인간 포배란의 유리화동결 융해 후 임신 및 분만에 관한 연구

최동희,정형민,정미경,이숙환,남윤성,박찬,곽인평,윤태기,Choi, Dong-Hee,Chung, Hyung-Min,Chung, Mi-Kyung,Lee, Sook-Hwan,Nam, Yoon-Seung,Park, Chan,Kwak, In-Pyung,Yoon, Tae-Ki 대한생식의학회 2000 Clinical and Experimental Reproductive Medicine Vol.27 No.4

Objective: This study was performed to evaluate whether vitrification method could be used for the cryopreservation of human blastocysts derived from IVF program. Methods: Surplus embryos were obtained from consented IVF patients. Controlled ovarian hyperstimulation was done with midluteal GnRH agonist, gonadotropin and hCG. After oocyte retrieval and insemination, fresh embryo transfer was done at $4{\sim}8$ cell stage. The surplus embryos after ET were cultured in blastocyst medium up to 6 days after oocyte retrieval. Obtained blastocysts were cryopreserved with our vitrification method. Blastocysts were exposed to 1.5 Methylene glycol (EG) in phosphate buffered saline (PBS) for 2.5 minutes, followed by 5.5 M EG plus 1 M sucrose for 20 seconds. Then 1 to 3 blastocysts were mounted on electron microscope (EM) grid and the grid was plunged into liquid nitrogen for storage. For thawing, blastocyst-containing EM grids were sequentially transferred in 1.0 M, 0.5 M, 0.25 M, 0.125 M and 0 M sucrose solution at the intervals of2.5 minutes. And blastocysts were cultured for about 6 hours and only re-expanded blastocysts were transferred to uterus of the patients on 4 to 5 days after ovulation in natural cycle or on 18 to 19 day of artificial cycle. Results: From Oct. 1998 to Jul. 1999, 34 patients were agreed to participate in this study. The mean age and duration of infertility of the patients were 31.6 years and 4.1 years, respectively. Among 34 cycles. replacements could be done in 20 cycles (58.8%). A total 93 blastocysts were thawed and 48 (51.6%) of them survived. Thirty-eight blastocysts, mean 1.9 embryos per patient, were transferred, resulting in 5 clinical pregnancies which consisted of 1 triplet, 2 sets of twins and 2 singleton pregnancies. The pregnancy rate per transfer was 25% and implantation rate was 23.6%. Five patients delivered 7 healthy babies including 2 sets of twins at term. Conclusion: Successful pregnancies and deliveries were established after transfer of vitrified human blastocysts. Vitrification using ethylene glycol as cryoprotectant and electron microscope grid is a rapid and simple method that can be effectively applied for the cryopreservation of human blastocysts.

Long Cut Straw Provides Stable the Rates of Survival, Pregnancy and Live Birth for Vitrification of Human Blasotcysts

이정우,차정호,신선희,김윤정,이슬기,차혜진,김지해,안지현,김혜영,박경아,윤지성,박서영,박춘근 한국발생생물학회 2016 발생과 생식 Vol.20 No.3

Most of the commercial devices for vitrification are directly immersed into the warming solution (WS) for increasing of warming rate. However, the previous modified cut standard straw (MCS) which has reported is difficult to immerse into the WS. The aim of this study was to investigate whether the long cut straw (LCS) could be useful as a stable tool for vitrified-warmed human blastocysts. A total of 138 vitrified-warmed cycles were performed between November 2013 and November 2014 (exclusion criteria: women ≥38 years old, poor responder, surgical retrieval sperm, and severe male factor). The artificial shrinkage was conducted using 29-gauge needles. Ethylene glycol and dimethyl sulfoxide (7.5% and 15% (v/v)) were used as cryoprotectants. Freezing and warming were conducted using the LCS tool. The cap of LCS was removed using the forceps in the liquid nitrogen (LN2) and then directly immersed into the first WS for 1 min at 37℃ (1 M sucrose). Only re-expanded blastocysts were transferred after it was cultured in sequential media for 18-20 h. A total of 294 blastocysts were warmed, and all were recovered (100%). Two hundred eighty-five embryos were survived (96.9%). The vitrifiedwarmed blastocysts of all patients were transferred without any cancellation. We were able to achieve a reasonable implantation (24.2%), following by clinical pregnancy (36.2%), which then continued to ongoing pregnancy (36.2%), and live birth (31.2%). Using LCS is achieved the acceptable rates of survival, pregnancy and live birth. Therefore, the LCS could be considered as a stable and simple tool for human embryo vitrificaton.

