Evolutionarily plastic regions at human 3p21.3 coincide with tumor breakpoints identified by the "elimination test"

We have previously found with the microcell hybrid-based "elimination test" that human chromosome 3 transferred into murine or human tumor cells regularly lost certain 3p regions during tumor growth in SCID mice. The most common eliminated region, CER1, is approximately 2.4 Mb at 3p21.3. CER1 breakpoints were clustered in approximately 200-kb regions at both telomeric and centromeric borders. We have also shown, earlier, that tumor-related deletions often coincide with human/mouse synteny breakpoints on 3p12-p22. Here we describe the results of a comparative genomic analysis on the CER1 region in Caenorhabditis elegans, Drosophila melanogaster, Fugu rubripes, Gallus gallus, Mus musculus, Rattus norvegicus, and Canis familiaris. First, four independent synteny breaks were found within the CER1 telomeric breakpoint cluster region, comparing human, dog, and chicken genomes, and two independent synteny breaks within the CER1 centromeric breakpoint cluster region, comparing human, mouse, and chicken genomes, suggesting a nonrandom involvement of tumor breakpoint regions in chromosome evolution. Second, both CER1 breakpoint cluster regions show recent tandem duplications (seven Zn finger protein family genes at the telomeric and eight chemokine receptor genes at the centromeric side). Finally, all genes from these regions underwent horizontal evolution in mammals, with formation of new genes and expansion of gene families, which were displayed in the human genome as tandem gene duplications and pseudogene insertions. In contrast the CER1 middle region contained evolutionarily well-conserved solitary genes and a minimal amount of retroposed genes. The coincidence of evolutionary plasticity with CER1 breakpoints may suggest that regional structural instability is expressed in both evolutionary and cancer-associated chromosome rearrangements.     

Comparative human/murine sequence analysis of the common eliminated region 1 from human 3p21.3

Interspecies sequence comparison offers an effective approach to identify conserved elements that might have functional importance. We compared 1.32 Mb of C3CER1 (referred also as CER1) from human Chromosome (Chr) 3p21.3 to its orthologous regions on mouse Chr 9F. The corresponding mouse region was found divided into two blocks, but their gene content and gene positions were highly conserved between human and mouse. We observed that two orthologous mouse genes (Xtrp3s1 and Cmkbr1) were duplicated, and this resulted in two additional expressed mouse genes (Xtrp3 and Cmkbr111). We also recognized a large number of conserved elements that were neither exons, CpG islands, nor repeats. We further identified and characterized five novel orthologous mouse genes (Kiaa0028, Xtrp3s1, Fyco1, Tmem7, and Lrrc2).     

WIF-1研究进展

WIF-1是Wnt信号通路上的拮抗物之一,可以阻断Wnt的经典通路和非经典通路。目前在人类多种肿瘤的研究发现WIF-1表达异常。WIF-1（Wnt inhibitory factor-1）,sFRP（Frizzled related protein）和CER（Cerberus）属于Wnt拮抗物家族,通过直接与Wnt蛋白相连从而阻止Wnt与受体蛋白复合物相连,使细胞质中的β-catenin由于磷酸化而不能积累,进而阻断了经典通路和非经典通路。WIF-1可能与中胚层的发生以及肿瘤细胞的生长分化有关。Wnt家族其他成员已经被证实与早期冠心病、Ⅱ型糖尿病、肥胖症、骨质疏松症等相关。因此了解WIF-1在通路上的更多信息,解释WIF-1调节Wnt信号通路的机理和过程,为疾病治疗和预防以及药物开发提供新的方法。     

