Low- and High-LET Ionizing Radiation Induces Delayed Homologous Recombination that Persists for Two Weeks before Resolving.

Genome instability is a hallmark of cancer cells and dysregulation or defects in DNA repair pathways cause genome instability and are linked to inherited cancer predisposition syndromes. Ionizing radiation can cause immediate effects such as mutation or cell death, observed within hours or a few days after irradiation. Ionizing radiation also induces delayed effects many cell generations after irradiation. Delayed effects include hypermutation, hyper-homologous recombination, chromosome instability and reduced clonogenic survival (delayed death). Delayed hyperrecombination (DHR) is mechanistically distinct from delayed chromosomal instability and delayed death. Using a green fluorescent protein (GFP) direct repeat homologous recombination system, time-lapse microscopy and colony-based assays, we demonstrate that DHR increases several-fold in response to low-LET X rays and high-LET carbon-ion radiation. Time-lapse analyses of DHR revealed two classes of recombinants not detected in colony-based assays, including cells that recombined and then senesced or died. With both low- and high-LET radiation, DHR was evident during the first two weeks postirradiation, but resolved to background levels during the third week. The results indicate that the risk of radiation-induced genome destabilization via DHR is time limited, and suggest that there is little or no additional risk of radiation-induced genome instability mediated by DHR with high-LET radiation compared to low-LET radiation.

Site-specific migration of human fetal melanocytes in volar skin.

BACKGROUND: Melanocytes originate from the neural crest and migrate ventrally from the dorsal neural tube during embryogenesis. How human melanocytes locate at their suitable positions during embryogenesis, however, is unclear. Although a growing body of evidence indicates that melanocytes, melanoblasts, and melanocyte stem cells are closely related to hair follicles, little is known about volar skin. OBJECTIVE: The aim of this study was to observe skin development during human fetal period and clarify the site-specific migration process of human fetal sole melanocytes. METHODS: We obtained 4-mm punch biopsies from the scalp, back, abdomen, and right sole of 36 aborted fetuses (gestational age 12-21 weeks). We compared the migration process between hairly areas and volar areas by immunohistochemical staining. RESULTS: Immunohistochemical examination revealed that gp100 (HMB-45) sensitively detects human melanocytes in embryogenesis. Melanocytes were present at the epidermal base, where hair placodes/buds form at 12-15 weeks gestation. Fetal melanocytes in hair follicles are supplied from the epidermis. In volar skin, melanocytes originally localize only in the acrosyringium, where they migrate deeper into with gland development at 16-18 weeks gestation. Palmoplantar melanocyte migration and maturation processes differ considerably from those of the other hairy skin sites. CONCLUSION: Eccrine sweat glands seem to have a central role in the palmoplantar melanocyte migration process, similar to the role of hair follicles in hairy sites.

Guidelines for obstetrical practice in Japan: Japan Society of Obstetrics and Gynecology (JSOG) and Japan Association of Obstetricians and Gynecologists (JAOG) 2014 edition.

The 'Clinical Guidelines for Obstetrical Practice, 2011 edition' were revised and published as a 2014 edition (in Japanese) in April 2014 by the Japan Society of Obstetrics and Gynecology and the Japan Association of Obstetricians and Gynecologists. The aims of this publication include the determination of current standard care practices for pregnant women in Japan, the widespread use of standard care practices, the enhancement of safety in obstetrical practice, the reduction of burdens associated with medico-legal and medico-economical problems, and a better understanding between pregnant women and maternity-service providers. The number of Clinical Questions and Answers items increased from 87 in the 2011 edition to 104 in the 2014 edition. The Japanese 2014 version included a Discussion, a List of References, and some Tables and Figures following the Answers to the 104 Clinical Questions; these additional sections covered common problems and questions encountered in obstetrical practice, helping Japanese readers to achieve a comprehensive understanding. Each answer with a recommendation level of A, B or C was prepared based principally on 'evidence' or a consensus among Japanese obstetricians in situations where 'evidence' was weak or lacking. Answers with a recommendation level of A or B represent current standard care practices in Japan. All 104 Clinical Questions and Answers items, with the omission of the Discussion, List of References, and Tables and Figures, are presented herein to promote a better understanding among English readers of the current standard care practices for pregnant women in Japan.

Negligible immunogenicity of terminally differentiated cells derived from induced pluripotent or embryonic stem cells.

