Characterization of a chloroplast DNA sequence from Chlorella ellipsoidea that promotes autonomous replication in yeast

Summary An EcoRI 2.7 kbp fragment from Chlorella ellipsoidea chloroplast DNA (cpDNA) cloned in YIp5 was shown to promote autonomous replication in Saccharomyces cerevisiae. The fragment was localized in the small single copy region close to the inverted repeat. The ARS activity (autonomously replicating sequences in yeast) was found to be confined within a subclone of a ca. 300 bp HindIII fragment. Sequence analysis of this fragment revealed its high AT content and the presence of several direct and inverted repeats and a few elements that were related to the yeast ARS consensus sequence. Electron microscopic studies revealed that this sequence did not coincide with the primary replication origin of chloroplast DNA. The functioning of this sequence as a possible origin of plasmid replication in vivo is discussed. This is the first report on Chlorella cpDNA sequence. re]19850821 rv]19851211 ac]19851216     

Expression of cys-cys chemokine ligand 21 on human gingival lymphatic vessels

The cys-cys (C-C) chemokine ligand 21 is a member of the C-C chemokines that constitute a group of heparin-binding cytokines with a pattern of four or six conserved cysteines. The CCL21 is known to be expressed in secondary lymphoid tissues, however it has rarely been reported for the expression on peripheral lymphatic vessels in somatic tissue. Here we investigated the expression of CCL21 on lymphatic vessels identified by anti-desmoplakin in uninflamed and inflamed human gingiva. In uninflamed tissue the expression of CCL21 was detected on lymphatic vessels in gingiva. In uninflamed gingiva the expression of CCL21 was detected on all lymphatic capillaries of the mucosal connective tissue papillae. There were two types of collecting lymphatic vessels in the lamina propria mucosae expressing CCL21 strongly or very weakly. In inflamed gingiva no expression of CCL21 was detected on lymphatic vessels. In all tissue sections no blood vessels expressing CCL21 were observed. These results may suggest that the expression of CCL21 is predominantly induced in the peripheral lymphatic endothelium of the uninflamed mucosal microcirculation, and that under inflamed conditions a reduction of CCL21 occurs in lymphatic endothelium.     

Dioxin silences gonadotropin expression in perinatal pups by inducing histone deacetylases: a new insight into the mechanism for the imprinting of sexual immaturity by dioxin

Maternal exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) causes the impairment of reproduction and development in the pups. Our previous studies have revealed that maternal treatment with TCDD attenuates the fetal production of pituitary gonadotropins (luteinizing hormone (LH) and follicle-stimulating hormone) at gestational day (GD) 20, leading to the impairment of sexual behavior in adulthood. However, the mechanism underlying such a reduction has remained unknown until now. When pregnant rats at GD15 were given an oral dose of TCDD (1 μg/kg), the testicular expression of steroidogenic proteins was reduced between GD20 and postnatal days (PND) 2. In accordance with this, the pituitary expression of gonadotropin β-subunit and serum gonadotropin were also attenuated from GD20 to PND0 in a pup-specific fashion. To identify the target genes linked to a fetal reduction in gonadotropin β-subunit, we performed a DNA microarray analysis using the fetal pituitary and its regulatory organ, the hypothalamus. The results obtained showed that TCDD induced histone deacetylases (HDACs) in the fetal pituitary. In support with this, TCDD markedly deacetylated histones H3 and H4 twined around the promoter of the fetal LHβ gene. This effect was fetus- and LHβ-specific, and this was not observed in the maternal pituitary or for other pituitary hormone genes. Finally, an LHβ reduction caused by TCDD was completely restored by maternal co-treatment with valproic acid, an HDAC inhibitor. These results strongly suggest that the increased deacetylation of histone owing to HDAC induction plays a critical role in the TCDD-induced reduction in LHβ in the fetal pituitary.     

