Your search keyword '"Jung, Jinsei"' showing total 11 results

1. Association between hearing loss and suicidal ideation: Discrepancy between pure tone audiometry and subjective hearing level

Author

Ahn, Jeong Hyun, Yang, Ji Su, Jung, Jinsei, Kang, Sunghyuk, and Jung, Sun Jae

Published

2024

2. Novel small molecule-mediated restoration of the surface expression and anion exchange activity of mutated pendrin causing Pendred syndrome and DFNB4.

Author

Jung, Jinsei, Noh, Shin Hye, Jo, Sungwoo, Song, Doona, Kang, Min Jin, Shin, Mi Hwa, Lee, Hyun Jae, Pyun, Jae-Chul, Namkung, Wan, Han, Gyoonhee, Lee, Min Goo, and Choi, Jae Young

Subjects

*GENE expression, *SMALL molecules, *GENETIC variation, *HIGH throughput screening (Drug development), *SYNDROMES, *VESTIBULAR apparatus diseases

Abstract

Variants in SLC26A4 (pendrin) are the most common reasons for genetic hearing loss and vestibular dysfunction in East Asians. In patients with Pendred syndrome and DFNB4 (autosomal recessive type of genetic hearing loss 4), caused by variants in SLC26A4 , the hearing function is residual at birth and deteriorates over several years, with no curative treatment for these disorders. In the present study, we revealed that a novel small molecule restores the expression and function of mutant pendrin. High-throughput screening of 54,000 small molecules was performed. We observed that pendrin corrector (PC2–1) increased the surface expression and anion exchange activity of p.H723R pendrin (H723R-PDS), the most prevalent genetic variant that causes Pendred syndrome and DFNB4. Furthermore, in endogenous H723R-PDS-expressing human nasal epithelial cells, PC2–1 significantly increased the surface expression of pendrin. PC2–1 exhibited high membrane permeability in vitro and high micromolar concentrations in the cochlear perilymph in vivo. In addition, neither inhibition of Kv11.1 activity in the human ether-a-go-go-related gene assay nor cell toxicity in the cell proliferation assay was observed at a high PC2–1 concentration (30 μM). These preclinical data support the hypothesis of the druggability of mutant pendrin using the novel corrector molecule PC2–1. In conclusion, PC2–1 may be a new therapeutic molecule for ameliorating hearing loss and treating vestibular disorders in patients with Pendred syndrome or DFNB4. [ABSTRACT FROM AUTHOR]

Published

2023

3. Vestibular function is associated with residual low-frequency hearing loss in patients with bi-allelic mutations in the SLC26A4 gene.

Author

Jung, Jinsei, Seo, Young Wook, Choi, Jae Young, and Kim, Sung Huhn

Subjects

*VESTIBULAR function tests, *HEARING disorders, *GENETIC mutation, *DISEASE susceptibility, *AUDIOLOGY

Abstract

DFNB4 is non-syndromic, autosomal recessive type of hearing loss with an enlarged vestibular aqueduct (EVA) caused by mutations in SLC26A4/pendrin . Although the characteristics of hearing loss are well known in DFNB4, vestibular function remains inconclusive. We evaluated the vestibular function of 31 patients with bi-allelic mutations in SLC26A4/pendrin and analyzed genetic, radiological, and audiological correlations with vestibular function. In a caloric test, unilateral and bilateral vestibulopathies were detected in 45.2% and 6.4% of patients, respectively; however, only 22.6% had subjective vertigo symptoms. While vestibular phenotype was not significantly associated with specific mutations in genetic alleles or the sizes of the endolymphatic sac and vestibular aqueduct, a residual hearing threshold at a low frequency (500 Hz) was definitely correlated with vestibular function in DFNB4 (p = 0.005). These findings may indicate that vestibular function in DFNB4 deteriorates unilaterally in ears when hearing loss occurs. In conclusion, DFNB4 shows vestibular dysfunction, which is strongly linked to hearing loss at low frequencies without any allelic or anatomical predisposing factor. [ABSTRACT FROM AUTHOR]

Published

2016

4. Ventilation tube insertion is not effective to the treatment of hearing impairment in pediatric patients with Cornelia de Lange syndrome.