The advantages of using induced pluripotent stem cells (iPSCs) instead of embryonic stem (ES) cells in regenerative medicine centre around circumventing concerns about the ethics of using ES cells and the likelihood of immune rejection of ES-cell-derived tissues. However, partial reprogramming and genetic instabilities in iPSCs could elicit immune responses in transplant recipients even when iPSC-derived differentiated cells are transplanted. iPSCs are first differentiated into specific types of cells in vitro for subsequent transplantation. Although model transplantation experiments have been conducted using various iPSC-derived differentiated tissues and immune rejections have not been observed, careful investigation of the immunogenicity of iPSC-derived tissue is becoming increasingly critical, especially as this has not been the focus of most studies done so far. A recent study reported immunogenicity of iPSC- but not ES-cell-derived teratomas and implicated several causative genes. Nevertheless, some controversy has arisen regarding these findings. Here we examine the immunogenicity of differentiated skin and bone marrow tissues derived from mouse iPSCs. To ensure optimal comparison of iPSCs and ES cells, we established ten integration-free iPSC and seven ES-cell lines using an inbred mouse strain, C57BL/6. We observed no differences in the rate of success of transplantation when skin and bone marrow cells derived from iPSCs were compared with ES-cell-derived tissues. Moreover, we observed limited or no immune responses, including T-cell infiltration, for tissues derived from either iPSCs or ES cells, and no increase in the expression of the immunogenicity-causing Zg16 and Hormad1 genes in regressing skin and teratoma tissues. Our findings suggest limited immunogenicity of transplanted cells differentiated from iPSCs and ES cells.

Crucial role of c-Myc in the generation of induced pluripotent stem cells.

c-Myc transduction has been considered previously to be nonessential for induced pluripotent stem cell (iPSC) generation. In this study, we investigated the effects of c-Myc transduction on the generation of iPSCs from an inbred mouse strain using a genome integration-free vector to exclude the effects of the genetic background and the genomic integration of exogenous genes. Our findings reveal a clear difference between iPSCs generated using the four defined factors including c-Myc (4F-iPSCs) and those produced without c-Myc (3F-iPSCs). Molecular and cellular analyses did not reveal any differences between 3F-iPSCs and 4F-iPSCs, as reported previously. However, a chimeric mice formation test indicated clear differences, whereby few highly chimeric mice and no germline transmission was observed using 3F-iPSCs. Similar differences were also observed in the mouse line that has been widely used in iPSC studies. Furthermore, the defect in 3F-iPSCs was considerably improved by trichostatin A, a histone deacetyl transferase inhibitor, indicating that c-Myc plays a crucial role in iPSC generation through the control of histone acetylation. Indeed, low levels of histone acetylation were observed in 3F-iPSCs. Our results shed new light on iPSC generation mechanisms and strongly recommend c-Myc transduction for preparing high-quality iPSCs.

Glycogen storage disease type Ia (GSD Ia) during pregnancy: report of a case complicated by fetal growth restriction and preeclampsia.

Glycogen storage disease type Ia (GSD Ia) leads to disturbed glycogenolysis and gluconeogenesis due to a deficiency in the enzyme glucose-6-phosphatase. A patient with GSD Ia showed hypoglycemia and proteinuria without dietary management since early pregnancy. The patient's condition was complicated by hypertension with increase in proteinuria at 22 weeks of gestation. In spite of administration of antihypertensive drugs and dietary management, the disease became more severe with deterioration in the fetal status and inhibition of fetal growth. Thus, a cesarean section was performed at 26 weeks of gestation. The delivered male infant weighing 412 g died at 2 days after birth. The patient's blood pressure had normalized within 3 months after delivery, while proteinuria persisted.

Loss of hepatitis C virus RNA after parturition in female patients with chronic HCV infection.

It is unclear whether pregnancy has any influence on chronic hepatitis C virus (HCV) infection. The aim of this study was to investigate the relationship between pregnancy and parturition with HCV viremia levels and the natural resolution of HCV RNA. Twenty-two pregnant patients and 120 nonpregnant control female patients, both positive for anti-HCV and HCV RNA, were studied. The HCV core protein levels were quantified by enzyme immunoassay, and HCV RNA was detected by reverse transcription-polymerase chain reaction (RT-PCR). Of the pregnant group, two females whose HCV RNA was negative continuously for more than 6 months lost HCV RNA permanently after parturition, and one female whose level of HCV core protein was intermittently under the limit of detection level lost HCV RNA intermittently. In the control group, only one female lost HCV RNA persistently, and one lost HCV RNA intermittently after she developed liver cirrhosis. At 3 months after parturition, the HCV core protein level was <15 fmol/L in all patients who lost HCV RNA, while the HCV core protein level was >/=15 fmol/L in 81.3% of the patients who persistently had HCV RNA (P = 0.03). Significantly more pregnant patients lost HCV RNA than did nonpregnant controls. These findings suggest that pregnancy and parturition appear to influence the clinical course of HCV infection.