DNA replication cycle in parthenogenetically developing eggs of the starfish Asterina pectinifera

Starfish oocytes artificially activated by a calcium ionophore will develop normally if the formation of polar bodies is suppressed. In the present paper, schedules of the DNA replication period (S phase) of these parthenogenotes were explicitly timed using 5-bromo-2'-deoxyuridine (BrdU) and anti-BrdU monoclonal antibody. Their schedule of S phase was identical to that of fertilized eggs. Consequently, an S phase regulation system is triggered even in parthenogenotes raised by dual treatment of egg activation and polar body suppression. The S phase schedule of parthenogenotes confirms the temporal pattern of chromosome duplication, observed by other researchers, leading to tetraploid parthenogenotes. The S phase determination also provides a basis for argument concerning the number of centrioles participating in parthenogenetic development. If polar body formation of activated eggs was not suppressed, the first S phase was normal, but the second S phase did not recur on time. A rigidly regulated system of DNA replication cycle, which should be an essential prerequisite for parthenogenesis, thus requires the content of polar bodies.     

一种改良的BrdU免疫组织化学染色抗原热修复技术

目的：探索一种简单有效的行BrdU免疫组织化学染色抗原热修复的方法。方法：本实验探索了三种抗原热修复方法：1）漂片煮沸法,2）贴片煮沸法,3）贴片改良法。将贴有冰冻组织切片的玻片置于恒温封闭体系中进行热修复。之后行BrdU免疫组化染色,栗集图像对这三种热修复方法进行比较。针对贴片改良法行BrdU与NeuN、P。CERB和DCX的荧光双标,采集图像以观察该方法在免疫荧光甄标实验中应用的可行性。结果：1）漂片煮沸法脑组织切片在经过热修复处理后,切片卷起皱缩,不能进行后续实验步骤;2）贴片煮沸法可见少量BrdU阳性细胞,但背景深,且少数脑片起泡,假阳性现象严重;3）贴片改良法B-U免疫组化及与NeuN、P-CERB和DCX的免疫荧光双标染色背景浅,阳性细胞明显。结论：采用改良的热修复法能充分暴露BrdU抗原,DAB显色及免疫荧光染色结果理想。此方法为一种较好的行BrdU免疫组织化学染色抗原热修复方法。     

流式细胞术BrdU/DNA 双染法测定云芝糖肽 诱导的Molt-4 细胞周期阻滞

目的:探究云芝糖肽(PSP)对人急性淋巴母细胞白血病Molt-4细胞周期的影响。方法:采用流式细胞术BrdU/DNA双染法获得各时相细胞分布状况和细胞周期的动力学参数。结果:0.1 mg/mlPSP处理12 h后,G2/M期细胞百分比由对照组的11.09%减少至3.69%。DNA合成时间由12.10 h延长至108.40 h。24 h处理组中,S期细胞百分比由对照组的43.29%增加至67.26%,而G0/G1期和G2/M期细胞百分比均减少,G0/G1期细胞百分比由对照组的37.47%减少至27.43%,G2/M期细胞百分比由对照组的19.24%降低至5.31%。DNA合成时间更是由11.95 h延长至114.52 h。结论:PSP对人急性淋巴母细胞白血病Molt-4细胞周期的阻滞作用在于S期,该作用与DNA合成抑制有关。     

A novel interaction of CLN3 with nonmuscle myosin-IIB and defects in cell motility of Cln3 cells