Long Cut Straw Provides Stable the Rates of Survival, Pregnancy and Live Birth for Vitrification of Human Blasotcysts

Jung-Woo Lee,Jeong-Ho Cha,Sun-Hee Shin,Yun-Jeong Kim,Seul-Ki Lee,Hye-Jin Cha,Ji-Hae Kim,Ji-Hyun Ahn,Hye-Young Kim,Kyung-Ah Pak,Ji-Sung Yoon,Seo-Young Park,Choon-keun Park 한국발생생물학회 2016 발생과 생식 Vol.20 No.3

Most of the commercial devices for vitrification are directly immersed into the warming solution (WS) for increasing of warming rate. However, the previous modified cut standard straw (MCS) which has reported is difficult to immerse into the WS. The aim of this study was to investigate whether the long cut straw (LCS) could be useful as a stable tool for vitrified-warmed human blastocysts. A total of 138 vitrified-warmed cycles were performed between November 2013 and November 2014 (exclusion criteria: women ≥38 years old, poor responder, surgical retrieval sperm, and severe male factor). The artificial shrinkage was conducted using 29-gauge needles. Ethylene glycol and dimethyl sulfoxide (7.5% and 15% (v/v)) were used as cryoprotectants. Freezing and warming were conducted using the LCS tool. The cap of LCS was removed using the forceps in the liquid nitrogen (LN2) and then directly immersed into the first WS for 1 min at 37℃ (1 M sucrose). Only re-expanded blastocysts were transferred after it was cultured in sequential media for 18-20 h. A total of 294 blastocysts were warmed, and all were recovered (100%). Two hundred eighty-five embryos were survived (96.9%). The vitrifiedwarmed blastocysts of all patients were transferred without any cancellation. We were able to achieve a reasonable implantation (24.2%), following by clinical pregnancy (36.2%), which then continued to ongoing pregnancy (36.2%), and live birth (31.2%). Using LCS is achieved the acceptable rates of survival, pregnancy and live birth. Therefore, the LCS could be considered as a stable and simple tool for human embryo vitrificaton.

Long Cut Straw Provides Stable the Rates of Survival, Pregnancy and Live Birth for Vitrification of Human Blasotcysts

Lee, Jung-Woo,Cha, Jeong-Ho,Shin, Sun-Hee,Kim, Yun-Jeong,Lee, Seul-Ki,Cha, Hye-Jin,Kim, Ji-Hae,Ahn, Ji-Hyun,Kim, Hye-Young,Pak, Kyung-Ah,Yoon, Ji-Sung,Park, Seo-Young,Park, Choon-keun The Korean Society of Developmental Biology 2016 발생과 생식 Vol.20 No.3

