Notch inhibition promotes fetal liver stem/progenitor cells differentiation into hepatocytes via the inhibition of HNF-1β

In a previous study, the Notch pathway inhibited with N-[N-(3,5-difluorophenacetyl)-L-alanyl]-S-phenylglycine t-butyl ester (also called DAPT) was shown to promote the differentiation of fetal liver stem/progenitor cells (FLSPCs) into hepatocytes and to impair cholangiocyte differentiation. The precise mechanism for this, however, was not elucidated. Two mechanisms are possible: Notch inhibition might directly up-regulate hepatocyte differentiation via HGF (hepatocyte growth factor) and HNF (hepatocyte nuclear factor)-4α or might impair cholangiocyte differentiation thereby indirectly rendering hepatocyte differentiation as the dominant state. In this study, HGF and HNF expression was detected after the Notch pathway was inhibited. Although our initial investigation indicated that the inhibition of Notch induced hepatocyte differentiation with an efficiency similar to the induction via HGF, the results of this study demonstrate that Notch inhibition does not induce significant up-regulation of HGF or HNF-4α in FLSPCs. This suggests that Notch inhibition induces hepatocyte differentiation without the influence of HGF or HNF-4α. Moreover, significant down-regulation of HNF-1β was observed, presumably dependent on an impairment of cholangiocyte differentiation. To confirm this presumption, HNF-1β was blocked in FLSPCs and was followed by hepatocyte differentiation. The expression of markers of mature cholangiocyte was impaired and hepatocyte markers were elevated significantly. The data thus demonstrate that the inhibition of cholangiocyte differentiation spontaneously induces hepatocyte differentiation and further suggest that hepatocyte differentiation from FLSPCs occurs at the expense of the impairment of cholangiocyte differentiation, probably being enhanced partially via HNF-1β down-regulation or Notch inhibition.     

Suppression of Viral RNA Binding and the Assembly of Infectious Hepatitis C Virus Particles In Vitro by Cyclophilin Inhibitors

Nonstructural protein 5A (NS5A) of hepatitis C virus (HCV) is an indispensable component of the HCV replication and assembly machineries. Although its precise mechanism of action is not yet clear, current evidence indicates that its structure and function are regulated by the cellular peptidylprolyl isomerase cyclophilin A (CyPA). CyPA binds to proline residues in the C-terminal half of NS5A, in a distributed fashion, and modulates the structure of the disordered domains II and III. Cyclophilin inhibitors (CPIs), including cyclosporine (CsA) and its nonimmunosuppressive derivatives, inhibit HCV infection of diverse genotypes, both in vitro and in vivo. Here we report a mechanism by which CPIs inhibit HCV infection and demonstrate that CPIs can suppress HCV assembly in addition to their well-documented inhibitory effect on RNA replication. Although the interaction between NS5A and other viral proteins is not affected by CPIs, RNA binding by NS5A in cell culture-based HCV (HCVcc)-infected cells is significantly inhibited by CPI treatment, and sensitivity of RNA binding is correlated with previously characterized CyPA dependence or CsA sensitivity of HCV mutants. Furthermore, the difference in CyPA dependence between a subgenomic and a full-length replicon of JFH-1 was due, at least in part, to an additional role that CyPA plays in HCV assembly, a conclusion that is supported by experiments with the clinical CPI alisporivir. The host-directed nature and the ability to interfere with more than one step in the HCV life cycle may result in a higher genetic barrier to resistance for this class of HCV inhibitors.     

Different Regional Gray Matter Loss in Recent Onset PTSD and Non PTSD after a Single Prolonged Trauma Exposure

Objective

Gray matter loss in the limbic structures was found in recent onset post traumatic stress disorder (PTSD) patients. In the present study, we measured regional gray matter volume in trauma survivors to verify the hypothesis that stress may cause different regional gray matter loss in trauma survivors with and without recent onset PTSD.

Method

High resolution T1-weighted magnetic resonance imaging (MRI) were obtained from coal mine flood disaster survivors with (n = 10) and without (n = 10) recent onset PTSD and 20 no trauma exposed normal controls. The voxel-based morphometry (VBM) method was used to measure the regional gray matter volume in three groups, the correlations of PTSD symptom severities with the gray matter volume in trauma survivors were also analyzed by multiple regression.

Results

Compared with normal controls, recent onset PTSD patients had smaller gray matter volume in left dorsal anterior cingulate cortex (ACC), and non PTSD subjects had smaller gray matter volume in the right pulvinar and left pallidum. The gray matter volume of the trauma survivors correlated negatively with CAPS scores in the right frontal lobe, left anterior and middle cingulate cortex, bilateral cuneus cortex, right middle occipital lobe, while in the recent onset PTSD, the gray matter volume correlated negatively with CAPS scores in bilateral superior medial frontal lobe and right ACC.

