMP pathway, ADCY5 is a key regulator of the cortical and thalamic signaling that control initiation of voluntary movements and prevention of involuntary movements. Gain-of-function mutations in ADCY5 have been recently linked to a rare genetic disorder called ADCY5-related dyskinesia, where dysregulation of the cAMP pathway leads to reduced inhibitory activity and involuntary hyperkinetic movements. Here, we present an update on the neurobiology of ADCY5, together with a detailed overview of the reported clinical phenotypes and genotypes. Although a range of therapeutic approaches has been trialed, there are currently no disease-modifying treatments. Improved in vitro and in vivo laboratory models will no doubt increase our understanding of the pathogenesis of this rare genetic movement disorder, which will improve diagnosis, and also facilitate the development of precision medicine approaches for this, and other forms of hyperkinesia. © 2021 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.
Highlights
Adenylyl cyclases (ACs) catalyze the conversion of adenosine triphosphate (ATP) to cAMP and pyrophosphate
The same Adenylyl cyclase 5 (ADCY5) knock-out mouse was used to study ageing and longevity, showing that ADCY5 disruption increases lifespan by 30% through oxidative stress protection.[37,38]
Patient-derived medium spiny neurons (MSNs) represent an unprecedented humanized tool to decipher the exact pathogenesis of ADCY5-related dyskinesia and identify potential drug targets for pre-clinical and clinical studies
Summary
NM_183357.2 NM_183357.2 NM_183357.2 NM_183357.2 NM_183357.2 NM_183357.2 c.2180G > A c.1196C > T c.1400A > G c.3177_ 3182delTGA c.3625A > G c.3045C > A p.R727K p.P399L p.N467S p.D1060del p.M1209V p.D1015E. Familial dyskinesia with facial myokymia (FDFM), dystonic movements of neck and arms, perioral and periorbital twitches. Axial hypotonia with dystonia Delayed motor and speech milestones Spastic paraparesis with hyperreflexia, hypertonia in the legs, and extensor plantar reflexes. Limbs and trunk Profound axial and appendicular hypotonia with no dystonia or myoclonus Significantly delayed cognitive function Orolingual dyskenesia Severe dystonia, hypotonia, chorea Mild cognitive impairment Familial dyskinesia with facial myokymia (FDFM) N/A
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