技术资料

Chemotherapy and radiation therapy for cancer often have severe side effects that limit their efficacy. Because these effects are in part determined by p53-mediated apoptosis,temporary suppression of p53 has been suggested as a therapeutic strategy to prevent damage of normal tissues during treatment of p53-deficient tumors. To test this possibility,a small molecule was isolated for its ability to reversibly block p53-dependent transcriptional activation and apoptosis. This compound,pifithrin-alpha,protected mice from the lethal genotoxic stress associated with anticancer treatment without promoting the formation of tumors. Thus,inhibitors of p53 may be useful drugs for reducing the side effects of cancer therapy and other types of stress associated with p53 induction. View Publication

The termination of activation signals is a critical step in the control of the immune response; perturbation of inhibitory feedback pathways results in profound immune defects culminating in autoimmunity and overwhelming inflammation. FcgammaRIIB receptor is a well described inhibitory receptor. The ligation of B-cell receptor (BCR) and FcgammaRIIB leads to the inhibition of B-cell activation. Numerous studies have demonstrated that the SH2-domain-containing inositol 5-phosphatase SHIP (referred hereto as SHIP-1) is essential in this process. The cDNA encoding a second SH2-domain-containing inositol 5-phosphatase,SHIP-2,has been cloned [Pesesse,Deleu,De Smedt,Drayer and Erneux (1997) Biochem. Biophys. Res. Commun. 239,697-700]. Here we report the distribution of SHIP-2 in mouse tissues: a Western blot analysis of mouse tissues reveals that SHIP-2 is expressed in both haemopoietic and non-haemopoietic cells. In addition to T-cell and B-cell lines,spleen,thymus and lung are shown to coexpress SHIP-1 and SHIP-2. Moreover,SHIP-2 is detected in fibroblasts,heart and different brain areas. SHIP-2 shows a maximal tyrosine phosphorylation and association to Shc after ligation of BCR to FcgammaRIIB but not after stimulation of BCR alone. Our results therefore suggest a possible role for SHIP-2 in the negative regulation of immunocompetent cells. View Publication

Because hematopoietic stem cells are rich in aldehyde dehydrogenase (ALDH) activity,we developed a fluorescent substrate for ALDH,termed BODIPY aminoacetaldehyde (BAAA),and tested its potential for isolating primitive human hematopoietic cells. A population of cells with low orthogonal light scattering and bright fluorescence intensity (SSC(lo)ALDH(br) cells) could be readily fractionated from human umbilical cord blood cells costained with BAAA and the multidrug-resistance inhibitor verapamil. The SSC(lo)ALDH(br) population was depleted of lineage-committed cells,40-90% pure for CD34(+)CD38(lo/-) cells,and enriched 50- to 100-fold for primitive hematopoietic progenitors detected in short- and long-term culture analyses. Together,these observations indicate that fractionating human hematopoietic stem cells on the basis of ALDH activity using BAAA is an effective method for isolating primitive human hematopoietic progenitors. This technique may be useful for isolating stem cells from other tissues as well. View Publication

In this report,we sought to optimize gene transfer into primitive human umbilical cord blood (UCB) cells. Initially,we found that fresh UCB isolated with the CD34brCD38 CD33 phenotype were highly enriched for hematopoietic progenitors detected in extended long-term cultures (8-week LTCs). In addition,following ex vivo gene transfer,this population possessed virtually all the 8-week LTC activity of the cultured cells. A multiparameter FACS assay was developed to efficiently screen the effects of alternative retroviral vector gene transfer procedures on the transduction efficiency and maintenance of CD34brCD38 CD33 cells. Proliferation of the CD34brCD38 CD33 cells was found to be a prerequisite for efficient transduction. However,in all conditions tested,proliferation of the CD34brCD38 CD33 cells was associated with a progressive loss of primitive cell properties including a reduction in CD34 expression,an increase in CD38/CD33 expression,and a decline in the ability to sustain 8-week LTCs. These observations indicate that it will be necessary to define conditions that more effectively support the self-renewal capacity of CD34brCD38 CD33 cells to optimize retroviral vector gene transfer in these cells. Evaluating these conditions and reagents will be facilitated by the multiparameter FACS assay described in this report. View Publication

