Your search keyword '"KCNV2"' showing total 24 results

1. Novel and Previously Known Mutations of the KCNV2 Gene Cause Various Variants of the Clinical Course of Cone Dystrophy with Supernormal Rod Response in Children.

Author

Alsalloum, Almaqdad, Mosin, Ilya, Shefer, Kristina, Mingaleva, Natalia, Kim, Alexander, Feoktistova, Sofya, Malyugin, Boris, Boiko, Ernest, Sultanov, Shamil, Mityaeva, Olga, and Volchkov, Pavel

Subjects

*RETINAL degeneration, *RETINAL diseases, *GENETIC testing, *GENETIC variation, *OPTICAL coherence tomography, *CORNEAL dystrophies

Abstract

Background/Objectives: Cone dystrophy with supernormal rod response (CDSRR) is a rare autosomal recessive retinal disorder characterized by a delayed and markedly decreased photoreceptor response. In this article, we aim to describe the clinical course and associated molecular findings in children with cone dystrophy with supernormal rod response associated with recessive mutations in the KCNV2 gene, which encodes a subunit (Kv8.2) of the voltage-gated potassium channel. Methods: The genetic testing of two patients included the next-generation sequencing of a retinal dystrophy panel and direct Sanger sequencing to confirm KCNV2 gene variants, in addition to an electroretinogram (ERG) and spectral domain optical coherence tomography (SD-OCT). Results: Cone dystrophy with supernormal rod response is associated with identified variants in the KCNV2 gene. The genetic analysis of the first case identified a compound heterozygous mutation in the KCNV2 gene, including a de novo nonsense duplication at cDNA position 1109, which led to the premature termination of the p.Lys371Ter codon in the second extracellular domain of the protein. Two patients showed changes in the full-field electroretinogram, especially in the first case, which demonstrated a close to supernormal total electroretinogram amplitude. This study increased the range of the KCNV2 mutation database, added an unreported de novo substitution pattern to KCNV2 gene variants, and linked it to the evaluated clinical studies. Conclusions: The initial clinical manifestations were varied, but both patients presented with hypermetropia and slight exotropia. The ERG findings are characteristic of KCNV2 mutations, and patients exhibited an increased b-wave latency in DA3.0 ERG (combined rod–cone response). [ABSTRACT FROM AUTHOR]

Published

2024

2. Natural history and biomarkers of KCNV2‐associated retinopathy.

Author

Sakti, Dhimas H., Cornish, Elisa E., Ali, Haipha, Retsas, Stephanie, Raza, Marium, Saakova, Nonna, Carvalho, Livia S., Nash, Benjamin M., Jamieson, Robyn V., and Grigg, John R.

Subjects

*NATURAL history, *RETINAL degeneration, *BIOMARKERS, *OPTICAL coherence tomography, *RETINAL diseases

Abstract

Background: KCNV2‐associated retinopathy is an autosomal recessive inherited retinal disease classically named cone dystrophy with supernormal rod response (CDSRR). This study aims to identify the best biomarker for evaluating the condition. Methods: A retrospective review of eight patients from seven families with genetically confirmed KCNV2‐associated retinopathy was performed. The best corrected visual acuity (BCVA), full‐field electroretinogram (ffERG), pattern ERG (pERG), fundus imaging: retinal photograph and fundus autofluorescence (FAF), and optical coherence tomography (OCT) were analysed. Results: There was a disproportionate increase in b‐wave amplitude with a relatively small light intensity increase, especially between the two dimmest stimuli of DA 0.002 and 0.01 (−2.7 and −2.0 log cd.s/m2). The a‐wave amplitude was normal. The a‐wave peak time was delayed in all stimuli. The b‐wave peak time was delayed compared to normal, but the gap tightened as intensity increased. The b:a wave ratio was above or at the upper limit for the reference values. FAF bull's eye maculopathy pattern was prominent and variable foveal disruption on OCT was apparent in all patients. Legal blindness was reached before the age of 25. Conclusions: We identified three potential electrophysiology biomarkers to assist in evaluating future therapies: the disproportionate b‐wave amplitude jump, delayed a‐wave and b‐wave peak time, and the higher than normal b:a wave ratio. Any of these biomarkers found with photoreceptor ellipsoid zone foveal‐perifoveal disruption should prompt consideration for KCNV2 retinopathy. The BCVA natural history data suggests the probable optimum therapeutic window in the first three decades of life. [ABSTRACT FROM AUTHOR]

Published

2024

3. Clinical course of two siblings with potassium voltage-gated channel modifier subfamily V member 2 (KCNV2)-associated retinopathy.

Author

Sato, Tomoko, Kuniyoshi, Kazuki, Hayashi, Takaaki, Nishiwaki, Hirokazu, Mizobuchi, Kei, and Kusaka, Shunji

Abstract

Background: KCNV2-associated retinopathy causes a phenotype reported as "cone dystrophy with nyctalopia and supernormal rod responses (CDSRR; OMIM# 610356)," featuring pathognomonic findings on electroretinography (ERG). Here, we report the clinical courses of two siblings with CDSRR. Case reports: Patient 1: A 3-year-old boy with intermittent exophoria was referred to our hospital. The patient's decimal best-corrected visual acuity (BCVA) at age 6 was 0.7 and 0.7 in the right and left eyes, respectively. Photophobia and night blindness were also observed. Because the ERG showed a delayed and supernormal b-wave with a "squaring (trough-flattened)" a-wave in the DA-30 ERG, and CDSRR was diagnosed. The patient's vision gradually worsened, and faint bilateral bull's eye maculopathy was observed at the age of 27 years, although the fundi were initially unremarkable. Genetic examination revealed a homozygous missense variant, c.529T > C (p.Cys177Arg), in the KCNV2 gene. Patient 2: The second patient was Patient 1's younger sister, who was brought to our hospital at 3 years of age. The patient presented with exotropia, mild nystagmus, photophobia, night blindness, and color vision abnormalities. The patients' decimal BCVA at age 13 was 0.6 and 0.4 in the right and left eyes, respectively, and BCVA gradually decreased until the age of 24 years. The fundi were unremarkable. The siblings had similar ERG findings and the same homozygous missense variant in the KCNV2 gene. Conclusions: The siblings had clinical findings typical of CDSRR. High-intense flash ERG is recommended for identifying pathognomonic "squaring" a-waves in patients with CDSRR. [ABSTRACT FROM AUTHOR]

Published

2024

4. Fundus autofluorescence, optical coherence tomography and electroretinography abnormalities in a patient with digoxin retinopathy that resemble those in KCNV2-associated retinopathy.

