Mature cystic teratomas (MCTs) in the ovaries have been thought to originate from germ cells from all developmental stages, i.e., from pre-meiotic oogonia through meiotic oocytes to mature post-meiotic ova. This view was based on research on MCTs by classical methods, including those involving centromeric heteromorphisms in karyotypes, enzyme polymorphisms, and DNA polymorphisms. However, insufficient genomic information was obtained in those studies. The current study aimed to confirm the cytogenetic origin of ovarian MCTs by using short tandem repeat (STR) polymorphism analysis to obtain sufficient genomic information, especially in connection with centromeric loci. Tissue samples of MCTs (57 ovaries from 51 patients, 91 MCTs, 156 specimens in total) obtained from cystectomies or oophorectomies were used. We categorized the specimens into two groups: i) solid components of MCTs and ii) cyst walls. The numbers of solid components of MCTs from pre-meiotic oogonia, primary oocytes, secondary oocytes, and ova were 0, 33, 16, and 15, respectively. There were no pre-meiotic oogonia in this series of solid-component specimens. We propose a hypothesis for the tumorigenesis of ovarian MCTs: the precursors of ovarian MCTs are not functional oocytes or ova, but are primary oocytes that have escaped from meiotic arrest. This hypothesis could satisfactorily explain the lack of pre-meiotic teratomas observed in this study and the nearly equal distribution of teratomas originating from primary oocytes, secondary oocytes, and ova in previous studies. Furthermore, this hypothesis could provide a starting point for determining the mechanism underlying tumorigenesis of ovarian MCTs.
Although our data did not reach significance, they support a link between long-term tamoxifen and the development of endometrial cancer in Japanese women with breast cancer.
Ovarian mature cystic teratomas (MCTs) originate from post-meiotic germ cells. Conventional methods such as karyotyping or short tandem repeat-polymorphism analysis may be used to better classify MCTs, although such data would be insufficient. The aim of this study was to elucidate the origin of ovarian MCTs using B allele-frequency (BAF) plots of single nucleotide polymorphism array data. MCTs can be classified in terms of the zygosity of the centromeres and distal chromosome regions. We evaluated the zygosity of all chromosomes from 38 MCT specimens using BAF plot data. BAF plots were used to determine the homozygous and heterozygous regions over the whole genome. Theoretically, MCTs originated from the fusion of two ova (previously referred to as type V MCTs) should have a mixed pattern of centromeric zygosity, that is, a combination of heterozygous and homozygous regions in the centromeric regions. However, no MCTs in this study met this criterion. We identified 13 type I MCTs, 14 type II MCTs, and 11 type III MCTs. In addition, BAF plots facilitated the construction of recombination maps at the whole-genome level for type I and II MCTs. No crossover, especially in the short arms, contributed to the failure of meiosis I, resulting in type I MCTs. Crossover in all arms might assure the normal progress of meiosis in human oocytes. In conclusion, our findings indicate that BAF plots can elucidate the developmental mechanism of MCTs, and further serve as useful analytical tools for analyzing human oocyte meiosis, and related aberrations.
Pig. 4. Schematic representation of cellular turnover in normal and psoriatic epidermis. Labeled cells are restricted in the deep layer of the epidermis in both normal (NORM) and psoriatic (PS) skins, 1 hour after local injection of 3H-thymidine but migrate upward as time elapses. By 7 days, the labeled cells of the psoriatic skin have traveled through the whole thickness of the epidermis, while in the normal skin they do not yet reach the surface. It takes 21 days in the normal epidermis. The life span of normal and psoriatic epidermal cells is 21 and 5 days, respectively. NORM.
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