Juvenile neuronal ceroid lipofuscinosis (JNCL) is a pediatric lysosomal storage disorder characterized by accumulation of autofluorescent storage material and neurodegeneration, which result from mutations in CLN3. The function of CLN3, a lysosomal membrane protein, is currently unknown. We report that CLN3 interacts with cytoskeleton-associated nonmuscle myosin-IIB. Both CLN3 and myosin-IIB are ubiquitously expressed, yet mutations in either produce dramatic consequences in the CNS such as neurodegeneration in JNCL patients and Cln3^−/− mouse models, or developmental deficiencies in Myh10^−/− mice, respectively. A scratch assay revealed a migration defect associated with Cln3^−/− cells. Inhibition of nonmuscle myosin-II with blebbistatin in WT cells resulted in a phenotype that mimics the Cln3^−/− migration defect. Moreover, inhibiting lysosome function by treating cells with chloroquine exacerbated the migration defect in Cln3^−/−. Cln3^−/− cells traversing a transwell filter under gradient trophic factor conditions displayed altered migration, further linking lysosomal function and cell migration. The myosin-IIB distribution in Cln3^−/− cells is elongated, indicating a cytoskeleton defect caused by the loss of CLN3. In summary, cells lacking CLN3 have defects that suggest altered myosin-IIB activity, supporting a functional and physical interaction between CLN3 and myosin-IIB. We propose that the migration defect in Cln3^−/− results, in part, from the loss of the CLN3–myosin-IIB interaction.     

Prolactin administration during early postnatal life decreases hippocampal and olfactory bulb neurogenesis and results in depressive-like behavior in adulthood

Tight regulation of hormone and neurochemical milieu during developmental periods is critical for adequate physiological functions. For instance, activation of peptide systems during early life stress induces morphological changes in the brain resulting in depression and anxiety disorders. Prolactin (PRL) exerts different actions within the brain; it regulates neurogenesis and modulates neuroendocrine functions in the adult. However, PRL effects during early postnatal life are hardly known. Therefore, we examined whether neonatal administration of PRL influences cell survival in the hippocampal dentate gyrus (DG) and in the olfactory bulb (OB) and whether such influence results in behavioral consequences in adulthood. PRL-treated rat pups (13 mg/kg; PND1 to PND14), injected with BrdU at postnatal day 5 (PND5), showed a decrease in the density of DG BrdU/DCX and BrdU/NeuN-positive cells that survive at PND15. Similarly, PRL treatment decreased the density of BrdU + cells in the OB compared with VEH. Fluorojade B analysis showed no significant changes in the amount of cell death in the DG between the groups. Postnatal PRL administration induced a passive coping strategy in the forced swimming test in male and female adult rats when compared with control and vehicle groups. Corticosterone endogenous levels at PND12 were not affected by PRL or VEH treatment. Altogether, these results suggest that opposed to its effects in the adult, postnatal PRL treatment affects neurogenesis and results in psychopathology later in life. High PRL levels, as observed in neonates under several pathological states, might contribute to detrimental effects on the developing brain.     

DNA-damage response in chromatin of ribosomal genes and the surrounding genome

DNA repair events have functional significance especially for genome stability. Although the DNA damage response within the whole genome has been extensively studied, the region-specific characteristics of nuclear sub-compartments such as the nucleolus or fragile sites have not been fully elucidated. Here, we show that the heterochromatin protein HP1 and PML protein recognize spontaneously occurring 53BP1- or γ-H2AX-positive DNA lesions throughout the genome. Moreover, 53BP1 nuclear bodies, which co-localize with PML bodies, also occur within the nucleoli compartments. Irradiation of the human osteosarcoma cell line U2OS with γ-rays increases the degree of co-localization between 53BP1 and PML bodies throughout the genome; however, the 53BP1 protein is less abundant in chromatin of ribosomal genes and fragile sites (FRA3B and FRA16D) in γ-irradiated cells. Most epigenomic marks on ribosomal genes and fragile sites are relatively stable in both non-irradiated and γ-irradiated cells. However, H3K4me2, H3K9me3, H3K27me3 and H3K79me1 were significantly changed in promoter and coding regions of ribosomal genes after exposure of cells to γ-rays. In fragile sites, γ-irradiation induces a decrease in H3K4me3, changes the levels of HP1β, and modifies the levels of H3K9 acetylation, while the level of H3K9me3 was relatively stable. In these studies, we confirm a specific DNA-damage response that differs between the ribosomal genes and fragile sites, which indicates the region-specificity of DNA repair.