Author

Nagae, Yuki, Kuniyoshi, Kazuki, Ishibashi, Marika, Tanabe, Fumi, Matsumoto, Chota, and Kusaka, Shunji

Abstract

Background: Digoxin related retinal toxicity causes blurred vision, photophobia, central scotoma, color vision abnormality, and electroretinography (ERG) abnormalities. Here, we report a case with transient abnormalities in vison, in which fundus autofluorescence (FAF), optical coherence tomography (OCT), and ERG findings resembled those in KCNV2 (potassium voltage-gated channel modifier subfamily V member 2)-associated retinopathy. Case report: An 89-year-old woman presented with complaints of acute blurred vision, nyctalopia, photophobia, and color vision abnormality. She received digoxin for tachycardia induced by atrial fibrillation for a month. The fundi showed a faint white ring at the fovea, which showed hyperfluorescence in FAF. OCT showed a thickened EZ in the macula. A dark-adapted (DA)-30 ERG showed a reduced and "squaring (trough-flattened)" a-wave, and a delayed, supernormal b-wave, resulting in a high b/a-wave amplitude ratio. The digoxin dose was reduced following an elevation in serum levels. Five weeks later, her visual acuities improved, and abnormal hyperfluorescence on FAF disappeared. After 6 months, no visual symptoms were reported. The ellipsoid-zone thickening in OCT improved; however, the b/a-wave amplitude ratio on DA-30 ERG remained high. The b-wave in LA-long-flash ERG was initially reduced, which improved after correction of serum level of digoxin. Conclusions: The patient's clinical findings resembled those of patients with KCNV2-associated retinopathy or temporal hyperkalemia. These disorders appear to have a common pathogenesis, which may be related to abnormal extracellular potassium levels in the retina. The on-bipolar cells seemed to be more affected than the off-bipolar cells in digoxin related retinal toxicity. [ABSTRACT FROM AUTHOR]

Published

2023

5. Structural and functional characterization of an individual with the M285R KCNV2 hypomorphic allele.

Author

de Guimaraes TAC, Lai F, Colombatti R, Sato G, Rizzo R, Kalitzeos A, and Michaelides M

Subjects

Humans, Male, Adolescent, Potassium Channels, Voltage-Gated genetics, Ophthalmoscopy, Visual Acuity physiology, Cone-Rod Dystrophies genetics, Cone-Rod Dystrophies physiopathology, Cone-Rod Dystrophies diagnosis, Electroretinography, Tomography, Optical Coherence, Alleles

Abstract

Background: Disease-causing variants in the KCNV2 gene are associated with "cone dystrophy with supernormal rod responses," a rare autosomal recessive retinal dystrophy. There is no previous report of hypomorphic variants in the disease., Material and Methods: Medical history, genetic testing, ocular examination, high-resolution retinal imaging including adaptive optics scanning light ophthalmoscopy (AOSLO), and functional assessments., Results: A 16-year-old male with mild cone-rod dystrophy presented with reduced central vision and photophobia. Genetic testing showed two variants in KCNV2 , c.614_617dupAGCG (p.207AlafsTer166) and c.854T>G (p.Met285Arg), the latter which was previously considered benign. Electrophysiological assessment revealed the pathognomic electroretinogram waveforms associated with KCNV2 -retinopathy. Optical coherence tomography showed discrete focal ellipsoid zone disruption, while fundus autofluorescence was normal. Non-waveguiding cones corresponding to areas of loss of photoreceptor integrity were visible on adaptive optics scanning light ophthalmoscopy. Retinal sensitivity and fixation were relatively preserved, with a demonstrable deterioration after 14 months of follow-up., Conclusions: We provide functional and structural evidence that the variant M285R is disease-causing if associated with a loss-of-function variant. To the best of our knowledge, this is the first hypomorphic allele reported in KCNV2 .

Published

2024

6. Compound heterozygous KCNV2 variants contribute to cone dystrophy with supernormal rod responses in a Chinese family.

Author

Liu, Man, Zhu, Yingchuan, Huang, Lian, Jiang, Wenhao, Wu, Na, Song, Yue, Lu, Yilu, and Ma, Yongxin

Subjects

*GENETIC variation, *DYSTROPHY, *PHENOTYPES, *PROTEIN expression

Abstract

Background: Cone dystrophy with supernormal rod response (CDSRR) is an autosomal recessive retinal disorder characterized by myopia, dyschromatopsia, nyctalopia, photophobia, and nystagmus. CDSRR is caused by mutations in KCNV2, the gene encoding for an electrically silent Kv subunit (Kvs) named Kv8.2. Methods: A Chinese CDSRR family was recruited. Complete ophthalmology clinical examinations were performed to clarify the phenotype. Genetic examination was underwent using whole exome sequencing (WES). In addition, a candidate gene was validated by Sanger sequencing. Expression analysis in vitro including immunoblotting, quantitative real‐time PCR (qRT‐PCR), and co‐immunoprecipitation experiments was performed to investigate the pathogenic mechanism of the identified gene variants. Results: WES identified two KCNV2 heterozygous mutations from the proband. Sanger sequencing validated that the patient's parents had, respectively, carried those two mutations. Further in vitro functional experiments indicated that the mutated alleles had led the Kv8.2 proteins to fail in expressing and interacting with the Kv2.1 protein, respectively. Conclusions: This study expanded the KCNV2 mutation spectrum. It can also be deduced that CDSRR has a broad heterogeneity. It is further confirmed that the inability expression of Kv8.2 proteins and the failure of Kv8.2 proteins to interact with Kv2.1 may have accounted for the etiology of CDSRR based on previous studies and this study. [ABSTRACT FROM AUTHOR]

Published

2021

7. The role of voltage-gated ion channels in visual function and disease in mammalian photoreceptors.

Author

Rashwan, Rabab, Hunt, David M., and Carvalho, Livia S.

