[DGIF연사미리보기 #5] Kyong Soo Park 교수님과 그의 연구

Home[N] 바이올로지생물학[N]

curated by Librarian, KayKim
 

뉴바이올로지전공에서는 DGIF 2017에 "New Bio-medicine"을 주제로 10개의 강연이 준비되어 있습니다. 서울대학교병원 의생명연구원장을 맡고 계신 Kyong Soo Park 교수님께서는 평생을 대표적인 성인질환이자 대한민국 만 30세 이상 인구에서 약 10%의 유병률을 보이는 당뇨병의 원인 규명과 치료에 힘쓰고 계십니다. 강연과 관련된 논문과 뉴스, 교수님의 WOS Publication List와 당뇨병에 대한 대중서적을 모았습니다. 앞뒤로 이어지는 DGIST Speaker 두 분의 강연도 많이 참석해주세요!

2017 DGIF: New Bio-medicine

Program

[DGIF 2017] Genotypes and metabolic phenotypes of type 2 diabetes in Korean

▶ Date: Nov.30 2017, 16:50~17:30
▶ Place: 312(3F), E8, DGIST
▶ Speaker: Kyong Soo Park / Seoul National University College of Medicine
▶ Title: Genotypes and metabolic phenotypes of type 2 diabetes in Korean
▶ Abstract
Type 2 diabetes(T2D) is caused by a complex interplay between genetic and environmental factors and likely comprises heterogeneous disorders with common phenotype of chronic hyperglycemia.  Current understanding of pathogenesis and natural history of T2D are mostly based on studies of European populations that insulin resistance precedes impaired beta cell function and T2D develops only when insulin secretion fails to compensate insulin resistance.

However, it has long been recognized that clinical and metabolic characteristics of T2D in Korean and east Asian are quite different from those in European. Korean patients with T2D have less degree of both obesity and insulin resistance and lower beta cell function compared to European. To elucidate natural history of T2D in Korean, we investigated the longitudinal change in beta cell function and insulin sensitivity in the development of T2D in Korean. 10 year trajectory of beta cell function and insulin sensitivity in the development of diabetes revealed that subjects with normal glucose tolerance(NGT) who progressed to diabetes had lower insulin secretory function and lower insulin sensitivity index compared to those who remained NGT. This observation suggest that metabolic phenotypes associated with the development of T2D in Korean are quite different from those in European....

https://dgif.dgist.ac.kr/?speaker=kyong-soo-park

연사의 이력(CV)

[Hospital homepage] 서울대학교 병원 내분비내과서울대학교병원

Kyong Soo Park 교수님께서는 1984년 서울대학교 의과대학을 졸업 후 동대학에서 내과학(Internal Medicine) 전공으로 1993년 의학박사(M.D.) 학위를 취득하셨습니다. 이후 미국 University of California, San Diego 내분비-대사내과 research fellow로 수학 후 현재까지 서울대 의과대학 내과학교실과 융합과학기술대학원 분자의학및바이오제약학과 교수로 재직 중입니다. 
2000년~2011년까지 보건복지부 지정 당뇨 및 내분비질환 유전체연구센터 센터장을 거쳐 현재는 서울대학교 병원 의생명연구원장을 맡고 계십니다.

눈코 뜰 새 없이 바쁘신 분이지만, 항상 환자들을 만나고 계시답니다.
서울대병원 홈페이지에서 진료예약(!)도 가능하니, 주요 논문들과 경력도 함께 확인해보세요.

https://www.snuh.org/blog/00815/career.do?dr_cd=00815&hsp_cd=

Kyong Soo Park's News

News #1

[Research News] 서울의대 박경수 교수, 제26회 분쉬의학상 본상 수상 - 청년의사

박 교수는 “한국인 당뇨병 환자들의 임상적 특성을 규명하기 위해 오랜 시간 진행해온 연구로 분쉬의학상 본상을 수상하게 돼 영광으로 생각한다”며 “한국인 당뇨병 연구에 매진해 국가 보건 시스템 구축에 이바지하고 환자들의 삶의 질을 향상시킬 수 있도록 하겠다”고 소감을 밝혔다.