Most of the commercial devices for vitrification are directly immersed into the warming solution (WS) for increasing of warming rate. However, the previous modified cut standard straw (MCS) which has reported is difficult to immerse into the WS. The aim of this study was to investigate whether the long cut straw (LCS) could be useful as a stable tool for vitrified-warmed human blastocysts. A total of 138 vitrified-warmed cycles were performed between November 2013 and November 2014 (exclusion criteria: women ${\geq}38$ years old, poor responder, surgical retrieval sperm, and severe male factor). The artificial shrinkage was conducted using 29-gauge needles. Ethylene glycol and dimethyl sulfoxide (7.5% and 15% (v/v)) were used as cryoprotectants. Freezing and warming were conducted using the LCS tool. The cap of LCS was removed using the forceps in the liquid nitrogen ($LN_2$) and then directly immersed into the first WS for 1 min at $37^{\circ}C$ (1 M sucrose). Only re-expanded blastocysts were transferred after it was cultured in sequential media for 18-20 h. A total of 294 blastocysts were warmed, and all were recovered (100%). Two hundred eighty-five embryos were survived (96.9%). The vitrified-warmed blastocysts of all patients were transferred without any cancellation. We were able to achieve a reasonable implantation (24.2%), following by clinical pregnancy (36.2%), which then continued to ongoing pregnancy (36.2%), and live birth (31.2%). Using LCS is achieved the acceptable rates of survival, pregnancy and live birth. Therefore, the LCS could be considered as a stable and simple tool for human embryo vitrificaton.

인간 포배기 배아의 초자화 동결에 관한 연구: II. 초자화 동결이 포배기 배아의 착상 및 임신에 미치는 영향

김수희,이상원,이주희,강상민,오희정,이승민,이성구,윤혜균,윤산현,박세필,송해범,임진호,Kim, Su-Hee,Lee, Sang-Won,Lee, Ju-Hee,Kang, Sang-Min,Oh, Hee-Jeong,Lee, Seoung-Min,Lee, Seong-Goo,Yoon, Hye-Gyun,Yoon, San-Hyun,Park, Se-Pill,Song, Hai- 대한생식의학회 2000 Clinical and Experimental Reproductive Medicine Vol.27 No.1

Objective: This study was conducted to investigate the effect of vitrification on the implantation and the pregnancy of human blastocysts. Method: The transfer of the frozen-thawed blastocysts by the slow freezing or vitrification was performed between January 1998 and July 1999. The zygotes derives from IVF were cocultured with cumulus cells in YS medium containing 20% hFF for 5days. Two or three of the best balstocysts produced on day 5 were transferred into the uterus, and then supernumerary blastocysts were randomly divided into two groups. One was frozen by slow freezing and the other was frozen by vitrification method. The slow freezing procedure was performed in two steps (5% glycerol and 9% glycerol + 0.2 M sucrose for 10 min, respectively) using programmed freezer ($-2^{\circ}C$/min to $-7^{\circ}C$, manual seeding at $-7^{\circ}C$, $-0.3^{\circ}C$/min to $-38^{\circ}C$ and plunged into $LN_{2}$). The blastocysts frozen by slow freezing were thawed at $36^{\circ}C$ then removed glycerol in 7 steps. The vitrification procedure was performed in three steps (10% glycerol for 5 min, 10% glycerol + 20% ethylene glycol for 5 min, 25% glycerol + 25% ethylene glycol and directly $LN_{2}$ within 1 min). The blastocysts frozen by vitrification were thawed at $20^{\circ}C$ water then removed cryoprotectant in 3 steps. In each group, thawed blastocysts were cocultured with cumulus cells in YS medium containing 20% hFF for 18h and transferred into the uterus. The implantation rate was evaluated per transferred blastocysts and the pregnancy rate was evaluated per transfers. Results: The survival rate of vitrified group (74.5%) was higher than slow freezing group (68.0%), but not significant. When 98 thawed blastocysts of vitrification were transferred in 40 cycles, 19 pregnancies (clinical pregnancy rate; 47.5%) were established. One miscarriage occurred in the eighth week of pregnancy (ongoing pregnancy rate; 45.0%). 7 pregnancies were ongoing, 11 pregnancies went to term, and 16 healthy infants were born. The Implantation rate was 31.6%. These results were higher than those obtained by the slow freezing (clinical pregnancy rate; 40.3%, ongoing pregnancy rate; 32.5% and implantation rate; 25.3%), but not significant. Conclusion: Vitrification is a simple, quick and economical method when compared to slow freezing. It will be chosen as a good method of human embryo freezing in IVF-ET programs.