Subjects

*VOLTAGE-gated ion channels, *PHOTORECEPTORS, *ION channels, *MEMBRANE potential, *CALCIUM channels, *LABORATORY mice, *VISION disorders

Abstract

Light activation of the classical light-sensing retinal neurons, the photoreceptors, results in a graded change in membrane potential that ultimately leads to a reduction in neurotransmitter release to the post-synaptic retinal neurons. Photoreceptors show striking powers of adaptation, and for visual processing to function optimally, they must adjust their gain to remain responsive to different levels of ambient light intensity. The presence of a tightly controlled balance of inward and outward currents modulated by several different types of ion channels is what gives photoreceptors their remarkably dynamic operating range. Part of the resetting and modulation of this operating range is controlled by potassium and calcium voltage-gated channels, which are involved in setting the dark resting potential and synapse signal processing, respectively. Their essential contribution to visual processing is further confirmed in patients suffering from cone dystrophy with supernormal rod response (CDSRR) and congenital stationary night blindness type 2 (CSNB2), both conditions that lead to irreversible vision loss. This review will discuss these two types of voltage-gated ion channels present in photoreceptors, focussing on their structure and physiology, and their role in visual processing. It will also discuss the use and benefits of knockout mouse models to further study the function of these channels and what routes to potential treatments could be applied for CDSRR and CSNB2. [ABSTRACT FROM AUTHOR]

Published

2021

8. Compound heterozygous KCNV2 variants contribute to cone dystrophy with supernormal rod responses in a Chinese family

Author

Man Liu, Yingchuan Zhu, Lian Huang, Wenhao Jiang, Na Wu, Yue Song, Yilu Lu, and Yongxin Ma

Subjects

compound heterozygous mutations, cone dystrophy with supernormal rod response, exome sequence, KCNV2, Genetics, QH426-470

Abstract

Abstract Background Cone dystrophy with supernormal rod response (CDSRR) is an autosomal recessive retinal disorder characterized by myopia, dyschromatopsia, nyctalopia, photophobia, and nystagmus. CDSRR is caused by mutations in KCNV2, the gene encoding for an electrically silent Kv subunit (Kvs) named Kv8.2. Methods A Chinese CDSRR family was recruited. Complete ophthalmology clinical examinations were performed to clarify the phenotype. Genetic examination was underwent using whole exome sequencing (WES). In addition, a candidate gene was validated by Sanger sequencing. Expression analysis in vitro including immunoblotting, quantitative real‐time PCR (qRT‐PCR), and co‐immunoprecipitation experiments was performed to investigate the pathogenic mechanism of the identified gene variants. Results WES identified two KCNV2 heterozygous mutations from the proband. Sanger sequencing validated that the patient's parents had, respectively, carried those two mutations. Further in vitro functional experiments indicated that the mutated alleles had led the Kv8.2 proteins to fail in expressing and interacting with the Kv2.1 protein, respectively. Conclusions This study expanded the KCNV2 mutation spectrum. It can also be deduced that CDSRR has a broad heterogeneity. It is further confirmed that the inability expression of Kv8.2 proteins and the failure of Kv8.2 proteins to interact with Kv2.1 may have accounted for the etiology of CDSRR based on previous studies and this study.

Published

2021

9. KCNV2

Author

Zahid, Sarwar, Branham, Kari, Schlegel, Dana, Pennesi, Mark E., Michaelides, Michel, Heckenlively, John, Jayasundera, Thiran, Zahid, Sarwar, Branham, Kari, Schlegel, Dana, Pennesi, Mark E., Michaelides, Michel, Heckenlively, John, and Jayasundera, Thiran

Published

2018

10. Pseudodominance in two families with KCNV2 related retinopathy

Author

Gulunay Kiray, Micah Rapata, Dianne Sharp, and Andrea L. Vincent

Subjects

Cone dystrophy, Electrophysiology, Genetics, KCNV2, Mutation, Ophthalmology, RE1-994

Abstract

Purpose: To describe the phenotypic and genotypic characteristics of two families with cone dystrophy with supernormal rod responses (CDSRR) presenting with a pseudodominant inheritance of disease. Observations: Three affected members from each family were ascertained. Family 1 of Egyptian ancestry showed consanguinity, and Family 2 was of Northern Iraqi ancestry. Both families showed pseudodominance in their pedigrees.Individuals presented with reduced visual acuity and nyctalopia. Macular disturbances were present in all, varying from a decreased foveal reflex to geographic atrophy. Electrophysiology showed reduced scotopic b-wave amplitudes and prolonged implicit times, and characteristic elevated b-wave amplitudes with high intensity flashes in all individuals.Genetic analysis of Family 1 identified a complete homozygous deletion of the KCNV2 gene, and in Family 2 a homozygous missense variation of c.562T > A: p.(Trp188Arg). Conclusions and importance: To our knowledge this is the first report of pseudodominance of CDSRR, with a novel pathogenic KCNV2 variant present in the second family. Clinicians evaluating these individuals should consider autosomal recessive disease manifesting as pseudodominant inheritance. In such cases, electrophysiology remains essential for making a definitive diagnosis.