Author

Jung, Jinsei, Park, Sera, Kim, Sung Huhn, Moon, In Seok, Hwang, Kyu Rin, Lee, Jeon Mi, Bang, Mi Young, and Choi, Jae Young

Abstract

Objective: Cornelia de Lange syndrome (CdLS) is a multiple developmental disorder including hearing loss. The hearing impairment in CdLS patients is not only sensorineural but also conductive hearing loss (CHL). The aim of this study was to elucidate hearing loss causes in CdLS patients and evaluate the effect of ventilation tube (v-tube) insertion in the cases of CHL.Methods: Thirty-two patients clinically diagnosed with CdLS were enrolled and analyzed with retrospective case review. Audiologic evaluations and imaging studies such as a temporal bone computed tomogram or brain magnetic resonance imaging (MRI) were performed for all patients. Hearing rehabilitation such as ventilation tube insertion, hearing aid fitting, or cochlear implantation was chosen depending on the audiological condition.Results: Among 32 CdLS patients who underwent auditory brainstem response test, 81.2% presented hearing loss. Imaging studies showed that only middle ear lesions without inner ear anomalies were identified in 56.3%. Notably, the soft tissue lesion in middle ear was identified even in the neonatal MRI. When 7 patients were thought to have CHL due to otitis media with effusion, v-tube insertion was applied first. However, v-tube insertion rarely improved CHL postoperatively. Moreover, middle ear lesion was not fluid effusion but soft tissue lesion according to the intraoperative finding. These lesions were not eradicated even after revision surgery of v-tube insertion.Conclusion: V-tube insertion is not effective to improve hearing or eradicate otitis media with effusion in CdLS patients. [ABSTRACT FROM AUTHOR]

Published

2016

5. Role of calcium signaling in epithelial bicarbonate secretion.

Author

Jung, Jinsei and Lee, Min Goo

Abstract

Abstract: Transepithelial bicarbonate secretion plays a key role in the maintenance of fluid and protein secretion from epithelial cells and the protection of the epithelial cell surface from various pathogens. Epithelial bicarbonate secretion is mainly under the control of cAMP and calcium signaling. While the physiological roles and molecular mechanisms of cAMP-induced bicarbonate secretion are relatively well defined, those induced by calcium signaling remain poorly understood in most epithelia. The present review summarizes the current status of knowledge on the role of calcium signaling in epithelial bicarbonate secretion. Specifically, this review introduces how cytosolic calcium signaling can increase bicarbonate secretion by regulating membrane transport proteins and how it synergizes with cAMP-induced mechanisms in epithelial cells. In addition, tissue-specific variations in the pancreas, salivary glands, intestines, bile ducts, and airways are discussed. We hope that the present report will stimulate further research into this important topic. These studies will provide the basis for future medicines for a wide spectrum of epithelial disorders including cystic fibrosis, Sjögren's syndrome, and chronic pancreatitis. [Copyright &y& Elsevier]

Published

2014

6. Regulation of ANO1/TMEM16A anion permeability

Author

Jung, Jinsei, Nam, Joo Hyun, Park, Hyun Woo, Oh, Uhtaek, Yoon, Joo-heon, and Lee, Min Goo

Published

2013

7. [Cl−]i-sensitive kinases mediated regulation mechanism of CFTR anion selectivity

Author

Jun, Ikhyun, Kim, Yonjung, Jung, Jinsei, Park, Hyun Woo, and Lee, Min Goo

Published

2013

8. A novel early truncation mutation in OTOG causes prelingual mild hearing loss without vestibular dysfunction.

Author

Yu, Seyoung, Choi, Hye Ji, Lee, Joon Suk, Lee, Hyun Jae, Rim, John Hoon, Choi, Jae Young, Gee, Heon Yung, and Jung, Jinsei

Subjects

*HEARING disorders, *GENETIC disorders, *VESTIBULAR apparatus diseases, *GENETIC mutation, *PROTEIN analysis, *HOMOZYGOSITY