http://www.docdocdoc.co.kr/news/articleView.html?idxno=225845

News #2

[Research News] Genetics of type 2 diabetes revealed in unprecedented detail

"The findings suggest that most of the genetic risk of type 2 diabetes can be attributed to common, shared genetic variants - each contributing a small amount to an individual's risk of the disease - rather than many rare variants unique to individuals. This resolves a question about the genetics of type 2 diabetes that has puzzled researchers for decades."

http://ct.moreover.com/?a=27222576052&p=1pl&v=1&x=HjOKBNNYp_RuavrtfHbUYw

Kyong Soo Park's Research

논문(Articles) #1

[Articles] 10-year trajectory of β-cell function and insulin sensitivity in the development of type 2 diabetes: a community-based prospective cohort study10-year trajectory of β-cell function and insulin sensitivity in the development of type 2 diabetes: a community-based prospective cohort study - ScienceDirect

Kyong Soo Park 교수님께 분쉬의학상의 명예를 안겨준 대표적인 연구, 한국인의 제2형 당뇨병(T2D)의 원인을 파헤치기 위한 10년에 걸친 추적연구의 결과를 출판한 논문입니다.
정상내당능(normal glucose tolerance,NGT)을 가진 4,106명의 피험자를 대상으로 복합적인 원인을 가진 대표적인 만성질환인 당뇨병의 다양한 인자들을 분석한 방대한 코호트 연구의 결과가 집약되어 있습니다.
강연을 듣기 전, 리뷰해보세요!

http://www.sciencedirect.com/science/article/pii/S2213858715003368

논문(Articles) #2

[Articles] The genetic architecture of type 2 diabetes

Editorial Summary

Gene variation in type 2 diabetes

Common variants at more than 80 genomic loci have been associated with susceptibility to type 2 diabetes, but together explain only a small fraction of the estimated heritability. Studies have hypothesized that rare or low-frequency genetic variation may explain a large proportion of the remaining disease risk. These authors now provide a test of this hypothesis in a large-scale sequencing study for type 2 diabetes conducted as part of the GoT2D and T2D-GENES projects. This work provides the most comprehensive view to date of the overall genomic architecture for disease risk, with the ability to examine the role for rare and low-frequency genetic variation. They find that most of the identified genetic risk variants were common and found in regions previously identified by genome-wide association studies.

  • (2017.11.29) ▶ Altmetric: 506
  • ▶ Citations: 123

https://www.nature.com/articles/nature18642

논문(Articles) #2

Curator Comment

거대한 국제적인 공동 연구의 대표 저자인 Mark I. McCarthy의 인터뷰를 확인해보세요!

Publication List

[Publication List] Prof. Park's WOS Indexed ArticlesKyong Soo Park C-2265-2008 - ResearcherID.com

2017년 11월 29일 기준, 총 314편(!!)의 논문이 Web of Science에 색인되어 있습니다. 교수님의 더 많은 논문들을 ResearcherID Publication List를 통해 확인해보세요!

▶ Articles With Citation Data: 314
▶ Sum of the Times Cited: 9519
▶ h-index: 49

http://www.researcherid.com/rid/C-2265-2008

[Infographic] Research Keywords

2012년 이후 발표된 SCOPUS 등재논문 117편을 기준으로 키워드를 분석한 내용입니다. 유럽위주의 연구에서 탈피해 한국인과 동아시아인의 제2형당뇨병 유병 원인과 그에 맞는 치료법을 연구하고 계시기 때문에,  Asian Continental Ancestry Group과의 연구가 활발하네요.