Published

2020

11. Analysis of retinal structure and function in cone dystrophy with supernormal rod response.

Author

Abdelkader, Ehab, Yasir, Z. H., Khan, Abdullah M., Raddadi, Osama, Khandekar, Rajiv, Alateeq, Nayef, Nowilaty, Sawsan, AlShahrani, Najah, and Schatz, Patrik

Abstract

Purpose: To report the clinical and electrophysiological features of cone dystrophy with supernormal rod response (CDSRR). Methods: Retrospective cohort study of 15 unrelated patients (nine males and six females, median age 16, range 5–47 years) diagnosed with CDSRR by clinical examination, full-field electroretinography (ERG) and genetic testing. Observations: History, ophthalmic examination including near vision, color vision and contrast sensitivity assessment, multimodal retinal imaging and ERG. Genetic testing was done for all patients using next-generation sequencing. Results: The rate of consanguinity was 86.7%. Color vision was defective in 56.3%. Near vision was defective in all patients (mean 20/160). Contrast sensitivity was affected in all patients at low contrast of 2.5%. A parafoveal ring of increased autofluorescence imaging was seen in most patients (75%). Supernormal mixed maximal response b-wave was seen bilaterally in 63% of patients (and high normal in 37%). Rod dysfunction with prolonged rod b-wave latency was detected in all. The 30-Hz flicker response was more reduced and delayed compared to the single-flash cone response. A novel homozygous missense variant c.530G>C (p.Cys177Ser) in KCNV2 was detected in one patient, the nonsense homozygous mutation c.427G>T (p.Glu143*) was found in 13 patients, and the nonsense c.159C>G (p.Tyr53*) was found in one patient. Conclusion: This is the largest cohort of CDSRR from a single ethnic background. Rod dysfunction and reduced 30-Hz flicker response were demonstrated in all patients. In contrast to previous descriptions in the literature, a supernormal combined dark-adapted rod-cone ERG was present in the majority of the patients at standard stimulus intensity. Considering the consistent genotype and the demonstration of likely pathogenic genetic variants in all the patients, we argue that the combination of delayed rod b-wave and subnormal flicker response strongly suggests the diagnosis of CDSRR. [ABSTRACT FROM AUTHOR]

Published

2020

12. Two-color pupillometry in KCNV2 retinopathy.

Author

Collison, Frederick T., Park, Jason C., Fishman, Gerald A., Stone, Edwin M., and McAnany, J. Jason

Abstract

Purpose: To investigate receptor and post-receptor function in KCNV2 retinopathy [cone dystrophy with supernormal rod electroretinogram (ERG)], using the pupillary light reflex (PLR) and the ERG. Methods: Two unrelated patients (1 male and 1 female) with molecularly confirmed KCNV2 retinopathy underwent full-field two-color pupillometry testing in one eye, with monitoring of the stimulated eye by an infrared digital camera. Pupillometry stimuli consisted of 1-s duration, short-wavelength (465-nm, blue) and long-wavelength (642-nm, red) stimuli. Pupillometry intensity series were performed under both a dark-adapted condition and a light-adapted condition (on a 0.76-log cd m−2 blue background). The transient PLR, defined as the maximum constriction following flash onset, was measured under all conditions. The melanopsin-mediated sustained constriction was measured 5–7 s following flash offset for the highest flash luminance presented in the dark. Both patients were also tested in one eye with the full-field ERG, including a dark-adapted intensity series and ISCEV standard stimuli. Results: Dark-adapted PLRs were markedly attenuated or extinguished for low-luminance stimuli, but the responses to higher-luminance blue stimuli were within normal limits. Light-adapted PLRs to blue stimuli were generally within normal limits, exceeding the responses to photopically matched red stimuli. Thus, light-adapted responses were consistent with either rod or S-cone mediation of the PLR. Melanopsin-mediated sustained PLRs were within normal limits. ERG showed the characteristic findings previously reported in this condition. Cone-mediated ERG responses were markedly decreased in amplitude. Rod-mediated ERG responses were absent for low-luminance stimuli (− 3 log cd s m−2), but had normal amplitude for stimuli of − 2 log cd s m−2 and above (although none were "supernormal"). The b-wave for the dark-adapted ISCEV standard − 2 log cd s m−2 stimulus was markedly delayed, whereas the b-wave timing was generally normal for higher flash luminances. Conclusions: The abnormalities measured by pupillometry have a similar pattern to the outer-retinal abnormalities measured by ERG in KCNV2 retinopathy. These findings as well as the normal sustained PLR suggest that inner-retinal function may be preserved in KCNV2 retinopathy and highlight the potential for therapies designed to restore outer-retinal function in these individuals. [ABSTRACT FROM AUTHOR]

Published

2019

13. Novel biallelic loss-of-function KCNV2 variants in cone dystrophy with supernormal rod responses.

Author

Kutsuma, Tomoko, Katagiri, Satoshi, Hayashi, Takaaki, Yoshitake, Kazutoshi, Iejima, Daisuke, Gekka, Tamaki, Kohzaki, Kenichi, Mizobuchi, Kei, Baba, Yukari, Terauchi, Ryo, Matsuura, Tomokazu, Ueno, Shinji, Iwata, Takeshi, and Nakano, Tadashi