Conclusion

The present study identified gray matter loss in different regions in recent onset PTSD and non PTSD after a single prolonged trauma exposure. The gray matter volume of left dorsal ACC associated with the development of PTSD, while the gray matter volume of right pulvinar and left pallidum associated with the response to the severe stress. The atrophy of the frontal and limbic cortices predicts the symptom severities of the PTSD.     

Transgenic Christmas Trees Regenerated from Agrobacterium tumefaciens-mediated Transformation of Zygotic Embryos Using the Green Fluorescence Protein as a Reporter

Mature zygotic embryos of recalcitrant Christmas tree species Fraser fir [Abies fraseri (Pursh) Poir], and Nordmann fir (Abies nordmanniana L.k.), and Virginia pine (Pinus virginiana Mill.) were used as explants for Agrobacterium tumefaciens strain GV3850-mediated transformation using the gfp (green fluorescent protein) gene as a reporter. Factors including media used for inoculation and co-cultivation, concentrations of acetosyringone, and antibiotics in tissue culture media have been evaluated. A high transformation frequency was obtained on TE medium containing 50μM acetosyringone and using 500 mg/l timentin to eliminate bacteria. Transient gene expression was observed in all three Christmas tree species, but transgenic plants were only produced from Virginia pine. Stable integration and expression of transgenes in the plant genome of Virginia pine was confirmed by polymerase chain reaction (PCR), Southern and northern blot analyses. These results demonstrated that a stable transformation system has been established in Virginia pine and this system would provide an opportunity to transfer economically important genes into Christmas tree species.     

Deficiency of Niemann-Pick Type C-1 Protein Impairs Release of Human Immunodeficiency Virus Type 1 and Results in Gag Accumulation in Late Endosomal/Lysosomal Compartments

