Tracy S. Schwab scite author profile

Neuroblastoma is a pediatric tumor that preferentially metastasizes to bone. Patients with bone metastases have a mortality rate >93%, indicating a need for novel treatment targets. Our laboratory has shown that type I insulin-like growth factor receptor (IGF-IR) expression and activation regulate neuroblastoma cell proliferation, motility, invasion, and survival, and that expression of the IGF-IR correlates with neuroblastoma tumorigenicity. Bone expresses large amounts of IGF ligands, and the IGF system is required for normal bone physiology. The current study addresses the role of the IGF system in neuroblastoma metastasis to bone. Upon reaching the bone marrow through the circulation, neuroblastoma cells must dock at the bone marrow endothelium, extravasate into the bone microenvironment, and destroy bone tissue to allow for tumor growth. This report examines the effects of high IGF-IR expression on neuroblastoma cell interaction with bone. The current data show that neuroblastoma cells with high IGF-IR expression, either endogenously or through transfection, adhere to human bone marrow endothelial cells and subsequently migrate toward both IGF-I and human bone stromal cells. High IGF-IR-expressing neuroblastoma cells adhere tightly to bone stromal cells, flatten, and extend processes. When neuroblastoma cells are injected directly into the tibiae of mice, those cells with increased IGF-IR form both osteolytic lesions within the tibiae and secondary tumors within other sites. These results support the hypothesis that IGF-IR expression in neuroblastoma cells increases tumor cell interaction with the bone microenvironment, resulting in greater formation of metastases. (Cancer Res 2006; 66(13): 6570-8)

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Loss of Expression of Human Spectrin Src Homology Domain Binding Protein 1 is Associated with 10p Loss in Human Prostatic Adenocarcinoma

Macoska

Ziemnicka

et al. 2001

Neoplasia

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The gene encoding human spectrin Src homology domain binding protein 1, or Hssh3bp1, which is a marker of macropinocytic vesicles and a potential regulator of macropinocytosis, co-localizes to a YAC containing chromosome 10p sequences at loci D10S89 and D10S111 that are frequently deleted in prostate tumors. Expression of Hssh3bp1 was evaluated at the protein level in 17 paired normal and malignant prostate tumor samples using the monoclonal antibody 2G8 to Hssh3bp1. These experiments demonstrated that 4/6 tumors (67%) with 10p deletion failed to express Hssh3bp1 protein compared to 5/11 (46%) tumors with intact 10p. Thus, loss of Hssh3bp1 expression is concordant with allelic loss of adjacent 10p sequences in human prostate tumors. In addition, two prostate tumor cell lines contain an exon skipping mutation in the Hssh3bp1 gene that leads to the abnormal splicing of the mRNA and loss of a portion of Abl tyrosine kinase SH3 domain binding site in the protein. These data are consistent with a role for Hssh3bp1 as a candidate tumor suppressor gene inactivated during prostate tumorigenesis.

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Phenotypic characterization of immortalized normal and primary tumor-derived human prostate epithelial cell cultures

Schwab¹,

Stewart²,

Lehr³

et al. 2000

Prostate

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BACKGROUND Cell lines can provide powerful model systems for the study of human tumorigenesis. However, the human prostate cancer cell lines studied most intensively by investigators (PC3, DU145, and LNCaP) were established from metastatic lesions, and it is unlikely that they accurately recapitulate the genetic composition or biological behavior of primary prostate tumors. Cell lines more appropriate for the study of human prostate primary tumors would be those derived from spontaneously immortalized cells; unfortunately, explanted prostate cells survive only short‐term in culture, and rarely immortalize spontaneously. Therefore, we examined whether cell lines developed through viral gene‐mediated immortalization of human normal or primary tumor prostate epithelium express aspects of the normal or malignant phenotypes, and could serve as appropriate models for normal or transformed human prostatic epithelium. METHODS To accomplish these goals, we assessed the phenotypic expression of cell cultures established through the immortalization of normal (1532N, 1535N, 1542N, and PrEC‐T) or malignant (1532T, 1535T, and 1542T) human prostate epithelium with the E6 and E7 genes of HPV‐16, or the large T antigen gene of SV40. RESULTS Examination of these cell lines for their proliferative rates and their abilities to grow with or without serum or androgen stimulation, to form colonies in soft agar, or to form tumors in vivo, suggests that they may serve as valid, useful tools for the elucidation of prostate tumorigenesis. Moreover, the observation of structural alterations involving chromosome 8, including gain of 8q in 3 of the 4 cell lines expressing aspects of the malignant phenotype, implies that these cell lines accurately recapitulate the genetic composition of primary prostate tumors. CONCLUSIONS Taken together, these data suggest that cell lines generated from immortalized normal or primary tumor epithelium may be useful for the elucidation of early transforming events in the prostate. Prostate 44:164–171, 2000. © 2000 Wiley‐Liss, Inc.