Abstract

Purpose: To report clinical and genetic features including long-term full-field electroretinography (FF-ERG) findings of a patient with cone dystrophy with supernormal rod responses (CDSRR). Methods: Ophthalmological medical records including FF-ERG were retrospectively reviewed. Genetic analysis using whole-exome sequencing (WES) was performed. Identified KCNV2 variants were confirmed by Sanger sequencing. Results: A 30-year-old female patient was referred to our hospital for assessment of decreased vision from childhood. Funduscopy showed macular atrophy in both eyes. FF-ERG showed decreased amplitudes and delayed peak time of b-waves for dark-adapted (DA) 0.01 ERG, increased b/a-wave ratio with a slightly diminished a-wave for DA 3.0 and DA 25.7 ERG, residual a-waves and almost extinguished b-waves for light-adapted (LA) 3.0 ERG, and extremely diminished amplitudes in LA 30-Hz flicker responses. At 45 years of age, funduscopy showed progressive macular atrophy, whereas the responses for her FF-ERG remained unchanged compared to those observed at 30 years of age. WES identified the compound heterozygous KCNV2 variants (p.W67X and p.D174GfsX198) in the patient. These variants have previously been unreported as pathogenic variants. Each parent had one of the variants. Subsequently, the patient was finally diagnosed with CDSRR with the novel compound heterozygous KCNV2 variants. Conclusions: Biallelic loss-of-function KCNV2 variants (p.W67X and p.D174GfsX198) were identified as the cause of CDSRR. Long-term FF-ERG findings demonstrated there were no ERG changes during 15 years of observation, indicating that there was no evidence of progressive peripheral retinal dysfunction, in spite of worsening macular atrophy. [ABSTRACT FROM AUTHOR]

Published

2019

14. Compound heterozygous KCNV2 variants contribute to cone dystrophy with supernormal rod responses in a Chinese family

Author

Na Wu, Yingchuan Zhu, Yilu Lu, Wenhao Jiang, Yue Song, Lian Huang, Man Liu, and Yongxin Ma

Subjects

Adult, Male, Proband, China, Heterozygote, Candidate gene, Cone dystrophy with supernormal rod response, DNA Mutational Analysis, KCNV2, QH426-470, Biology, medicine.disease_cause, Compound heterozygosity, symbols.namesake, cone dystrophy with supernormal rod response, Cone dystrophy, Retinal Rod Photoreceptor Cells, Exome Sequencing, Genetics, medicine, Humans, Family, Genetic Predisposition to Disease, Cone Dystrophy, Genetic Testing, Molecular Biology, Genetic Association Studies, Genetics (clinical), Exome sequencing, Sanger sequencing, Mutation, Vision Tests, Optical Imaging, Original Articles, exome sequence, medicine.disease, compound heterozygous mutations, Pedigree, Phenotype, Potassium Channels, Voltage-Gated, symbols, Original Article, Tomography, Optical Coherence

Abstract

Background Cone dystrophy with supernormal rod response (CDSRR) is an autosomal recessive retinal disorder characterized by myopia, dyschromatopsia, nyctalopia, photophobia, and nystagmus. CDSRR is caused by mutations in KCNV2, the gene encoding for an electrically silent Kv subunit (Kvs) named Kv8.2. Methods A Chinese CDSRR family was recruited. Complete ophthalmology clinical examinations were performed to clarify the phenotype. Genetic examination was underwent using whole exome sequencing (WES). In addition, a candidate gene was validated by Sanger sequencing. Expression analysis in vitro including immunoblotting, quantitative real‐time PCR (qRT‐PCR), and co‐immunoprecipitation experiments was performed to investigate the pathogenic mechanism of the identified gene variants. Results WES identified two KCNV2 heterozygous mutations from the proband. Sanger sequencing validated that the patient's parents had, respectively, carried those two mutations. Further in vitro functional experiments indicated that the mutated alleles had led the Kv8.2 proteins to fail in expressing and interacting with the Kv2.1 protein, respectively. Conclusions This study expanded the KCNV2 mutation spectrum. It can also be deduced that CDSRR has a broad heterogeneity. It is further confirmed that the inability expression of Kv8.2 proteins and the failure of Kv8.2 proteins to interact with Kv2.1 may have accounted for the etiology of CDSRR based on previous studies and this study., Compound heterozygous variations (c.731G>C and c.280dup) were revealed in the KCNV2 gene of a male with CDSRR. Functional analysis had confirmed that c.280dup may led to non‐sensed mRNA decay (NMD), which in turn makes the protein unable to express. In addition, it is also approved that the c.731G>C mutation, in which the Kv2.1 protein failed to interact with Kv8.2 proteins. For the etiology of CDSRR, our study suggested that the inability expression of Kv8.2 proteins along with the failure of interactions between the Kv2.1 protein and the Kv8.2 proteins may account for the occurrence of the CDSRR.

Published

2021

15. Molecular, Cellular and Functional Changes in the Retinas of Young Adult Mice Lacking the Voltage-Gated K+ Channel Subunits Kv8.2 and K2.1

Author

Jeanne M. Nerbonne, Livia S. Carvalho, Xiaotian Jiang, David M. Hunt, Valentina Voigt, and Rabab Rashwan

Subjects

0301 basic medicine, Retinal degeneration, Aging, chemistry.chemical_compound, 0302 clinical medicine, Shab Potassium Channels, CDSRR, cone-rod dystrophy, Gliosis, Biology (General), Spectroscopy, KCNB1, Mice, Knockout, Cell Death, photoreceptors, General Medicine, Voltage-gated potassium channel, Computer Science Applications, Cell biology, Chemistry, medicine.anatomical_structure, Potassium Channels, Voltage-Gated, Microglia, Erg, Cone dystrophy with supernormal rod response, QH301-705.5, Protein subunit, KCNV2, Biology, Catalysis, Article, Retina, Inorganic Chemistry, 03 medical and health sciences, voltage-gated potassium channels, medicine, Electroretinography, Animals, Physical and Theoretical Chemistry, Molecular Biology, QD1-999, Night Vision, Voltage-gated ion channel, Organic Chemistry, Immunity, Retinal, medicine.disease, Protein Subunits, 030104 developmental biology, chemistry, 030221 ophthalmology & optometry, retinal degeneration, sense organs