Abstract

Abstract OTOG was identified as a nonsyndrmoic hearing loss gene in 2012 in two families with nonprogressive mild-to-moderate hearing loss. However, no further literature have this gene for nonsyndromic hearing loss. Furthermore, it is still unclear whether vestibular impairment is involved or not in patients with mutations in OTOG. This study presents a validated second report for homozygous causative mutations in OTOG of mild hearing loss. Whole exome sequencing (WES) was performed in a five-year-old male proband with mild hearing loss. The analysis of WES revealed a homozygous truncating mutation (c.330C > G; p.Tyr110*) in OTOG. The identified novel mutation, p.Tyr110*, leads to a null allele based on the fact that early truncated protein contains no functional domain of otogelin. While defects in otogelin previously reported to result in hearing loss and vestibular dysfunction, p.Tyr110* only caused nonsydromic and nonprogressive hearing loss without any vestibular impairment, indicating that vestibular phenotype would be variable. Given that mild hearing loss is not easy to be detected early, mutations of OTOG may be more prevalent than reported. Therefore, genetic evaluation for OTOG should be considered in children with mild hearing loss with/without vestibular dysfunction. [ABSTRACT FROM AUTHOR]

Published

2019

9. LCCL peptide cleavage after noise exposure exacerbates hearing loss and is associated with the monocyte infiltration in the cochlea.

Author

Bae, Seong Hoon, Yoo, Jee Eun, Hong, Ji Won, Park, Haeng Ran, Noh, Byunghwa, Kim, Hyoyeol, Kang, Minjin, Hyun, Young-Min, Gee, Heon Yung, Choi, Jae Young, and Jung, Jinsei

Subjects

*NOISE-induced deafness, *HEARING disorders, *COCHLEA, *CELL death, *HAIR cells

Abstract

Acoustic trauma induces an inflammatory response in the cochlea, resulting in debilitating hearing function. Clinically, amelioration of inflammation substantially prevents noise-induced hearing loss. The Limulus factor C, Cochlin, and Lgl1 (LCCL) peptide plays an important role in innate immunity during bacteria-induced inflammation in the cochlea. We aimed to investigate the LCCL-induced innate immune response to noise exposure and its impact on hearing function. Methods: We used Coch (encodes cochlin harboring LCCL peptide) knock-out and p.G88E knock-in mice to compare the immune responses before and after noise exposure. We explored their hearing function and hair cell degeneration. Moreover, we investigated distinct characteristics of immune responses upon noise exposure using flow cytometry and RNA sequencing. Results: One day after noise exposure, the LCCL peptide cleaved from cochlin increased over time in the perilymph space. Both Coch −/− and Coch G88E/G88E mutant mice revealed more preserved hearing following acoustic trauma compared to wild-type mice. The outer hair cells were more preserved in Coch −/− than in wild-type mice upon noise exposure. The RNA sequencing data demonstrated significantly upregulated cell migration gene ontology in wild-type mice than in Coch −/− mice following noise exposure, indicating that the infiltration of immune cells was dependent on cochlin. Notably, infiltrated monocytes from blood (C11b+/Ly6G−/Ly6C+) were remarkably higher in wild-type mice than in Coch −/− mice at 1 day after noise exposure. Conclusions: Noise-induced hearing loss was attributed to over-stimulated cochlin, and led to the cleavage and secretion of LCCL peptide in the cochlea. The LCCL peptide recruited more monocytes from the blood vessels upon noise stimulation, thus highlighting a novel therapeutic target for noise-induced hearing loss. l LCCL peptide is cleaved and secreted in the cochlea after noise exposure. l The concentration of LCCL in the perilymph peaks at 1 day after noise exposure. l The presence of LCCL aggravates the noise-induced hearing loss. l LCCL regulates monocyte infiltration after noise exposure. [ABSTRACT FROM AUTHOR]

Published

2021

10. Heterogeneity of MYO15A variants significantly determine the feasibility of acoustic stimulation with hearing aid and cochlear implant.

