• 한국발생생물학회지:발생과생식
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• 제12권1호
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• pp.77-86
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• 2008

본 연구에서는 LIF의 첨가가 분리된 할구 유래의 생쥐 배아줄기세포 확립에 미치는 영향을 살펴보았다. 과배란 유도된 BDF1 생쥐로부터 2-세포기의 배아를 회수하여 각기 LIF가 첨가되지 않은 배양액과 1,000, 2,500, 5,000 U/mL의 LIF가 첨가된 배양액에서 포배기 배아까지 배양하였다. 배양된 포배기 배아는 차별화 염색 방법을 이용하여 내세포괴와 영양외배엽의 수를 계수하였다. 2,500 U/mL의 LIF 첨가 시 대조군($21.0{\pm}4.0$ vs. $15.9{\pm}5.0$, P<0.01)과 1,000 U/mL의 LIF를 처리한 군($21.0{\pm}4.0$ vs. $16.6{\pm}4.9$, P<0.05)에 비해서 내세포괴의 수가 유의하게(P<0.05) 증가하였다. 배아줄기세포주 확립 배양액으로는 FBS 대신 20% KSR과 0.01 mg/mL의 ACTH를 사용하였다. 2,500 U/mL의 LIF를 첨가 시 배아줄기세포 확립 효율이 36.7%(11/30)로 가장 높은 효율을 나타내었다. 이러한 배양 조건을 기본으로 하여 2-와 4-세포기 배아의 단일 할구를 분리하여 각기 21.4%(3/14)와 4.0%(1/20)의 효율로 단일 할구 배아줄기세포주를 확립할 수 있었다. 단일 할구로부터 확립된 배아줄기세포주와 이들에서 분화된 배아체는 세포면역학적 염색 방법과 RT-PCR 방법을 통해 그들의 미분화 특성과 삼배엽성 분화 특성을 확인할 수 있었다. 결론적으로 배양액에 LIF를 첨가하여 포배기 배아의 내세포괴 수를 증가시킬 수 있었으며, 분리된 할구의 배아줄기세포주 확립 효율을 향상시킬 수 있었다.

• Clinical and Experimental Reproductive Medicine
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• 제29권4호
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• pp.269-278
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• 2002

Objective s: Chromosome aneuploidy is associated with recurrent abortion and congenital anomaly and genetic diseases occur repeatedly in the specific families. Preimplantation genetic diagnosis (PGD) can prevent aneuploidy or genetic disease by selecting normal embryos before implantation and is an alternative to prenatal diagnosis. The aim of this study is to assess the outcome of PGD cycles by using FISH or PCR, and to determine the clinical usefulness and values in patients with risk of chromosomal aneuploidy or genetic disease. Materials and Methods: From 1995 to Apr. 2001, a total of 108 PGD cycles in 65 patients with poor reproductive outcome were analyzed. The indications of PGD were translocation (n=49), inversion (n=2), aneuploidy screening (n=7), Duchenne muscular dystrophy (n=5) and spinal muscular atrophy (n=2). PGD was applied due to the history of recurrent abortion, previous birth of affected child or risk of aneuploidy related to sex chromosome aneuploidy or old age. Blastomere biopsy was performed in 6$\sim$10 cell stage embryo after IVF with ICSI. In the single blastomere, chromosome aneuploidy was diagnosed by using FISH and PCR was performed for the diagnosis of exon deletion in DMD or SMA. Results: The FISH or PCR amplification was successful in 94.3% of biopsied blastomeres. The rate of transferable balanced emb ryos was 24.0% in the chromosome translocation and inversion, 57.1% for the DMD and SMA, and 28.8% for the aneuploidy screening. Overall hCG positive rate per transfer was 17.8% (18/101) and clinical pregnancy rate was 13.9% (14/101) (11 term pregnancy, 3 abortion, and 4 biochemical pregnancy). The clinical pregnancy rate of translocation and inversion was 12.9% (11/85) and abortion rate was 27.3% (3/11). In the DMD and SMA, the clinical pregnancy rate was 33.3% (3/9) and all delivered at term. The PGD results were confirmed by amniocentesis and were correct. When the embryos developed to compaction or morula, the pregnancy rate was higher (32%) than that of the cases without compaction (7.2%, p<0.01). Conclusions: PGD by using FISH or PCR is useful to get n ormal pregnancy by reducing spontaneous abortion associated with chromosome aneuploidy in the patients with structural chromosome aberration or risk of aneuploidy and can prevent genetic disease prior to implantation.

• Clinical and Experimental Reproductive Medicine
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• 제30권2호
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• pp.111-118
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• 2003

Objectives: The development of an useful method for obtaining metaphase chromosomes from a biopsied blastomere would allow differentiation between embryos with balanced and normal chromosome complements in the preimplantation genetic diagnosis for chromosomal translocations. This study was performed to evaluate the effects of microtubule depolymerizing agents (MTDAs) on the blastomeres of mouse and human preimplantation embryos, and to establish an effective method for obtaining metaphase chromosomes of biopsied blastomeres in human early embryos. Materials and Methods: Early embryos (2-4 cell stage) from superovulated mice (ICR strain) were collected and treated with single or mixture MTDAs, such as vinblastine, nocodazole and colcemid. After the treatment of MTDAs for 16 hours, the metaphase aquisition (MA) rates were evaluated by the observation of chromosome status with bis-benzimide or DAPI staining. The optimal condition from the above experiment was applied to human embryos, which were developed from abnormal fertilization (3-pronuclei). Fluorescence in-situ hybridization (FISH) with whole chromosome probes was conducted on the human metaphase chromosomes by the MTDAs. Results: In mouse embryos, the effective concentrations of each MTDAs for obtaining metaphase chromosomes were $1.0{\mu}M$ of vinblastine (20.3%), $5.0{\mu}M$ of nocodazole (28.1%) and $1.0{\mu}M$ colcemid (55.6%), respectively. The highest MA rate (91.2%) in the mouse embryos was obtained by a mixture of vinblastine ($1.0{\mu}M$) and nocodazole ($1.0{\mu}M$). In the human embryos, the metaphase chromosomes of blastomeres were obtained in 44 of 113 blastomeres (38.9%) by treatment of the mixture of vinblastine and nocodazole. FISH signals of the metaphase chromosomes were successfully observed in human individual blastomeres. Conclusions: The treatment of a mixture MTDAs for obtaining metaphase chromosomes was an efficient method, and the MA rate was above 90% in the mouse embryos. However, only a relatively small proportions of the blastomeres yielded metaphase chromosomes by the MTDAs in the human embryos. The inconsistent effects of MTDAs may be related to the variation of different species and the poor developmental potency of abnormally fertilized human embryos. We should develop more reliable and efficient methods for obtaining the metaphase chromosomes in the biopsied blastomeres of human preimplantation embryos.