Design,synthesis, and conformation of a model peptide of endothelin with cystine-stabilized α-helix motif

A model 16-peptide of endothelin-1 (MET-1), which has the minimized sequence homology to the corresponding pan of endothelin-1 (ET-1), was designed to confirm the cystine-stabilized α-helix motif. The model structure consists of an extended structure, a β-turn part, and an α-helix structure that is stabilized by two disulfide bonds. The α-helix segment was designed to emphasize the amphiphilic nature. In order to combine the extended structure and the α-helix segment, a D -Ala-Pro sequence was selected to fix the β-turn. The model endothelin 16-peptide amide was synthesized by solid-phase synthesis on a 4-methylbenzhydrylamine resin. Its conformation was examined by CD and two-dimensional (2D) ¹H-nmr measurements. MET-1 showed similar CD patterns to ET-1 in both buffer and 50% aqueous trifluoroethanol solution. The 2D nmr experiments in 50% aqueous ethylene glycol revealed that MET-1 closely resembles the conformation of ET-1 with an extended structure, an α-helix, and a β-turn unit in the same position of the sequence. Furthermore, model peptides without disulfide bond(s) could not assume a stable structure in aqueous solution, while they did have similar α-helical content in 50% trifluoroethanol with MET-1. When the two disulfide bridges were simultaneously formed, the peptide with the correct disulfide bonds (MET-1) was obtained in threefold excess to the isomer (apamin type. MET-2). These findings obtained by the modeling of ET-1 showed an important role for the stabilization of peptide conformation with disulfide bonds. © 1994 John Wiley & Sons, Inc.     

Structure–activity-relationship studies on dihydrofuran-fused perhydrophenanthrenes as an anti-Alzheimer’s disease agent

As an extended study on development of anti-Alzheimer’s disease agent, we newly synthesized various dihydrofuran-fused perhydrophenanthrenes via o-quinodimethane chemistry. This study revealed that the introduction of carbon side-chain on 8-position or removal of the acetal moiety on 3-position arose a cytotoxicity on rat cortical neurons. On the other hand, the ethereal or thio-ethereal substituent on 8-position enhanced the elongation effect on Aβ-damaged neurons. The necessity of the cyano group on 10b position was also proved in this structure–activity-relationship study.     

Annexin A4 Is Involved in Proliferation,Chemo-Resistance and Migration and Invasion in Ovarian Clear Cell Adenocarcinoma Cells

Ovarian clear cell adenocarcinoma (CCC) is the second most common subtype of ovarian cancer after high-grade serous adenocarcinomas. CCC tends to develop resistance to the standard platinum-based chemotherapy, and has a poor prognosis when diagnosed in advanced stages. The ANXA4 gene, along with its product, a Ca⁺⁺-binding annexin A4 (ANXA4) protein, has been identified as the CCC signature gene. We reported two subtypes of ANXA4 with different isoelectric points (IEPs) that are upregulated in CCC cell lines. Although several in vitro investigations have shown ANXA4 to be involved in cancer cell proliferation, chemoresistance, and migration, these studies were generally based on its overexpression in cells other than CCC. To elucidate the function of the ANXA4 in CCC cells, we established CCC cell lines whose ANXA4 expressions are stably knocked down. Two parental cells were used: OVTOKO contains almost exclusively an acidic subtype of ANXA4, and OVISE contains predominantly a basic subtype but also a detectable acidic subtype. ANXA4 knockdown (KO) resulted in significant growth retardation and greater sensitivity to carboplatin in OVTOKO cells. ANXA4-KO caused significant loss of migration and invasion capability in OVISE cells, but this effect was not seen in OVTOKO cells. We failed to find the cause of the different IEPs of ANXA4, but confirmed that the two subtypes are found in clinical CCC samples in ratios that vary by patient. Further investigation to clarify the mechanism that produces the subtypes is needed to clarify the function of ANXA4 in CCC, and might allow stratification and improved treatment strategies for patients with CCC.     