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Insulin-like growth factor-I induces the phosphorylation and nuclear exclusion of forkhead transcription factors in human neuroblastoma cells

et al. 2005

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Akt-mediated phosphorylation of forkhead transcription factors is linked to growth factor-stimulated cell survival. We investigated whether the survival activity of insulin-like growth factor-I (IGF-I) in SH-SY5Y human neuroblastoma (NBL) cells is associated with phosphorylation and/or localization changes in forkhead proteins. IGF-I induced phosphorylation of Erks (p42/p44), FKHR (FOXO1a) (Ser 253), FKHRL1 (FOXO3a) (Ser 256), and Akt (Ser 473). PI3-K inhibitor, LY294002, reduced IGF-I-stimulated phosphorylation of FKHR, FKHRL1, and Akt, but did not affect Erk phosphorylation. Using a GFP-FKHR construct, FKHR imported into the nucleus during growth factor withdrawal-induced apoptosis. In addition, IGF-I rescue from serum withdrawal-induced apoptosis is associated with a rapid export of GFP-FKHR into the cytoplasm. Leptomycin B, an inhibitor of Crm1-mediated nuclear export, decreased the level of FKHRL1 phosphorylation in the presence of IGF-I in vector and FKHR overexpressing cells, but had no effect on the phosphorylation status of FKHR. In addition, leptomycin B prevented IGF-I stimulated nuclear export of GFP-FKHR. These studies show IGF-I phosphorylation of FKHR and FKHRL1 via a PI3-K-dependent pathway in NBL cells.

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Blockade of noradrenaline transport abolishes 4‐methylthioamphetamine‐induced contraction of the rat aorta in vitro

Quinn¹,

Guiry

Schwab

et al. 2006

Auton Autocoid Pharmacol

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The aim of this study was to characterize the effects of 4-methylthioamphetamine (4-MTA) on contractility and noradrenaline (NA) transport and release in the isolated rat aorta. Descending thoracic aortic rings were isolated from male Wistar rats (220-240 g) and the effect of 4-MTA on contractility was measured by isometric force displacement. 4-MTA (0.1 microm-1 mm) induced a concentration-dependent contraction of aortic rings, with a pD(2) of 4.40 +/- 0.38, and an E(max) of 0.80 +/- 0.05 g tension. The alpha(1)-adrenoceptor antagonist, prazosin (1 microm) and alpha(2) antagonist, yohimbine (1 microm) inhibited maximal contraction to 100 microm 4-MTA by 45.0 +/- 6.7% and 53.5 +/- 7.1% of control values respectively, whereas the 5-hydroxytryptamine (5-HT) antagonist, ketanserin (100 nm) had no effect on the 4-MTA-mediated contraction. The specific NA transport inhibitor, nisoxetine (1 microm) abolished contraction of the aorta by 4-MTA. 4 Nisoxetine-sensitive [(3)H]-NA transport in aortic rings was measured over a concentration range of 0-5 microm [(3)H]-NA, and had a maximal rate of transport (V(max)) of 0.77 +/- 0.07 pmol [(3)H]-NA min(-1) mg(-1) protein and a Michaelis affinity constant (K(M)) of 2.3 +/- 0.5 microm. 4-MTA inhibited nisoxetine-sensitive [(3)H]-NA transport with a pIC(50) of 6.16 +/- 0.18 and the pIC(50) for inhibition of nisoxetine-sensitive [(3)H]-NA transport by 3,4-methylenedioxymethamphetamine (MDMA) was 6.83 +/- 0.13. 4-MTA (1-100 microm) significantly stimulated release of pre-loaded [(3)H]-NA from aortic rings and 4-MTA-induced [(3)H]-NA release was inhibited by 1 microm nisoxetine. These data suggest that 4-MTA causes contraction of the rat aorta in vitro by a mechanism that is consistent with an ability to cause release of NA at the level of the NA transporter. It is concluded that 4-MTA has the potential to increase the extracellular concentration of NA peripherally as well as centrally, and that this may cause adverse cardiovascular effects in its users.

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Tracy S. Schwab

Insulin-Like Growth Factor-I Receptor Expression Regulates Neuroblastoma Metastasis to Bone

Loss of Expression of Human Spectrin Src Homology Domain Binding Protein 1 is Associated with 10p Loss in Human Prostatic Adenocarcinoma

Phenotypic characterization of immortalized normal and primary tumor-derived human prostate epithelial cell cultures

Insulin-like growth factor-I induces the phosphorylation and nuclear exclusion of forkhead transcription factors in human neuroblastoma cells

Blockade of noradrenaline transport abolishes 4‐methylthioamphetamine‐induced contraction of the rat aorta in vitro

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