Stanniocalcin-1 Reduces Tumor Size in Human Hepatocellular Carcinoma

Growing evidence has revealed high expression levels of stanniocalcin-1 (STC1) in different types of human cancers. Numerous experimental studies using cancer cell lines demonstrated the involvement of STC1 in inflammatory and apoptotic processes; however the role of STC1 in carcinogenesis remains elusive. Hepatocellular carcinoma (HCC) an exemplified model of inflammation-related cancer, represents a paradigm of studying the association between STC1 and tumor development. Therefore, we conducted a statistical analysis on the expression levels of STC1 using clinicopathological data from 216 HCC patients. We found that STC1 was upregulated in the tumor tissues and its expression levels was positively correlated with the levels of interleukin (IL)-6 and IL-8. Intriguingly tumors with greater expression levels of STC1 (tumor/normal ≥ 2) were significantly smaller than the lower level (tumor/normal<2) samples (p = 0.008). A pharmacological approach was implemented to reveal the functional correlation between STC1 and the ILs in the HCC cell-lines. IL-6 and IL-8 treatment of Hep3B cells induced STC1 expression. Lentiviral-based STC1 overexpression in Hep3B and MHCC-97L cells however showed inhibitory action on the pro-migratory effects of IL-6 and IL-8 and reduced size of tumor spheroids. The inhibitory effect of STC1 on tumor growth was confirmed in vivo using the stable STC1-overexpressing 97L cells on a mouse xenograft model. Genetic analysis of the xenografts derived from the STC1-overexpressing 97L cells, showed upregulation of the pro-apoptotic genes interleukin-12 and NOD-like receptor family, pyrin domain-containing 3. Collectively, the anti-inflammatory and pro-apoptotic functions of STC1 were suggested to relate its inhibitory effect on the growth of HCC cells. This study supports the notion that STC1 may be a potential therapeutic target for inflammatory tumors in HCC patients.     

Mapping of the CCXCR1, CX3CR1, CCBP2 and CCR9 genes to the CCR cluster within the 3p21.3 region of the human genome

Human CC-chemokine receptor genes are known to be clustered. The detailed structure of this cluster was established by radiation hybrid mapping, and organization of BAC contigs by fluorescence hybridization on combed genomic DNA. A main cluster of six genes (CCR1, CCR3, CCRL2, CCR5, CCR2 and CCXCR1), covered by four BACs, was mapped to the 3p21.3 region of the human genome. Five other genes (CCR9, CCBP2, CX3CR1, CCR8 and CCR4) were found to be spread over a relatively large region between this main cluster and the 3p telomere.     

Gene conversion between mammalian CCR2 and CCR5 chemokine receptor genes: a potential mechanism for receptor dimerization

The chemokine receptor genes of the CCR cluster on human chromosome 3p21 play important roles in humoral and cellular immune responses. Several of these receptors have been shown to influence human immunodeficiency virus infection and progression to AIDS, and their homologues may play a role in feline immunodeficiency virus infection. We report the isolation and sequencing of a 150-kb domestic cat BAC clone containing the feline CCR genes CCR1, CCR2, CCR3, and CCR5 to further analyze these four receptor genes within the family Felidae. Comparative and phylogenetic analyses reveal evidence for historic gene conversion between the adjacent CCR2 and CCR5 genes in the Felidae and in three independent mammalian orders (Primates, Cetartiodactyla, and Rodentia), resulting in higher than expected levels of sequence similarity between the two paralogous genes within each order. The gene conversion was restricted to the structural (transmembrane) domains of the CCR2 and CCR5 genes. We also discovered a recent gene conversion event between the third extracellular loop of CCR2 and CCR5 genes that was fixed in Asian lions and found at low frequency in African lions (Panthera leo), suggesting that this domain may have an important functional role. Our results suggest that ongoing parallel gene conversion between CCR2 and CCR5 promotes receptor heterodimerization in independent evolutionary lineages and offers an effective adaptive strategy for gene editing and coevolution among interactive immune response genes in mammals.     