A novel homology model of the kinase domain of Janus kinase (JAK) 3 was used for the structure-based design of dimethoxyquinazoline compounds with potent and specific inhibitory activity against JAK3. The active site of JAK3 in this homology model measures roughly 8 A x 11 A x 20 A,with a volume of approximately 530 A3 available for inhibitor binding. Modeling studies indicated that 4-(phenyl)-amino-6,7-dimethoxyquinazoline (parent compound WHI-258) would likely fit into the catalytic site of JAK3 and that derivatives of this compound that contain an OH group at the 4' position of the phenyl ring would more strongly bind to JAK3 because of added interactions with Asp-967,a key residue in the catalytic site of JAK3. These predictions were consistent with docking studies indicating that compounds containing a 4'-OH group,WHI-P131 [4-(4'-hydroxyphenyl)-amino-6,7-dimethoxyquinazoline],WHI-P154 [4-(3'-bromo-4'-hydroxylphenyl)-amino-6,7-dimethoxyquinazoline],and WHI-P97 [4-(3',5'-dibromo-4'-hydroxylphenyl)-amino-6,7-dimethoxyquinazolin e],were likely to bind favorably to JAK3,with estimated K(i)s ranging from 0.6 to 2.3 microM. These compounds inhibited JAK3 in immune complex kinase assays in a dose-dependent fashion. In contrast,compounds lacking the 4'-OH group,WHI-P79 [4-(3'-bromophenyl)-amino-6,7-dimethoxyquinazoline],WHI-P111 [4-(3'-bromo-4'-methylphenyl)-amino-6,7-dimethoxyquinazoline],WHI-P112 [4-(2',5'-dibromophenyl)-amino-6,7-dimethoxyquinazoline],WHI-P132 [4-(2'-hydroxylphenyl)-amino-6,7-dimethoxyquinazoline],and WHI-P258 [4-(phenyl)-amino-6,7-dimethoxyquinazoline],were predicted to bind less strongly,with estimated K(i)s ranging from 28 to 72 microM. These compounds did not show any significant JAK3 inhibition in kinase assays. Furthermore,the lead dimethoxyquinazoline compound,WHI-P131,which showed potent JAK3-inhibitory activity (IC50 of 78 microM),did not inhibit JAK1 and JAK2,the ZAP/SYK family tyrosine kinase SYK,the TEC family tyrosine kinase BTK,the SRC family tyrosine kinase LYN,or the receptor family tyrosine kinase insulin receptor kinase,even at concentrations as high as 350 microM. WHI-P131 induced apoptosis in JAK3-expressing human leukemia cell lines NALM-6 and LC1;19 but not in melanoma (M24-MET) or squamous carcinoma (SQ20B) cells. Leukemia cells were not killed by dimethoxyquinazoline compounds that were inactive against JAK3. WHI-P131 inhibited the clonogenic growth of JAK3-positive leukemia cell lines DAUDI,RAMOS,LC1;19,NALM-6,MOLT-3,and HL-60 (but not JAK3-negative BT-20 breast cancer,M24-MET melanoma,or SQ20B squamous carcinoma cell lines) in a concentration-dependent fashion. Potent and specific inhibitors of JAK3 such as WHI-P131 may provide the basis for the design of new treatment strategies against acute lymphoblastic leukemia,the most common form of childhood cancer. View Publication

OBJECTIVE To investigate the inhibition of matrix metalloproteinase 1 (MMP-1),MMP-8,and MMP-13 by doxycycline,and to determine whether the variable hemopexin-like domain of each MMP was responsible for the differences in susceptibility to doxycycline inhibition among these collagenases. METHODS Recombinant human MMP-1 (collagenase 1),MMP-8 (collagenase 2),and MMP-13 (collagenase 3),truncated forms of MMP-8 and MMP-13 lacking the hemopexin-like domain,and a mutant form of truncated MMP-13 were used in these studies. The activity of the full-length MMP in the presence of doxycycline was tested against type II collagen,a natural substrate for the enzymes. A small peptolide substrate was used to determine which structural features of the MMPs were related to sensitivity to doxycycline inhibition. RESULTS The activity of MMP-13 and MMP-8 against type II collagen was inhibited by 50-60% by 30 microM doxycycline,while that of MMP-1 was inhibited only 18% by 50 microM doxycycline. In contrast,in experiments with the peptolide substrate,neither full-length nor truncated MMP-13 was inhibited until the concentration of the drug exceeded 90 microM. MMP-8 and truncated MMP-8 were sensitive to inhibition by 30 microM doxycycline,while MMP-1 was slightly inhibited (14%) by 90 microM doxycycline. For MMP-8,inhibition was reversible upon dilution and was independent of the order in which the reagents were added. Kinetic analysis of the inhibition constant (K(i)) of MMP-8 (K(i) = 36 microM) and truncated MMP-8 (K(i) = 77 microM) indicated that inhibition was noncompetitive. CONCLUSION Significant inhibition of MMP-13 and MMP-8 activity against collagen occurred in vitro at concentrations that were near the concentrations achieved in serum after oral dosing. Studies with truncated enzymes and 2 substrates suggest that doxycycline disrupts the conformation of the hemopexin-like domain of MMP-13 and the catalytic domain of MMP-8. View Publication

