Your search keyword '"Jamin Byun"' showing total 4 results

1. Increased local DNA methylation disorder in AMLs with DNMT3A-destabilizing variants and its clinical implication

Author

Dohoon Lee, Bonil Koo, Seokhyeon Kim, Jamin Byun, Junshik Hong, Dong-Yeop Shin, Choong-Hyun Sun, Jaesung Kim, Ji-Joon Song, Siddhartha Jaiswal, Sung-Soo Yoon, Sun Kim, and Youngil Koh

Subjects

Science

Abstract

Abstract The mechanistic link between the complex mutational landscape of de novo methyltransferase DNMT3A and the pathology of acute myeloid leukemia (AML) has not been clearly elucidated so far. Motivated by a recent discovery of the significance of DNMT3A-destabilizing mutations (DNMT3A INS) in AML, we here investigate the common characteristics of DNMT3A INS AML methylomes through computational analyses. We present that methylomes of DNMT3A INS AMLs are considerably different from those of DNMT3A R882 AMLs in that they exhibit increased intratumor DNA methylation heterogeneity in bivalent chromatin domains. This epigenetic heterogeneity was associated with the transcriptional variability of developmental and membrane-associated factors shaping stem cell niche, and also was a predictor of the response of AML cells to hypomethylating agents, implying that the survival of AML cells depends on stochastic DNA methylations at bivalent domains. Altogether, our work provides a novel mechanistic model suggesting the genomic origin of the aberrant epigenomic heterogeneity in disease conditions.

Published

2025

2. Genetic assessment of pathogenic germline alterations in lysosomal genes among Asian patients with pancreatic ductal adenocarcinoma

Author

Youngil Koh, Hyemin Kim, So Young Joo, Seulki Song, Young Hoon Choi, Hyung Rae Kim, Byul Moon, Jamin Byun, Junshik Hong, Dong-Yeop Shin, Solip Park, Kwang Hyuck Lee, Kyu Taek Lee, Jong Kyun Lee, Daechan Park, Se-Hoon Lee, Jin-Young Jang, Hyunsook Lee, Jung-Ae Kim, Sung-Soo Yoon, and Joo Kyung Park

Subjects

Pancreatic ductal adenocarcinoma, Lysosomal dysfunction, Autophagy, Germline variants, Genetic sequencing, Medicine

Abstract

Abstract Background Lysosomes are closely linked to autophagic activity, which plays a vital role in pancreatic ductal adenocarcinoma (PDAC) biology. The survival of PDAC patients is still poor, and the identification of novel genetic factors for prognosis and treatment is highly required to prevent PDAC-related deaths. This study investigated the germline variants related to lysosomal dysfunction in patients with PDAC and to analyze whether they contribute to the development of PDAC. Methods The germline putative pathogenic variants (PPV) in genes involved in lysosomal storage disease (LSD) was compared between patients with PDAC (n = 418) and healthy controls (n = 845) using targeted panel and whole-exome sequencing. Furthermore, pancreatic organoids from wild-type and Kras G12D mice were used to evaluate the effect of lysosomal dysfunction on PDAC development. RNA sequencing (RNA-seq) analysis was performed with established PDAC patient-derived organoids (PDOs) according to the PPV status. Results The PPV in LSD-related genes was higher in patients with PDAC than in healthy controls (8.13 vs. 4.26%, Log2 OR = 1.65, P = 3.08 × 10–3). The PPV carriers of LSD-related genes with PDAC were significantly younger than the non-carriers (mean age 61.5 vs. 65.3 years, P = 0.031). We further studied a variant of the lysosomal enzyme, galactosylceramidase (GALC), which was the most frequently detected LSD variant in our cohort. Autophagolysosomal activity was hampered when GALC was downregulated, which was accompanied by paradoxically elevated autophagic flux. Furthermore, the number of proliferating Ki-67+ cells increased significantly in pancreatic organoids derived from G alc knockout Kras G12D mice. Moreover, GALC PPV carriers tended to show drug resistance in both PDAC cell line and PDAC PDO, and RNA-seq analysis revealed that various metabolism and gene repair pathways were upregulated in PDAC PDOs harboring a GALC variant. Conclusions Genetically defined lysosomal dysfunction is frequently observed in patients with young-onset PDAC. This might contribute to PDAC development by altering metabolism and impairing autophagolysosomal activity, which could be potentially implicated in therapeutic applications for PDAC.