Differential effects of leukotactin-1 and macrophage inflammatory protein-1 alpha on neutrophils mediated by CCR1

The human CC chemokine leukotactin-1 (Lkn-1) is both a strong chemoattractant for neutrophils, monocytes, and lymphocytes and a potent agonist for CCR1 and CCR3. However, human neutrophils do not migrate when the cells are stimulated with other human CC chemokines, such as human macrophage inflammatory protein-1 alpha (hMIP-1 alpha) and eotaxin, which also use the CCR1 and CCR3 as their receptors. In this report, we demonstrate that while hMIP-1 alpha induced a negligible level of calcium flux and chemotaxis, Lkn-1 produced a high level of calcium flux and chemotaxis in human neutrophils. Lkn-1 cross-desensitized hMIP-1 alpha-induced calcium flux, but hMIP-1 alpha had little effect on the Lkn-1-induced response in human neutrophils. The same pattern was observed in peritoneal neutrophils from wild-type mice, whereas neutrophils from CCR1-/- mice failed to respond to either MIP-1 alpha or Lkn-1. Scatchard analysis revealed a single class of receptor for both hMIP-1 alpha and Lkn-1 on human neutrophils with dissociation constants (Kd) of 3.2 nM and 1.1 nM, respectively. We conclude that CCR1 is a receptor mediating responses to both MIP-1 alpha and Lkn-1 on neutrophils and produces different biological responses depending on the ligand bound.     

Discovery of a novel CCR3 selective antagonist

In searching for a novel CCR3 receptor antagonist, we designed a library that included a variety of carboxamide derivatives based on the structure of our potent antagonists for human CCR1 and CCR3 receptors, and screened the new compounds for inhibitory activity against 125I-Eotaxin binding to human CCR3 receptors expressed in CHO cells. Among them, two 2-(benzothiazolethio)acetamide derivatives (1a and 2a) showed binding affinities with IC50 values of 750 and 1000 nM, respectively, for human CCR3 receptors. These compounds (1a and 2a) also possessed weak binding affinities for human CCR1 receptors. We selected la as a lead compound for derivatization to improve in vitro potency and selectivity for CCR3 over CCRI receptors. Derivatization of la by incorporating substituents into each benzene ring of the benzothiazole and piperidine side chain resulted in the discovery of a compound (1b) exhibiting 820-fold selectivity for CCR3 receptors (IC50 = 2.3 nM) over CCR1 receptors (IC50 = 1900 nM). This compound (1b) also showed potent functional antagonist activity for inhibiting Eotaxin (IC50 = 27 nM)- or RANTES (IC50 = 13 nM)-induced Ca2+ increases in eosinophils.     

Defective NKT Cell Activation by CD1d+ TRAMP Prostate Tumor Cells Is Corrected by Interleukin-12 with alpha-Galactosylceramide

Numerical and functional defects of invariant natural killer T cells (iNKT) have been documented in human and mouse cancers, resulting in a defect in IFN production in several malignancies. iNKT cells recognize glycolipids presented on CD1d molecules by dendritic and related cells, leading to their activation and thereby regulating immune reactions. Activated iNKT cells cytokine secretion and cytotoxicity can inhibit existing and spontaneous tumor growth, progression, and metastasis. We have identified functional iNKT cell defects in the murine TRAMP prostate cancer model. We found that iNKT cells show the ability to migrate into TRAMP prostate tumors. This infiltration was mediated through CCL2: CCR5 chemokine: receptor interaction. Prostate tumor cells expressing CD1d partially activated iNKT cells, as appreciated by up-regulation of CD25, PD-1 and the IL-12R. However, despite inducing up-regulation of these activation markers and, hence, delivering positive signals, prostate tumor cells inhibited the IL-12-induced STAT4 phosphorylation in a cell-cell contact dependent but CD1d-independent manner. Consequently, tumor cells did not induce secretion of IFNγ by iNKT cells. Blocking the inhibitory Ly49 receptor on iNKT cells in the presence of α-GalCer restored their IFNγ production in vivo and in vitro. However, Ly49 blockade alone was not sufficient. Importantly, this defect could be also be reversed into vigorous secretion of IFNγ by the addition of both IL-12 and the exogenous CD1d ligand alpha-galactosylceramide, but not by IL-12 alone, both in vivo and in vitro. These data underscore the potential to optimize iNKT-based therapeutic approaches.     