저서(Book)

[DGIST Library Catalog] 대한민국 최고의 명의가 들려주는 당뇨병소장자료

박경수 교수님께서는 오랜 진료 경험을 바탕으로 환자들을 위한 당뇨병 핸드북을 대표 집필하시기도 했습니다. 당뇨병의 개념과 진단부터 혈당조절을 위한 생활요법과 증상에 맞는 치료, 고혈당보다 더 무서운 합병증에 대한 내용까지 일반인들을 위한 당뇨병의 AtoZ를 담은 책입니다.
의학 발전과 학술적인 의미에서 당뇨병에 대한 빛나는 최신의 연구들은 중요합니다. 하지만 당뇨병은 더 많은 사람들이 이해할 수 있는 지침서도 꼭 필요한 질병 중 하나이기도 합니다. "e-나라지표 만성질환 현황"에 따르면 대한민국 만 30세 이상 인구의 약 10%가 앓고 있으며, 꾸준한 식이조절·운동을 통한 관리가 필요한 질병이기 때문이죠.
지금 바로 DGIST 도서관에서도 만나보실 수 있습니다. ( 클릭하시면 도서관 소장자료 상세화면으로 연결됩니다.)
▶ 자료유형: 단행본
▶ 저자: 박경수
▶ 서명: (대한민국 최고의 명의가 들려주는) 당뇨병
▶ 발행사항: 서울대학교 출판문화원, 2015
▶ ISBN: 9788952116703

http://www.dgist.ac.kr/site/dgist_library/menu/819.do?moveUrl=1&key=CAT-20171100000000261

DGIST Speakers

Yun-Il Lee

[Meeting Abstract] New Approaches for Parkinson’s Disease Treatment

Yun-Il Lee
DGIST, Well Aging Research Center
Nov. 30 17:00~17:30

1. Dysfunctional parkin due to mutations or post-translational modifications contributes to dopaminergic neurodegeneration in Parkinson’s disease (PD). Overexpression of parkin provides protection against cellular stresses and prevents dopamine cell loss in several PD animal models.

2. IDUNA (RNF146) is an E3 ubiquitin ligase that specifically recognizes and polyubiquitinates poly (ADP-ribose) (PAR)-conjugated substrates for proteasomal degradation. IDUNA induction has been shown to be neuroprotective against PAR polymerase-1 (PARP1)-induced cell death during stroke.

High-throughput screen using a luciferase construct harboring the promoter identified Hydrocortisone and liquiritigenin as parkin and IDUNA inducer, respectively.

This treatment in mice increased brain parkin or IDUNA levels and prevented 6-hydroxy dopamine induced dopamine cell loss when assessed at 4 days after the toxin’s injection. Our results showed that hydrocortisone could stimulate parkin expression via CREB pathway, and liquiritigenin could mediate IDUNA induction via estrogen receptor activation. The identification of inducer of parkin or IDUNA and mechanism might be a potential therapeutic or preventive strategy for Parkinson’s disease.

https://dgif.dgist.ac.kr/?speaker=yun-il-lee

Minseok S. Kim

[Meeting Abstract] Novel Bioengineered MEMS technology for New Aging Study

Minseok S. Kim
Daegu Gyeongbuk Institute of Science & Technology (DGIST)
Nov. 30 17:30~18:00

With the increasing aging of mankind worldwide, aging study has become very important. Senescent cells are generally created in vitro via prolonged division in culture since replicative senescence is defined as a state in which normal somatic cells lose their replicative capacity, causing irreversible growth arrest. The necessity for many subculture steps may, however, result in a high degree of heterogeneity, and when studying such cultures the ensemble averaging effect can make it difficult to elucidate cellular aging mechanisms. One of the most representative characteristics in aging is the increase of cell surface area. We thought that the increase of the cell surface area will affect the increase of cell volume; thereby hypothesizing that larger cells might exhibit more remarkable senescent phenotypes even in same passaged culture dish, even though both size cohorts had been passaged in the same clonal culture environment.

In another asepct, one of the representatvie changes in aging is the sarcopenia, which significantly affects the mobility and physiological activity of the elderly. Functional improvement of aged skeletal muscle cells with minimizing side effects, therefore, is critically important to maintain the quality of life for the elderly.

In this talk, we introduce a microfluidic filter with uniform fluid profile to isolate aging cells and a bioelectronic device for high throughput electrical stimulation. Based on these technologies, this will be discussed how we can move closer to aging personalized therapy.

https://dgif.dgist.ac.kr/?speaker=minseok-s-kim

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