Abstract

Cone Dystrophy with Supernormal Rod Response (CDSRR) is a rare autosomal recessive disorder leading to severe visual impairment in humans, but little is known about its unique pathophysiology. We have previously shown that CDSRR is caused by mutations in the KCNV2 (Potassium Voltage-Gated Channel Modifier Subfamily V Member 2) gene encoding the Kv8.2 subunit, a modulatory subunit of voltage-gated potassium (Kv) channels. In a recent study, we validated a novel mouse model of Kv8.2 deficiency at a late stage of the disease and showed that it replicates the human electroretinogram (ERG) phenotype. In this current study, we focused our investigation on young adult retinas to look for early markers of disease and evaluate their effect on retinal morphology, electrophysiology and immune response in both the Kv8.2 knockout (KO) mouse and in the Kv2.1 KO mouse, the obligate partner of Kv8.2 in functional retinal Kv channels. By evaluating the severity of retinal dystrophy in these KO models, we demonstrated that retinas of Kv KO mice have significantly higher apoptotic cells, a thinner outer nuclear cell layer and increased activated microglia cells in the subretinal space. Our results indicate that in the murine retina, the loss of Kv8.2 subunits contributes to early cellular and physiological changes leading to retinal dysfunction. These results could have potential implications in the early management of CDSRR despite its relatively nonprogressive nature in humans.

Published

2021

16. A reinterpretation of critical flicker-frequency (CFF) data reveals key details about light adaptation and normal and abnormal visual processing.

Author

Rider, Andrew T., Henning, G. Bruce, and Stockman, Andrew

Subjects

*LIGHT intensity, *PHYSIOLOGY

Abstract

Our ability to see flicker has an upper frequency limit above which flicker is invisible, known as the "critical flicker frequency" (CFF), that typically grows with light intensity (I). The relation between CFF and I, the focus of nearly 200 years of research, is roughly logarithmic, i.e., CFF ∝ log(I)-a relation called the Ferry-Porter law. However, why this law should occur, and how it relates to the underlying physiology, have never been adequately explained. Over the past two decades we have measured CFF in normal observers and in patients with retinal gene defects. Here, we reanalyse and model our data and historical CFF data. Remarkably, CFF-versus-I functions measured under a wide range of conditions in patients and in normal observers all have broadly similar shapes when plotted in double-logarithmic coordinates, i.e., log (CFF)-versus-log(I). Thus, the entire dataset can be characterised by horizontal and vertical logarithmic shifts of a fixed-shape template. Shape invariance can be predicted by a simple model of visual processing built from a sequence of low-pass filters, subtractive feedforward stages and gain adjustment (Rider, Henning & Stockman, 2019). It depends primarily on the numbers of visual processing stages that approach their power-law region at a given intensity and a frequency-independent gain reduction at higher light levels. Counter-intuitively, the CFF-versus-I relation depends primarily on the gain of the visual response rather than its speed-a conclusion that changes our understanding and interpretation of human flicker perception. The Ferry-Porter "law" is merely an approximation of the shape-invariant template. [ABSTRACT FROM AUTHOR]

Published

2022

17. Cone dystrophy with supernormal rod responses: A rare KCNV2 gene variant.

Author

Esteves-Leandro J, Torres-Costa S, Estrela-Silva S, Santos-Silva R, Brandão E, Grangeia A, Fernandes S, Oliveira R, Falcão-Reis F, and Rocha-Sousa A

Subjects

Electroretinography, Humans, Portugal, Retrospective Studies, Tomography, Optical Coherence, Cone Dystrophy, Potassium Channels, Voltage-Gated genetics, Retinitis Pigmentosa

Abstract

Purpose: To describe the clinical, electrophysiological, and genetic findings of three Portuguese families with a rare variant in the KCNV2 gene resulting in "cone dystrophy with supernormal rod responses" (CDSRR)., Methods: Retrospective clinical revision of five individuals from three unrelated families with CDSRR. Ophthalmological examination was described in all patients and included color vision testing, fundus photography, fundus autofluorescence (FAF) imaging, spectral domain-optical coherence tomography (SD-OCT), pattern electroretinogram (ERG), and full-field ERG. The mutational screening of the KCNV2 gene was performed with Sanger and Next Generation Sequencing., Results: All patients showed childhood-onset photophobia and progressive visual acuity loss with varying degrees of severity. In multimodal imaging, various degrees of retinal pigment epithelium disturbances and outer retinal atrophy, which tend to be worst with advancing age, were observed. Molecular screening identified a rare presumed truncating variant (p.Glu209Ter) in homozygosity in two families and in compound heterozygosity in a third family. Three patients showed ERG changes characteristic of CDSRR, however, two patients presented with incomplete electrophysiological features of the disease., Conclusion: A rare variant in the KCNV2 gene was identified in five patients from three Portuguese families. This variant often leads to a severe and progressive form of retinopathy. Considerable variability in the ERG responses among patients with this KCNV2 variant was observed.

Published

2022

18. Clinical vision and molecular loss: Integrating visual psychophysics with molecular genetics reveals key details of normal and abnormal visual processing.

Author

Stockman, Andrew, Henning, G. Bruce, and Rider, Andrew T.

Subjects

*VISION disorders, *PSYCHOPHYSICS, *LINEAR systems, *MOLECULAR genetics

Abstract

Over the past two decades we have developed techniques and models to investigate the ways in which known molecular defects affect visual performance. Because molecular defects in retinal signalling invariably alter the speed of visual processing, our strategy has been to measure the resulting changes in flicker sensitivity. Flicker measurements provide not only straightforward clinical assessments of visual performance but also reveal fundamental details about the functioning of both abnormal and normal visual systems. Here, we bring together our past measurements of patients with pathogenic variants in the GNAT2, RGS9, GUCA1A, RPE65, OPA1, KCNV2 and NR2E3 genes and analyse the results using a standard model of visual processing. The model treats flicker sensitivity as the result of the actions of a sequence of simple processing steps, one or more of which is altered by the genetic defect. Our analyses show that most defects slow down the visual response directly, but some speed it up. Crucially, however, other steps in the processing sequence can make compensatory adjustments to offset the abnormality. For example, if the abnormal step slows down the visual response, another step is likely to speed up or attenuate the response to rebalance system performance. Such compensatory adjustments are probably made by steps in the sequence that usually adapt to changing light levels. Our techniques and modelling also allow us to tease apart stationary and progressive effects, and the localised molecular losses help us to unravel and characterise individual steps in the normal and abnormal processing sequences. [ABSTRACT FROM AUTHOR]

Published

2021

19. Molecular, Cellular and Functional Changes in the Retinas of Young Adult Mice Lacking the Voltage-Gated K + Channel Subunits Kv8.2 and K2.1.

