Publications by authors named "Chaseley E McKenzie"

We used voltage clamp fluorometry to probe the movement of the S4 helix in the voltage-sensing domain of the sea urchin HCN channel (spHCN) expressed in Xenopus oocytes. We obtained markedly different fluorescence responses with either ALEXA-488 or MTS-TAMRA covalently linked to N-terminal Cys332 of the S4 helix. With hyperpolarizing steps, ALEXA-488 fluorescence increased rapidly, consistent with it reporting the initial inward movement of S4, as previously described.

View Article and Find Full Text PDF
Article Synopsis
  • HCN gated channels play a vital role in brain functions like learning and sensory processing, and their dysfunction is linked to brain disorders, particularly epilepsy.
  • The study identifies 21 individuals with genetic variations associated with developmental delays, intellectual disabilities, and epilepsy, expanding our understanding of related disorders.
  • Functional tests on specific variants revealed that some mutations significantly increased HCN2 channel conductance, while others caused loss of function and impaired channel trafficking, suggesting diverse impacts of these variants on brain function.
View Article and Find Full Text PDF

Org 34167 is a small molecule hyperpolarization-activated cyclic nucleotide-gated (HCN) channel modulator that has been trialed in humans for its potential antidepressant activity. The precise action of Org 34167 is not fully understood. Here we use two-electrode voltage clamp recordings and an allosteric model to explore the interaction of Org 34167 with human HCN1 channels.

View Article and Find Full Text PDF

Pathogenic variants in are an established cause of developmental and epileptic encephalopathy (DEE). To date, the stratification of patients with -DEE based on the biophysical consequence on channel function of a given variant has not been possible. Here, we analysed data from eleven patients carrying seven different pathogenic variants located in the transmembrane domains of the protein.

View Article and Find Full Text PDF

Changes in Hyperpolarization-Activated Cyclic Nucleotide-Gated (HCN) channel function have been linked to depressive-like traits, making them potential drug targets. However, there is currently no peer-reviewed data supporting the use of a small molecule modulator of HCN channels in depression treatment. Org 34167, a benzisoxazole derivative, has been patented for the treatment of depression and progressed to Phase I trials.

View Article and Find Full Text PDF
Article Synopsis
  • Pathogenic variants in HCN1 are linked to various epilepsy syndromes and are known to cause a cation leak, leading to increased excitability during seizures.
  • Research using Hcn1 mice showed significant reductions in visual function, as evidenced by decreased photoreceptor sensitivity and altered responses in electroretinogram (ERG) tests.
  • The study suggests that HCN1 channels are crucial for retinal function, influencing light sensitivity and response dynamics, which could explain visual impairment in patients with these genetic variants.
View Article and Find Full Text PDF

Acquisition of drug-sensitivity profiles is challenging in rare epilepsies. Anecdotal evidence suggests that antiseizure medications that block sodium channels as their primary mechanism of action exacerbate seizures in HCN1 developmental and epileptic encephalopathies (DEEs), whereas sodium valproate is effective for some patients. The Hcn1 M294L heterozygous knock-in (Hcn1 ) mouse carries the homologue of the recurrent gain-of-function HCN1 M305L pathogenic variant and recapitulates the seizure and some behavioral phenotypes observed in patients.

View Article and Find Full Text PDF

Variants in are associated with a range of epilepsy syndromes including developmental and epileptic encephalopathies. Here we describe a child harboring a novel variant, E246A, in a child with epilepsy and mild developmental delay. By parental report, the child had difficulty in discriminating between colors implicating a visual deficit.

View Article and Find Full Text PDF

Hyperpolarization-gated, cyclic nucleotide-activated (HCN1-4) channels are inwardly rectifying cation channels that display voltage dependent activation and de-activation. Pathogenic variants in HCN1 are associated with severe developmental and epileptic encephalopathies including the de novo HCN1 M305L variant. M305 is located in the S5 domain that is implicated in coupling voltage sensor domain movement to pore opening.

View Article and Find Full Text PDF

Objective: To compare the frequency and impact on the channel function of KCNH2 variants in SUDEP patients with epilepsy controls comprising patients older than 50 years, a group with low SUDEP risk, and establish loss-of-function KCNH2 variants as predictive biomarkers of SUDEP risk.

Methods: We searched for KCNH2 variants with a minor allele frequency of <5%. Functional analysis in Xenopus laevis oocytes was performed for all KCNH2 variants identified.

View Article and Find Full Text PDF

Pathogenic variants in HCN1 are associated with developmental and epileptic encephalopathies. The recurrent de novo HCN1 M305L pathogenic variant is associated with severe developmental impairment and drug-resistant epilepsy. We engineered the homologue Hcn1 M294L heterozygous knock-in (Hcn1M294L) mouse to explore the disease mechanism underlying an HCN1 developmental and epileptic encephalopathy.

View Article and Find Full Text PDF