Human immunodeficiency virus type 1 (HIV-1) relies on cholesterol-laden lipid raft membrane microdomains for entry into and egress out of susceptible cells. In the present study, we examine the need for intracellular cholesterol trafficking pathways with respect to HIV-1 biogenesis using Niemann-Pick type C-1 (NPC1)-deficient (NPCD) cells, wherein these pathways are severely compromised, causing massive accumulation of cholesterol in late endosomal/lysosomal (LE/L) compartments. We have found that induction of an NPC disease-like phenotype through treatment of various cell types with the commonly used hydrophobic amine drug U18666A resulted in profound suppression of HIV-1 release. Further, NPCD Epstein-Barr virus-transformed B lymphocytes and fibroblasts from patients with NPC disease infected with a CD4-independent strain of HIV-1 or transfected with an HIV-1 proviral clone, respectively, replicated HIV-1 poorly compared to normal cells. Infection of the NPCD fibroblasts with a vesicular stomatitis virus G-pseudotyped strain of HIV-1 produced similar results, suggesting a postentry block to HIV-1 replication in these cells. Examination of these cells using confocal microscopy showed an accumulation and stabilization of Gag in LE/L compartments. Additionally, normal HIV-1 production could be restored in NPCD cells upon expression of a functional NPC1 protein, and overexpression of NPC1 increased HIV-1 release. Taken together, our findings demonstrate that intact intracellular cholesterol trafficking pathways mediated by NPC1 are needed for efficient HIV-1 production.Human immunodeficiency virus type 1 (HIV-1) is a complex retrovirus highly dependent upon a myriad of cellular mechanisms for successful virus replication. Cholesterol plays a pivotal role throughout the HIV-1 life cycle (23, 40, 41, 64). HIV-1 entry, assembly, and budding processes occur at cholesterol-enriched membrane microdomains known as lipid rafts, and depletion of cellular cholesterol markedly and specifically reduces HIV-1 particle production. Virion-associated cholesterol is required for fusion and subsequent infection of susceptible cells (41), and cholesterol-sequestering drugs, such as β-cyclodextrin, render the virus incompetent for cell entry (4, 25, 57). Therefore, intracellular cholesterol trafficking pathways that allow nascent HIV-1 particles to acquire lipids appear critical for virus replication.Recent evidence supports a critical role for cholesterol trafficking and homeostasis in viral replication, showing that the HIV-1 accessory protein Nef increases synthesis and transport of cholesterol to both lipid rafts and progeny virions and induces multiple genes involved in cholesterol synthesis (80, 88). More recent studies have revealed that binding of Nef to the ATP-binding cassette transporter A1 (ABCA1) leads to impairment of ABCA1-dependent cholesterol efflux and an accumulation of lipids within the cell (51).Mammalian cells acquire cholesterol primarily from endocytosed low-density lipoproteins (LDL). The Niemann-Pick type C-1 (NPC1) protein is well known for its role in intracellular trafficking of LDL-derived free unesterified cholesterol. Dysfunctional NPC1 activity leads to development of NPC disease, a rare, autosomal recessive, neurodegenerative disorder characterized by the massive accumulation of cholesterol and glycosphingolipids in late endosomal/lysosomal (LE/L) compartments (61). In normal cells, endocytosed LDLs are delivered to the LE/Ls, where they are hydrolyzed and free cholesterol is released. Homeostasis is achieved when cholesterol is then rapidly transported out of the LE/Ls to the plasma membrane and endoplasmic reticulum (ER) (17, 19, 42, 73, 85), or first to the trans-Golgi (TG) network (TGN) and then to the ER (76). In NPC1-deficient (NPCD) cells, the cholesterol does not exit the endocytic pathway, resulting in its accumulation within LE/L structures.In 95% of NPC patients, the disease is caused by mutations in the NPC1 gene, while the remaining 5% harbor mutations in the NPC2 gene (50, 72, 79). One of the most frequently found and extensively characterized NPC1 mutations is the I1061T mutation (37, 38, 86). This mutation results in misfolding of the NPC1 protein, leading to its degradation and causing an 85% decrease in cellular NPC1 expression (20). Cells with such low levels of functional NPC1 maintain only 38% of normal sphingomyelinase activity and have impaired cholesterol esterification and trafficking.NPC1 is a large, multispanning protein that resides in the limiting membrane of the LE and binds cholesterol via its N-terminal domain (31). While the complete physiological function of NPC1 is still unclear, NPC1 does share homology with the resistance-nodulation-division family of prokaryotic permeases and may function as a transmembrane efflux pump to transport cargos in LEs (9, 75). Other studies suggest that NPC1 might also function in vesicle-mediated pathways for cargo transportation from LEs to other intracellular sites (21, 33). Recent studies by Infante et al. have propelled forward our understanding of how NPC1 works together with NPC2, also known to bind cholesterol, to support cholesterol efflux from the LE (32). Their findings provide a basis for either of two possible models, with respect to cholesterol trafficking: (i) NPC1 binds cholesterol found within the LE and mediates either direct export or transfer to NPC2 for delivery to a cholesterol efflux transporter, such as ABCA1; or (ii) NPC2 is the first to bind cholesterol and then mediate its delivery to NPC1 for direct export or transfer to ABCA1. These recent findings underscore the highly critical role of these proteins in maintaining intracellular cholesterol homeostasis.In addition to its role in sterol trafficking, some studies suggest that the NPC pathway may be directly involved in trafficking multiple proteins from LE/L compartments. LEs act as sorting stations to deliver endocytosed molecules to L''s for degradation, while at the same time retrieving other classes of proteins and lipids for transport back to nondegradative compartments (3, 14, 15, 28, 63, 69, 78). LE compartments also serve as sorting stations for HIV-1 viral proteins and represent a major site for HIV-1 assembly and budding (7, 12, 16, 22, 24, 57, 59).The endosomal trafficking defects observed in NPCD cells extend to proteins such as IGF2/MPR, NPC1, and annexin II, all of which utilize the endosomal recycling pathway (42, 74). Electron microscopy studies have shown that within the LEs of NPCD cells these proteins are trapped in the cholesterol-enriched membrane-bound vesicular structures (47). Cholesterol and glycosphingolipid accumulation within NPCD cells appears to disrupt Rab9 GTPase function in LE-to-TGN transport, trapping Rab9-associated proteins, such as vimentin, Tip47, and the mannose-6-phosphate receptor in LEs (18, 83). Overexpression of Rab7 and Rab9 GTPases can reverse the cholesterol accumulation phenotype caused by NPCD (8, 84). These observations suggest that NPC1, directly or indirectly, plays a role in protein export from LEs. It is unknown whether NPC1 is involved in the export of HIV-1 proteins from LEs; however, the Rab9 GTPase-mediated pathway is known to be required for HIV-1 replication (53). This strongly suggests that HIV assembly will be hindered when the NPC pathway is disrupted.Given the function of NPC1 in mediating intracellular cholesterol trafficking within the LE and given the need of HIV-1 for cholesterol, NPC1 involvement in HIV-1 biogenesis is highly likely. In the present study, using cells treated with U18666A or NPCD cells, we show that impaired NPC1 function results in profound suppression of HIV-1 replication. Further, our findings demonstrate that the NPC1 protein is essential for proper trafficking of the HIV-1 Gag protein during the late stages of assembly and budding. It appears that in NPCD cells, in which cholesterol and cellular proteins accumulate in LE/L compartments, the viral Gag protein fails to traffic properly and accumulates within these compartments, resulting in decreased particle production. Our findings not only reinforce the dependence of HIV-1 on cholesterol homeostasis but also support a role for NPC1 in HIV-1 viral protein trafficking and particle release from infected cells.     