Author

Jiang, Xiaotian, Rashwan, Rabab, Voigt, Valentina, Nerbonne, Jeanne, Hunt, David M., Carvalho, Livia S., and Rozhdestvensky, Timofey S.

Subjects

*YOUNG adults, *KNOCKOUT mice, *LABORATORY mice, *POTASSIUM channels, *RETINAL degeneration, *VISION disorders, *RETINA

Abstract

Cone Dystrophy with Supernormal Rod Response (CDSRR) is a rare autosomal recessive disorder leading to severe visual impairment in humans, but little is known about its unique pathophysiology. We have previously shown that CDSRR is caused by mutations in the KCNV2 (Potassium Voltage-Gated Channel Modifier Subfamily V Member 2) gene encoding the Kv8.2 subunit, a modulatory subunit of voltage-gated potassium (Kv) channels. In a recent study, we validated a novel mouse model of Kv8.2 deficiency at a late stage of the disease and showed that it replicates the human electroretinogram (ERG) phenotype. In this current study, we focused our investigation on young adult retinas to look for early markers of disease and evaluate their effect on retinal morphology, electrophysiology and immune response in both the Kv8.2 knockout (KO) mouse and in the Kv2.1 KO mouse, the obligate partner of Kv8.2 in functional retinal Kv channels. By evaluating the severity of retinal dystrophy in these KO models, we demonstrated that retinas of Kv KO mice have significantly higher apoptotic cells, a thinner outer nuclear cell layer and increased activated microglia cells in the subretinal space. Our results indicate that in the murine retina, the loss of Kv8.2 subunits contributes to early cellular and physiological changes leading to retinal dysfunction. These results could have potential implications in the early management of CDSRR despite its relatively nonprogressive nature in humans. [ABSTRACT FROM AUTHOR]

Published

2021

20. A novel KCNV2 mutation in a patient taking hydroxychloroquine associated with cone dystrophy with supernormal rod response.

Author

Liu PK, Ryu J, Yeh LK, Chen KJ, Tsang SH, Liu L, and Wang NK

Subjects

Adult, Consanguinity, Electroretinography, Female, Genetic Testing, Humans, Lupus Erythematosus, Systemic drug therapy, Male, Phenotype, Retinal Cone Photoreceptor Cells physiology, Retinal Rod Photoreceptor Cells physiology, Retinitis Pigmentosa diagnosis, Retinitis Pigmentosa physiopathology, Tomography, Optical Coherence, Young Adult, Antirheumatic Agents adverse effects, Frameshift Mutation genetics, Hydroxychloroquine adverse effects, Potassium Channels, Voltage-Gated genetics, Retinitis Pigmentosa chemically induced, Retinitis Pigmentosa genetics

Abstract

Background: Cone dystrophy with supernormal rod response (CDSRR) is a rare inherited retinal degeneration. A patient superimposed with medical conditions requiring use of hydroxychloroquine (HCQ) may obscure accurate diagnosis of CDSRR. Herein, we report a referral case for HCQ retinopathy screening. Comprehensive ophthalmic examinations, however, guided the diagnosis of CDSRR from a novel mutation in potassium voltage-gated channel modifier subfamily V member 2 ( KCNV2 ) gene., Materials and Methods: Comprehensive ophthalmic examinations were evaluated for two patients whose parents are first cousins. Direct sanger sequencing of KCNV2 was applied to confirm the mutation., Results: A 38-year-old male proband was referred for HCQ retinopathy screening after taking HCQ for systemic lupus erythematosus (SLE). Fundus examination showed bull's eye pattern, and photoreceptor loss in the foveal region of both eyes was noted on spectral domain-optical coherence tomography (SD-OCT). The full-field electroretinography (ffERG) revealed a disproportionate increase in scotopic maximal response with implicit time delay, as well as universal cone dysfunction. Proband's 24-year-old sister had similar ffERG pattern in both eyes. Direct sanger sequencing of KCNV2 gene revealed a novel homozygous mutation c.280_281 insG (p.Ala94GlyfsTer278), confirming a diagnosis of CDSRR., Conclusions: We report a novel KCNV2 mutation in a consanguineous family. The unique ffERG features of CDSRR are pathognomonic and thus crucial in guiding clinicians toward genetic testing of the KCNV2 gene. Altogether, multimodal imaging, ffERG, and detailed history taking are important diagnostic tools for differentiating between acquired and inherited retinal disorders.