Published

2023

3. Lysosomal Storage Dysfunction, a Germline Variants Affecting Pancreatic Ductal Adenocarcinoma Development and Progression

Author

Joo Kyung Park, Youngil Koh, Hyemin Kim, Seulki Song, Young Hoon Choi, So Young Joo, Hyung Rae Kim, Byul Moon, Jamin Byun, Junshik Hong, Dong-Yeop Shin, Solip Park, Kwang Hyuck Lee, Kyu Taek Lee, Jong Kyun Lee, Daechan Park, Jin-Young Jang, Hyunsook Lee, Jung-Ae Kim, and Sung-Soo Yoon

Abstract

Lysosome is closely linked to autophagy, which plays a vital role in pancreatic adenocarcinoma (PDAC) tumor biology. This study investigated whether lysosome storage dysfunction (LSD) contributes to PDAC development. Germline putative pathogenic variants (PPVs) in genes involved in lysosome functions were compared between PDAC patients (N=418) and healthy controls (N=845). Furthermore,Galc-knockout mouse pancreas organoids and human PDAC organoids were used to evaluate the consequences of PPV status in PDAC development and establishment. LSD PPVs were enriched in PDAC patients (Log2OR=1.65, P=3.08×10−3). PPV carriers diagnosed with PDAC were younger than non-carriers (61.5 vs. 65.3 years, P=0.031). Hampered autophagolysosome activity with increased autophagy flux and elevated Ki-67 index were observed following GALC downregulation. RNA sequencing of human PDAC organoids revealed upregulation of metabolism related to LSD. Genetically defined lysosome dysfunction is frequently observed in young-age onset PDACs. Lysosome dysfunction might contribute to PDAC development via altered metabolism and impaired autophagolysosome activity.

Published

2023

4. AMLs harboring DNMT3A-destabilizing variants show increased intratumor DNA methylation heterogeneity at bivalent chromatin domains

Author

Dohoon Lee, Bonil Koo, Seok-Hyun Kim, Jamin Byun, Junshik Hong, Dong-Yeop Shin, Choong-Hyun Sun, Ji-Joon Song, Jaesung Kim, Siddhartha Jaiswal, Sung-Soo Yoon, Sun Kim, and Youngil Koh

Abstract

The mechanistic link between the complex mutational landscape ofde novomethyltransferaseDNMT3Aand the pathology of acute myeloid leukemia (AML) has not been clearly elucidated so far. A recent discovery on the catalogue of DNMT3A-destabilizing mutations throughout theDNMT3Agene as well as the oligomerization-dependent catalytic property of DNMT3A prompted us to investigate the common effect of DNMT3A-destabilizing mutations (DNMT3AINS) on the genomewide methylation patterns of AML cells. In this study, we describe the characteristics ofDNMT3AINSAML methylomes through the comprehensive computational analyses on three independent AML cohorts. As a result, we show that methylomes ofDNMT3AINSAMLs are considerably different from those ofDNMT3AR882AMLs in that they exhibit both locally disordered DNA methylation states and increased across-cell DNA methylation heterogeneity in bivalent chromatin domains. This increased epigenetic heterogeneity was functionally associated with heterogeneous expression of membrane-associated factors shaping stem cell niche, implying the diversification of the modes of leukemic stem cell-niche interactions. We also present that the level of methylation disorder at bivalent domains predicts the response of AML cells to hypomethylating agents through cell line- and patient-level analyses, which supports that the survival of AML cells depends on stochastic DNA methylations at bivalent domains. Altogether, our work provides a novel mechanistic model suggesting the genomic origin of the aberrant epigenomic heterogeneity in disease conditions.

Published

2023