Design and synthesis of a new class of malonyl-CoA decarboxylase inhibitors with anti-obesity and anti-diabetic activities

A new series of thiazole-substituted 1,1,1,3,3,3-hexafluoro-2-propanols were prepared and evaluated as malonyl-CoA decarboxylase (MCD) inhibitors. Key analogs caused dose-dependent decreases in food intake and body weight in obese mice. Acute treatment with these compounds also led to a drop in elevated blood glucose in a murine model of type II diabetes.     

The immunomodulatory protein B7-H4 is overexpressed in breast and ovarian cancers and promotes epithelial cell transformation

B7-H4 protein is expressed on the surface of a variety of immune cells and functions as a negative regulator of T cell responses. We independently identified B7-H4 (DD-O110) through a genomic effort to discover genes upregulated in tumors and here we describe a new functional role for B7-H4 protein in cancer. We show that B7-H4 mRNA and protein are overexpressed in human serous ovarian cancers and breast cancers with relatively little or no expression in normal tissues. B7-H4 protein is extensively glycosylated and displayed on the surface of tumor cells and we provide the first demonstration of a direct role for B7-H4 in promoting malignant transformation of epithelial cells. Overexpression of B7-H4 in a human ovarian cancer cell line with little endogenous B7-H4 expression increased tumor formation in SCID mice. Whereas overexpression of B7-H4 protected epithelial cells from anoikis, siRNA-mediated knockdown of B7-H4 mRNA and protein expression in a breast cancer cell line increased caspase activity and apoptosis. The restricted normal tissue distribution of B7-H4, its overexpression in a majority of breast and ovarian cancers and functional activity in transformation validate this cell surface protein as a new target for therapeutic intervention. A therapeutic antibody strategy aimed at B7-H4 could offer an exciting opportunity to inhibit the growth and progression of human ovarian and breast cancers.     

Machilus parapauhoi sp. nov. and a new synonym of Machilus (Lauraceae) from east Asia

A new species of the genus Machilus Nees (Lauraceae) from China, M. parapauhoi F. N. Wei, S. C. Tang & W. B. Xu is described and illustrated. The new species is similar to M. pauhoi Kanehira, but differs in its densely appressed pubescent branchlets and petioles, shorter petiole, 0.8–1.2 cm long and an infructescence conspicuously shorter than the leaf. It is also similar to M. kwangtungensis Yang, but differs by its oblique leaves, with falcately curved apex and 14–18 lateral veins on both sides of the midrib. Based on a study of the type and isotype specimens of M. balansae (Airy Shaw) F. N. Wei & S. C. Tang and M. grandifolia S. Lee & F. N. Wei, M. grandifolia is regarded as a new synonym of M. balansae.     

海南普通野生稻稻瘟病的抗性鉴定与评价

在苗期应用自然诱发鉴定法对海南普通野生稻(Oryza rufipogonGriff.)41个居群的410份材料进行了2年的稻瘟病(rice blast)抗性鉴定,结果表明:经过初鉴和复鉴,410份海南普通野生稻中有21份表现高抗,占5.1%,117份表现抗,占28.5%,说明海南普通野生稻具有较好的稻瘟病抗性。     

Diversified chromosomal distribution of tandemly repeated sequences revealed evolutionary trends in Secale (Poaceae)

Genomic in situ hybridization (GISH) with Secale cereale cv. ‘Jingzhou rye’ DNA as a probe to chromosomes of hexaploid triticale line Fenzhi-1 revealed that not only were all chromosomes of rye strongly hybridized along the entire chromosome length, but there were also stronger signals in terminal or subtelomeric regions. This pattern of hybridization signals is referred to as GISH banding. After GISH banding, sequential fluorescene in situ hybridizaion (FISH) with tandem repeated sequence pSc200 and pSc250 as probes showed that the chromosomal distribution of pSc200 is highly coincident with the GISH banding pattern, suggesting that GISH banding revealed chromosomal distribution of pSc200 in rye. In addition, FISH using pSc200 and pSc250 as probes to chromosomes of 11 species of the genus Secale and two artificial amphiploids (Triticum aestivum-S. strictum subsp. africanum amphiploid and Aegilops tauschii-S. silvestre amphiploid) showed that (1) the chromosomal distribution of pSc200 and pSc250 differed greatly in Secale species, and the trend towards an increase in pSc200 and pSc250 binding sites from wild species to cultivated rye suggested that pSc200 and pSc250 sequences gradually accumulated during Secale evolution; (2) the chromosomal distribution of pSc200 and pSc250 presented polymorphism on homologous chromosomes, suggesting that the same species has two heterogeneous homologous chromosomes; (3) the intensity and number of hybridization signals varied differently on chromosomes between pSc200 and pSc250, suggesting that each repetitive family evolved independently.