Author

Na, Gina, Choi, Hye Ji, Joo, Sun Young, Rim, John Hoon, Kim, Jung Ah, Kim, Hye-Youn, Yu, Seyoung, Jeong, Yeonsu, Shin, Geun Cheol, Noh, Hae Eun, Lee, Ho Young, Kim, Da Hye, Gee, Heon Yung, Jung, Jinsei, and Choi, Jae Young

Subjects

*ACOUSTIC stimulation, *COCHLEAR implants, *HEARING aids, *HEARING disorders, *HETEROGENEITY

Abstract

• Variants in MYO15A causing DFNB3 lead to audiological heterogeneity. • N-terminal truncating variants in MYO15A showed significant residual hearing. • Missense variants in the second FERM domain showed better low frequency hearing. • Such variants allow acoustic stimulation with hearing aids and cochlear implants. Autosomal recessive nonsyndromic hearing loss 3 (DFNB3) mainly leads to congenital and severe-to-profound hearing impairment, which is caused by variants in MYO15A. However, audiological heterogeneity in patients with DFNB3 hinders precision medicine in hearing rehabilitation. Here, we aimed to elucidate the heterogeneity of the auditory phenotypes of MYO15A variants according to the affected domain and the feasibilities for acoustic stimulation. We conducted whole-exome sequencing for 10 unrelated individuals from seven multiplex families with DFNB3; 11 MYO15A variants, including the novel frameshift c.900delT (p.Pro301Argfs*143) and nonsense c.4879G > T (p.Glu1627*) variants, were identified. In seven probands, residual hearing at low frequencies was significantly higher in the groups with one or two N-terminal frameshift variants in trans conformation compared to that in the group without these variants. This is consistent with the 56 individuals from the previously published reports that carried a varying number of N-terminal truncating variants in MYO15A. In addition, patients with missense variants in the second FERM domain had better hearing at low frequencies than patients without these variants. Subsequently, acoustic stimulation provided by devices such as hearing aids or cochlear implants was feasible in patients with one or two N-terminal truncating variants or a second FERM missense variant. In conclusion, N-terminal or second FERM variants in MYO15A allow the practical use of acoustic stimulation through hearing aids or electroacoustic stimulation for aural rehabilitation. [ABSTRACT FROM AUTHOR]

Published

2021

11. P2RX2 and P2RX4 receptors mediate cation absorption in transitional cells and supporting cells of the utricular macula.

Author

Jeong, Junhui, Kim, Jin Young, Hong, Hansol, Wangemann, Philine, Marcus, Daniel C., Jung, Jinsei, Choi, Jae Young, and Kim, Sung Huhn

Subjects

*PURINERGIC receptors, *HAIR cells, *EPITHELIAL cells, *INNER ear, *CELLS

Abstract

Purinergic receptors protect the cochlea during high-intensity stimulation by providing a parallel shunt pathway through non-sensory neighboring epithelial cells for cation absorption. So far, there is no direct functional evidence for the presence and type/subunit of purinergic receptors in the utricle of the vestibular labyrinth. The goal of the present study was to investigate which purinergic receptors are expressed and carry cation-absorption currents in the utricular transitional cells and macula. Purinergic agonists induced cation-absorption currents with a potency order of ATP > bzATP = αβmeATP ≫ ADP = UTP = UDP. ATP and bzATP are full agonists, whereas αβmeATP is a partial agonist. ATP-induced currents were partially inhibited by 100 μM suramin, 10 μM pyridoxal-phosphate-6-azo-(benzene-2,4-disulfonic acid (PPADS), or 5 μM 5-(3-bromophenyl)-1,3-dihydro-2H-benzofuro[3,2-e]-1, 4-diazepin-2-one (5-BDBD), and almost completely blocked by 100 μM Gd3+ or by a combination of 10 μM PPADS and 5 μM 5-BDBD. Expression of the P2RX2 and P2RX4 receptor was detected by immunocytochemistry in transitional cells and macular supporting cells. This is the first study to demonstrate that ATP induces cation currents carried by a combination of P2RX2 and P2RX4 in utricular transitional and macular epithelial cells, and supporting the hypothesis that purinergic receptors protect utricular hair cells during elevated stimulus intensity levels. • Purinergic receptors protect inner ear hair cells during high-intensity mechanical stimulation. • P2RX2 is the only functionally identified one in the vestibular ampullary transitional cells. • We demonstrated the presence of P2RX2 in the utricular supporting cells and transitional cells. • P2RX4 receptor was proved to be co-localized with P2RX2 in those cells. • This is the first functional study to identify the presence of P2RX2 and P2RX4 in the cell types. [ABSTRACT FROM AUTHOR]

Published

2020