Prolactin induces MFG-E8 production in macrophages via transcription factor C/EBPβ-dependent pathway

The lactogenic hormone prolactin (PRL) regulates milk protein gene expression in mammary glands. To maintain homeostatic balance in the body, milk fat globule epidermal growth factor 8 (MFG-E8) is vital for phagocytic clearance of apoptotic cells. We investigated the effects of PRL on MFG-E8 expression in macrophages by evaluating its promoter function. Macrophages were stimulated with PRL, and the expression of MFG-E8 was determined using real-time PCR and Western blotting. The role of MFG-E8 on phagocytosis of apoptotic cells in PRL-treated macrophages was assessed using microscopy, while the response of PRL to MFG-E8 expression was evaluated using luciferase assay. Following treatment with PRL, significant up-regulations of the PRL receptor and MFG-E8 were observed in macrophages, though PRL-treated macrophages more efficiently engulfed apoptotic cells. The results of MFG-E8 promoter analysis showed considerable up-regulation of promoter activity in macrophages following PRL treatment and results from mutation analysis of the MFG-E8 promoter suggested that the C/EBPβ binding site was responsible for PRL-induced activation of the MFG-E8 promoter. C/EBPβ activity was found to be up-regulated in PRL-treated cells as revealed by an electrophoretic mobility shift assay (EMSA). In conclusion, PRL is a potent inducer of MFG-E8 expression in macrophages, while its effect is mediated by the presence of a responsive element in the MFG-E8 promoter.     

Allele frequencies of single nucleotide polymorphisms in the second exon of the myoglobin gene among the Japanese

The difference in the allele frequencies of two single nucleotide polymorphisms (SNPs) in the second exon of the myoglobin gene between Japanese and other populations is reported. These SNPs are the substitutions of (A79G) and (T109C), and they were investigated by a single polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) analysis followed by direct sequencing. The substitutions were always linked and two alleles were found in the samples used: the A-T allele with no substitution at positions (79A) and (109T) and the G-C allele with substitutions of (79G) and (109C). The frequencies of these alleles were 0.755 and 0.245, respectively, and they were found to be in Hardy-Weinberg equilibrium. The distribution of alleles in the Japanese population was significantly different from that reported among whites, blacks, and Hispanics (p < 0.0001).     

Caveolin-1 Facilitates the Direct Coupling between Large Conductance Ca2+-activated K+ (BKCa) and Cav1.2 Ca2+ Channels and Their Clustering to Regulate Membrane Excitability in Vascular Myocytes

L-type voltage-dependent Ca²⁺ channels (LVDCC) and large conductance Ca²⁺-activated K⁺ channels (BK_Ca) are the major factors defining membrane excitability in vascular smooth muscle cells (VSMCs). The Ca²⁺ release from sarcoplasmic reticulum through ryanodine receptor significantly contributes to BK_Ca activation in VSMCs. In this study direct coupling between LVDCC (Cav1.2) and BK_Ca and the role of caveoline-1 on their interaction in mouse mesenteric artery SMCs were examined. The direct activation of BK_Ca by Ca²⁺ influx through coupling LVDCC was demonstrated by patch clamp recordings in freshly isolated VSMCs. Using total internal reflection fluorescence microscopy, it was found that a large part of yellow fluorescent protein-tagged BK_Ca co-localized with the cyan fluorescent protein-tagged Cav1.2 expressed in the plasma membrane of primary cultured mouse VSMCs and that the two molecules often exhibited FRET. It is notable that each BKα subunit of a tetramer in BK_Ca can directly interact with Cav1.2 and promotes Cav1.2 cluster in the molecular complex. Furthermore, caveolin-1 deficiency in knock-out (KO) mice significantly reduced not only the direct coupling between BK_Ca and Cav1.2 but also the functional coupling between BK_Ca and ryanodine receptor in VSMCs. The measurement of single cell shortening by 40 mm K⁺ revealed enhanced contractility in VSMCs from KO mice than wild type. Taken together, caveolin-1 facilitates the accumulation/clustering of BK_Ca-LVDCC complex in caveolae, which effectively regulates spatiotemporal Ca²⁺ dynamics including the negative feedback, to control the arterial excitability and contractility.