Structure function differences in nonpeptide CCR1 antagonists for human and mouse CCR1

A useful strategy for identifying ligand binding domains of G protein-coupled receptors has been the exploitation of species differences in antagonist potencies. We have used this approach for the CCR1 chemokine receptor with a novel series of antagonists, the 4-hydroxypiperidines, which were discovered by high throughput screening of human CCR1 and subsequently optimized. The structure-activity relationships for a number of different 4-hydroxypiperidine antagonists for human and mouse CCR1 were examined by receptor binding and functional assays. These compounds exhibit major differences in their rank order of potency for the human and mouse chemokine receptor CCR1. For example, the initial lead template, BX 510, which was a highly potent functional antagonist for human CCR1 (K(i) = 21 nM) was >400-fold less active on mouse CCR1 (K(i) = 9150 nM). However, increasing the length of the linker between the piperidine and dibenzothiepine groups by one methylene group generated a compound, BX 511, which was equipotent for both human and mouse CCR1. These and other analogs of the lead template BX 510, which have major differences in potency for human and mouse CCR1, are described, and a model for their interaction with human CCR1 is presented.     

Activation of a novel proto-oncogene, Frat1, contributes to progression of mouse T-cell lymphomas.

Acceleration of lymphomagenesis in oncogene-bearing transgenic mice by slow-transforming retroviruses has proven a valuable tool in identifying cooperating oncogenes. We have modified this protocol to search for genes that can collaborate effectively with the transgene in later stages of tumor development. Propagation of tumors induced by Moloney murine leukemia virus (M-MuLV) in E mu-Pim1 or H2-K-myc transgenic mice by transplantation to syngeneic hosts permitted proviral tagging of 'progression' genes. Molecular cloning of common proviral insertion sites that were detected preferentially in transplanted tumors led to the identification of a novel gene, designated Frat1. The initial selection for integrations near Frat1 occurs in primary tumor cells that have already acquired proviruses in other common insertion sites, yielding primary lymphomas that contain only a minor fraction of tumor cells with an activated Frat1 allele. Transplantation of such primary lymphomas allows for a further expansion of tumor cell clones carrying a proviral insertion near Frat1, resulting in detectable Frat1 rearrangements in 17% of the transplanted E mu-Pim1 tumors and 30% of the transplanted H2-K-myc tumors, respectively. We have cloned and sequenced both the mouse Frat1 gene and its human counterpart. The proteins encoded by Frat1 and FRAT1 are highly homologous and their functions are thus far unknown. Tumor cell lines with high expression of Myc and Pim1 acquired an additional selective advantage in vivo upon infection with a Frat1-IRES-lacZ retrovirus, thus underscoring the role of Frat1 in tumor progression, and the ability of Frat1 to collaborate with Pim1 and Myc in lymphomagenesis.     

MicroRNA-383 inhibits anchorage-independent growth and induces cell cycle arrest of glioma cells by targeting CCND1

In recent years, microRNAs (miRNAs) have been proved to be closely related to the tumorigenesis and progression. An increasing number of researches have shown that microRNAs function as oncogenes or tumor suppressor genes in human malignant tumors. This study aims to explore the effects of microRNA-383 (miR-383) on malignant biological function of human gliomas. We detected the expression of miR-383 in glioma tissues and normal brain tissues by quantitative real-time PCR. Anchorage-independent growth assays, and flow cytometry were used to evaluate the functions of miR-383 that involves in cell growth and cell cycle. Western blotting assay was used to examine protein expression levels of Cyclin D1 (CCND1), a cell cycle-associated oncogene which has a predicted binding site of miR-383 within its 3′-untranslated region (3′-UTR), and luciferase activity assay was used to evaluate the 3′-UTR activity of CCND1. In this study, we found that miR-383 expression level was lower in gliomas than normal brain tissues. Overexpression of miR-383 in U251 and U87 cells showed a significant inhibitory effect on cell growth, which accompanied with cell cycle G0/G1 arrest as well as downregulation of CCND1 expression. Moreover, CCND1 was verified to be one of the direct targets of miR-383. In summary, this study suggested that miR-383 plays the role of tumor suppressor by targeting CCND1 in glioma cells, and may be useful for developing a new therapeutic strategy for gliomas.