Published

2021

21. Form and Function of Photoreceptors in kcnv2 Mutant Zebrafish: Implications for the Human Disease KCNV2 Retinopathy

Author

Nathan Joseph Nadolski

Subjects

zebrafish, electroretinography, kcnv2

Abstract

Abstract: KCNV2 retinopathy is a rare inherited retinal disease caused by mutations in the gene KCNV2, which encodes the potassium channel subunit KV8.2. Expressed by photoreceptors, KV8.2 is a critical component for the efficient generation of a neural response to light. KCNV2 retinopathy is characterized by an abnormal light- and dark-adapted electroretinogram (ERG) waveform, macular photoreceptor degeneration, and variable associated vision deficits such as night blindness, photophobia, a central blind spot, colour blindness, and a reduction in visual acuity. The pathology underlying KCNV2 retinopathy is currently unknown, so I set out to develop a zebrafish animal model of KCNV2 retinopathy with the intention of examining both functional and cell biological changes caused by the absence of KV8.2. Here, I have used CRISPR-Cas9 mutagenesis to generate a line of zebrafish harbouring presumptive loss-of-function variants of kcnv2a and kcnv2b, homologs of human KCNV2. I also developed a novel approach to the zebrafish ERG that allowed us to measure the visual function of kcnv2 mutants. In addition, I evaluated the retinal morphology of kcnv2 mutants with optical coherence tomography (OCT), a common clinical assessment for human ocular diseases. Finally, I performed histology on kcnv2 mutant zebrafish retinal tissue to assess potential cellular changes. kcnv2 mutant zebrafish exhibited subnormal ERG amplitudes and delayed responses in both dark- and light-adapted conditions. Furthermore, the retinae of kcnv2 mutant zebrafish presented with several OCT abnormalities including an unusual signal between the ellipsoid and RPE layers, hyperreflective spots, and retinal holes. Histology revealed dysmorphic photoreceptor outer segments in kcnv2 mutants that were correlated to a reduction in visual function. This thesis documents the development and characterization of a novel zebrafish model of KCNV2 retinopathy. At the juvenile and young adult stages, the zebrafish model already shares phenotypic characteristics with human KCNV2 retinopathy patients, and I anticipate that this model will provide valuable insights into both photoreceptor biology and the enigmatic pathology of KCNV2 retinopathy.

Published

2020

22. Long-term follow-up of a Chinese patient with KCNV2 -retinopathy.

Author

Lie H, Wang G, Liu X, Meng X, Long Y, Ren J, Yang L, Fujinami-Yokokawa Y, Kurihara T, Tsubota K, Fujinami K, and Li S

Subjects

Adolescent, Follow-Up Studies, Genetic Testing, Humans, Male, Retinal Dystrophies diagnostic imaging, Retinal Dystrophies genetics, Tomography, Optical Coherence, Asian People genetics, Phenotype, Polymorphism, Single Nucleotide, Potassium Channels, Voltage-Gated genetics, Retinal Dystrophies pathology

Abstract

Purpose : To characterize and monitor the clinical and electrophysiological features of a Chinese patient with KCNV2 retinopathy. Methods : A 17-year-old Chinese male with the diagnosis of cone dystrophy with supernormal rod response (CDSRR) was followed-up for 5 years, with full ophthalmological examinations, including decimal best corrected visual acuity (BCVA), fundus photography, fundus autofluorescence (FAF) imaging, spectral-domain optical coherence tomography (SD-OCT), and full-field electroretinogram (ERG). Genetic screening was performed to detect the sequence variations in the retinal dystrophy associated genes in the patient and his parents. Results : The patient demonstrated the characteristic full-field electroretinography (ERG) features of CDSRR, namely a profound enlargement of the dark-adapted ERG b-wave amplitude with increasing flash strength and a broadened a-wave trough; this case also had undetectable light-adapted ERGs. A BCVA of 0.15 was maintained over 5 years in both eyes; while progressive macular atrophy was identified. Molecular genetic analyses revealed two novel disease-causing KCNV2 variants in compound heterozygous state: c.1408 G > C (p.Gly470Arg) and c.1500 C > G (p.Tyr500Ter). Conclusions : This is the first long-term case study of an East Asian patient with molecularly confirmed CDSRR. The progressive atrophy with maintained VA demonstrated in this case will be valuable for increasing the understanding of the natural course of KCNV2 retinopathy and it will help in counselling patients with this disease.

Published

2021

23. KCNV2 retinopathy: clinical features, molecular genetics and directions for future therapy.

Author

Guimaraes TAC, Georgiou M, Robson AG, and Michaelides M

Subjects

Humans, Retinal Diseases genetics, Genetic Therapy methods, Mutation, Potassium Channels, Voltage-Gated genetics, Retinal Diseases diagnosis, Retinal Diseases therapy

Abstract

Kcnv2: -associated retinopathy or "cone dystrophy with supernormal rod responses" is an autosomal recessive cone-rod dystrophy with pathognomonic ERG findings. This gene encodes Kv8.2, a voltage-gated potassium channel subunit that acts as a modulator by shifting the activation range of the K + channels in photoreceptor inner segments. Currently, no treatment is available for the condition. However, there is a lack of prospective long-term data in large molecularly confirmed cohorts, which is a prerequisite for accurate patient counselling/prognostication, to identify an optimal window for intervention and outcome measures, and ultimately to design future therapy trials. Herein we provide a detailed review of the clinical features, retinal imaging, electrophysiology and psychophysical studies, molecular genetics, and briefly discuss future prospects for therapy trials.

Published

2020

24. Pseudodominance in two families with KCNV2 related retinopathy.

Author

Kiray G, Rapata M, Sharp D, and Vincent AL

Abstract

Purpose: To describe the phenotypic and genotypic characteristics of two families with cone dystrophy with supernormal rod responses (CDSRR) presenting with a pseudodominant inheritance of disease., Observations: Three affected members from each family were ascertained. Family 1 of Egyptian ancestry showed consanguinity, and Family 2 was of Northern Iraqi ancestry. Both families showed pseudodominance in their pedigrees.Individuals presented with reduced visual acuity and nyctalopia. Macular disturbances were present in all, varying from a decreased foveal reflex to geographic atrophy. Electrophysiology showed reduced scotopic b-wave amplitudes and prolonged implicit times, and characteristic elevated b-wave amplitudes with high intensity flashes in all individuals.Genetic analysis of Family 1 identified a complete homozygous deletion of the KCNV2 gene, and in Family 2 a homozygous missense variation of c.562T > A: p.(Trp188Arg)., Conclusions and Importance: To our knowledge this is the first report of pseudodominance of CDSRR, with a novel pathogenic KCNV2 variant present in the second family. Clinicians evaluating these individuals should consider autosomal recessive disease manifesting as pseudodominant inheritance. In such cases, electrophysiology remains essential for making a definitive diagnosis., Competing Interests: The following authors have no financial disclosures (GK, MR, DS, ALV)., (© 2020 The Authors.)

Published

2020