Analysis of the National Cancer Institute Human Tumor Cell Line Anti-Cancer Drug Screen data using the COMPARE algorithm to detect similarities in the pattern of compound action to flavopiridol,a known inhibitor of cyclin-dependent kinases (CDKs),has suggested several possible novel CDK inhibitors. 9-Bromo-7,12-dihydro-indolo[3,2-d][1]benzazepin-6(5H)-one,NSC-664704 (kenpaullone),is reported here to be a potent inhibitor of CDK1/cyclin B (IC50,0.4 microM). This compound also inhibited CDK2/cyclin A (IC50,0.68 microM),CDK2/cyclin E (IC50,7.5 microM),and CDK5/p25 (IC50,0.85 microM) but had much less effect on other kinases; only c-src (IC50,15 microM),casein kinase 2 (IC50,20 microM),erk 1 (IC50,20 microM),and erk 2 (IC50,9 microM) were inhibited with IC50s less than 35 microM. Kenpaullone acts by competitive inhibition of ATP binding. Molecular modeling indicates that kenpaullone can bind in the ATP binding site of CDK2 with residue contacts similar to those observed in the crystal structures of other CDK2-bound inhibitors. Analogues of kenpaullone,in particular 10-bromopaullone (NSC-672234),also inhibited various protein kinases including CDKs. Cells exposed to kenpaullone and 10-bromopaullone display delayed cell cycle progression. Kenpaullone represents a novel chemotype for compounds that preferentially inhibit CDKs. View Publication

Fetal liver,the major site of hematopoiesis during embryonic development,acquires additional various metabolic functions near birth. Although liver development has been characterized biologically as consisting of several distinct steps,the molecular events accompanying this process are just beginning to be characterized. In this study,we have established a novel culture system of fetal murine hepatocytes and investigated factors required for development of hepatocytes. We found that oncostatin M (OSM),an interleukin-6 family cytokine,in combination with glucocorticoid,induced maturation of hepatocytes as evidenced by morphological changes that closely resemble more differentiated hepatocytes,expression of hepatic differentiation markers and intracellular glycogen accumulation. Consistent with these in vitro observations,livers from mice deficient for gp130,an OSM receptor subunit,display defects in maturation of hepatocytes. Interestingly,OSM is expressed in CD45(+) hematopoietic cells in the developing liver,whereas the OSM receptor is expressed predominantly in hepatocytes. These results suggest a paracrine mechanism of hepatogenesis; blood cells,transiently expanding in the fetal liver,produce OSM to promote development of hepatocytes in vivo. View Publication

AG-490 is a member of the tyrphostin family of tyrosine kinase inhibitors. While AG-490 has been considered to be a Janus kinase (JAK)2-specific inhibitor,these conclusions were primarily drawn from acute lymphoblastic leukemia cells that lack readily detectable levels of JAK3. In the present study,evidence is provided that clearly demonstrates AG-490 potently suppresses IL-2-induced T cell proliferation,a non-JAK2-dependent signal,in a dose-dependent manner in T cell lines D10 and CTLL-2. AG-490 blocked JAK3 activation and phosphorylation of its downstream counterpart substrates,STATs. Inhibition of JAK3 by AG-490 also compromised the Shc/Ras/Raf/mitogen-activated protein kinase (MAPK) signaling pathways as measured by phosphorylation of Shc and extracellular signal-related kinase 1 and 2 (ERK1/2). AG-490 effectively inhibited tyrosine phosphorylation and DNA binding activities of several transcription factors including STAT1,-3,-5a,and -5b and activating protein-1 (AP-1) as judged by Western blot analysis and electrophoretic mobility shift assay. These data suggest that AG-490 is a potent inhibitor of the JAK3/STAT,JAK3/AP-1,and JAK3/MAPK pathways and their cellular consequences. Taken together,these findings support the notion that AG-490 possesses previously unrecognized clinical potential as an immunotherapeutic drug due to its inhibitory effects on T cell-derived signaling pathways. View Publication

Teratoma formation is a critical obstacle to safe clinical translation of human embryonic stem (ES) cell-based therapies in the future. As current methods of isolation are unable to yield 100% pure population of differentiated cells from a pluripotent donor source,potential development of these tumors is a significant concern. Here we used non-invasive reporter gene imaging to investigate the relationship between human ES cell number and teratoma formation in a xenogenic model of ES cell transplantation. Human ES cells (H9 line) were stably transduced with a double fusion (DF) reporter construct containing firefly luciferase and enhanced green fluorescent protein (Fluc- eGFP) driven by a human ubiquitin promoter. Immunodeficient mice received intramyocardial (n = 35) or skeletal muscle (n = 35) injection of 1 × 102,1 × 103,1 × 104,1 × 105 or 1 × 106 DF positive ES cells suspended in saline for myocardium and Matrigel for skeletal muscle. Cell survival and proliferation were monitored via bioluminescence imaging (BLI) for an 8 week period following transplantation. Mice negative for Fluc signal after 8 weeks were followed out to day 365 to confirm tumor absence. Significantly,in this study,a minimum of 1 × 105 ES cells in the myocardium and 1 × 104 cells in the skeletal muscle was observed to be requisite for teratoma development,suggesting that human ES cell number may be a critical factor in teratoma formation. Engraftment and tumor occurrence were also observed to be highly dependent on ES cell number. We anticipate these results should yield useful insights to the safe and reliable application of human ES cell derivatives in the clinic. Keywords View Publication