CRISPR/Cas9 유전자 편집 기술과 돼지에서 응용

조광근,박서영 경상대학교 농업생명과학연구원 2021 농업생명과학연구 Vol.55 No.4

새롭게 부상하는 CRISPR (clustered regularly interspaced short palindromic repeats)/Cas (CRISPR-associated protein) 9 유전자 편집 기술은 장기 이식(organ transplantation)과 같은 생의학 연구(biomedical research)와 동물 산업에 대한 전통적인 접근 방식을 빠르게 변화시키고 있다. 돼지 생식 및 호흡기 증후군 바이러스(porcine reproductive and respiratory syndrome virus; PRRSV)와 전염성 위장염 바이러스 (transmissible gastroenteritis coronavirus; TGEV)는 돼지 산업에 막대한 경제적 손실을 초래하는 치명적인 바이러스이다. 바이러스의 숙주 수용체 단백질 CD163과 pAPN에 대한 이중 유전자 녹아웃(double knock-out; DKO) 돼지는 PRRSV와 TEGV에 내성을 나타내었으며, 정상(wild-type; WT) 돼지와 비교할 때 성장과 생식 특성의 차이가 없었다. 이러한 결과는 경제 동물 돼지에 CRISPR-Cas9 매개 유전자 편집 기술을 적용하여 바이러스 저항성 유전자 변형에 의한 품종 개량이 달성될 수 있다는 것을 보여주며, 질병 저항성 돼지 생산을 위한 육종 시작점을 제공한다. 종간 배반포 보완(interspecies blastocyst complementation)은 이종 만능 줄기세포 유도체(xenogenic pluripotent stem cell derivatives)의 장기 특이적 생산(organ-specific enrichment)을 가능하게 한다. CRISPR-Cas9 매개 접합자 유전자 편집(CRISPR-Cas9-mediated zygote gene editing)을 이용하여 췌장 생성(pancreatogenesis), 신장 생성(nephrogenesis), 간 생성(hepatogenesis) 및 혈관 생성(vasculogenesis)이 불가능 생쥐 숙주를 만들었으며, 이러한 숙주와 배반포 보완 플랫폼을 결합하여 키메라를 만들었다. 또한 돼지와 소 같은 유제류(ungulate)의 섬유아세포(fibroblasts)를 이용하여 CRISPR-Cas9 매개 유전자 편집과 체세포 핵 치환(somatic cell nuclear transfer) 과정을 거쳐 복제 배아(genome-edited cloned embryos) 를 생산하였다. 복제 배아의 1차 배양 섬유아세포(primary cultured fibroblasts)를 재복제하여 배반포 보완을 위한 숙주 배아로 이용하였다. CRISPR-Cas9 유전자 편집 기술과 종간 배반포 보완 플랫폼 전략의 조합은 유전자 변형 돼지를 생산하는 데 유용하다. 본 논문에서는 CRISPR/Cas9 유전자 편집 기술과 배반포 보완 플랫폼, 질병 저항성(disease resistance) 돼지, 이종장기이식(xenotransplantation) 목적의 키메라 생산을 소개하고자 한다. The emerging CRISPR (clustered regularly interspaced short palindromic repeats)/Cas (CRISPR-associated protein) 9 gene editing technology is rapidly changing the traditional approach to biomedical research and animal industry such as organ transplantation. Porcine reproductive and respiratory syndrome virus (PRRSV) and infectious gastroenteritis virus (TGEV) are lethal viruses that cause major economic losses to pig production. The double gene knockout (DKO) pigs against these viral receptor proteins CD163 and pAPN showed resistance to PRRSV and TEGV, and there were no differences in meat production and reproductive performance traits compared to wild-type (WT) pigs. These results show that breeding by viral resistance genetic modification can be achieved by applying CRISPR-Cas9 mediated gene editing technology to economic animal pigs, providing a breeding starting point for the production of disease-resistant pigs. Interspecies blastocyst complementation enables organ-specific enrichment of xenogenic pluripotent stem cell derivatives. CRISPR-Cas9-mediated zygote gene editing was used to create a mouse host incapable of pancreatogenesis, nephrogenesis, hepatogenesis and vasculogenesis. Chimera was created by combining this host with a blastocyst complementation platform. In addition, using fibroblasts from ungulates such as pigs and cows, genome-edited cloned embryos were produced. Primary cultured fibroblasts were used for generating cloned embryos as the host embryos for blastocyst complementation. The combination of CRISPR/Cas9 gene editing technology and an interspecies blastocyst complementation platform strategy is particularly useful for generating genetically modified pigs. Therefore, this review paper introduces CRISPR/Cas9 gene editing technology, interspecies blastocyst complementation platform, disease resistance pigs, and human-pig chimera production for xenotransplantation purposes.

Establishment of Human-Mouse Chimeric Animal by Injecting Human Embryonic Stem Cells into Mouse Blastocoele Cavity

윤지연,이영재,김은영,이훈택,정길생,박세필,임진호 충남대학교 형질전환복제돼지연구센터 2004 논문집 Vol. No.8

Establishment of Human-Mouse Chimeric Animal by Injecting Human Embryonic Stem Cells into Mouse Blastocoele Cavity

윤지연,이영재,김은영,이훈택,정길생,박세필,임진호 한국동물번식학회 2003 Reproductive & Developmental Biology(Supplement) Vol.27 No.1s

Establishment of Human-Mouse Chimeric Animal by Injecting Human Embryonic Stem Cells into Mouse Blastocoele Cavity

윤지연,이영재,김은영,이훈택,정길생,박세필,임진호 한국동물생명공학회(구 한국동물번식학회) 2003 Reproductive & developmental biology Vol.27 No.1

인간포배기 배아의 효과적인 유리화 동결법의 개발을 위한 연구

이상민,이주희,이상원,이승민,윤산현,임진호,박흠대,이성구,Lee, Sang-Min,Lee, Ju-Hee,Lee, Sang-Won,Lee, Seoung-Min,Yoon, San-Hyun,Lim, Jin-Ho,Park, Huem-Dai,Lee, Seong-Goo 대한생식의학회 2003 Clinical and Experimental Reproductive Medicine Vol.30 No.3

Objective: The purpose of this study was to evaluate the survival rate of vitrified blastocyst according to the freezing vessels, equilibration time in cryoprotectant and artificial dehydration method. Methods: Human blastocysts were vitrified after loading onto the plastic straw, open-pulled straw (OPS), electron microscopy grid (EM grid) for 1.5 min or 3 min. They also were directly plunged into LN2 within 30sec. For artificial shrinkage of blastocysts, 36 gauge fine needle was pushed at the cellular junction of the trophectoderm into the blstocoele cavity until it shrank without damage of inner cell mass. Results: The survival rate of vitrified blastocysts on plastic straw, OPS, EM grid as freezing vessels were 26.7, 13.0 and 60.5%, respectively. The survival rate of EM grid was significantly higher than that of plastic straw and OPS (p<0.05). For 1.5 min equilibrium, the survival rates of early blastocyst (EB), middle blastocyst (MB) and late blastocyst (LB) were 64.4, 81.0, and 20.0% respectively. For 3 min equilibrium, the survival rates of EB, MB, and LB were 69.9, 50.0 and 57.5% respectively. The survival rates of EB and MB were significantly higher than that of LB in 1.5 min equilibrium group (p<0.05), however, the significance was not observed in 3 min equilibrium groups. In cytoplasmic shrinkage before vitrification, the survival rates of EB, MB and LB were 92.9, 100 and 75.9% respectively. The survival rate of MB was significantly higher than that of LB (p<0.05). The survival rates of vitrified blastocysts by artificial dehydration and slow-frozen blastocysts were not significantly different as 88.9 and 66.7%, respectively. Conclusion: This study showed that the vitrification of human blastocysts using EM grid and artificial dehydration is an effective method. Therefore, these methods would be an useful techniques for blastocyst cryopreservation.