David T. Vistica

Amino acid-conferred protection against melphalan--characterization of melphalan transport and correlation of uptake with cytotoxicity in cultured L1210 murine leukemia cells.

Abstract The uptake of melphalan by L1210 cells was reduced to one-sixth of controls by physiological concentrations of the l -isomers of leucine and glutamine, and this decrease was accompanied by a corresponding decrease in cytotoxicity. Cytotoxicity was estimated by treatment of cells with melphalan for 35 min in phosphate-buffered saline containing bovine serum albumin and glucose followed by clonal growth of the surviving cells in soft agar. It was prominent within a critical region of net melphalan uptake of 2–5 pmoles/10 5 cells. Inhibition analysis revealed that at cytotoxic concentrations melphalan is transported by a high-affinity amino acid transport system of the leucine ( l ) type. The values of the Michaelis constants ( K m ) for l -leucine, a protective amino acid, l -valine, a minimally protective amino acid, and melphalan were 6, 58 and 19 μM respectively. These results suggest that the ability of amino acids to protect L1210 cells from melphalan cytotoxicity is related to their affinities for the leucine carrier sites.

Gene expression profiling of alveolar soft-part sarcoma (ASPS).

BackgroundAlveolar soft-part sarcoma (ASPS) is an extremely rare, highly vascular soft tissue sarcoma affecting predominantly adolescents and young adults. In an attempt to gain insight into the pathobiology of this enigmatic tumor, we performed the first genome-wide gene expression profiling study.MethodsFor seven patients with confirmed primary or metastatic ASPS, RNA samples were isolated immediately following surgery, reverse transcribed to cDNA and each sample hybridized to duplicate high-density human U133 plus 2.0 microarrays. Array data was then analyzed relative to arrays hybridized to universal RNA to generate an unbiased transcriptome. Subsequent gene ontology analysis was used to identify transcripts with therapeutic or diagnostic potential. A subset of the most interesting genes was then validated using quantitative RT-PCR and immunohistochemistry.ResultsAnalysis of patient array data versus universal RNA identified elevated expression of transcripts related to angiogenesis (ANGPTL2, HIF-1 alpha, MDK, c-MET, VEGF, TIMP-2), cell proliferation (PRL, IGFBP1, NTSR2, PCSK1), metastasis (ADAM9, ECM1, POSTN) and steroid biosynthesis (CYP17A1 and STS). A number of muscle-restricted transcripts (ITGB1BP3/MIBP, MYF5, MYF6 and TRIM63) were also identified, strengthening the case for a muscle cell progenitor as the origin of disease. Transcript differentials were validated using real-time PCR and subsequent immunohistochemical analysis confirmed protein expression for several of the most interesting changes (MDK, c-MET, VEGF, POSTN, CYP17A1, ITGB1BP3/MIBP and TRIM63).ConclusionResults from this first comprehensive study of ASPS gene expression identifies several targets involved in angiogenesis, metastasis and myogenic differentiation. These efforts represent the first step towards defining the cellular origin, pathogenesis and effective treatment strategies for this atypical malignancy.

Selective toxicity of the tricyclic thiophene NSC 652287 in renal carcinoma cell lines: differential accumulation and metabolism.

The tricyclic compound 2,5-bis(5-hydroxymethyl-2-thienyl)furan (NSC 652287) has shown a highly selective pattern of differential cytotoxic activity in the tumor cell lines comprising the National Cancer Institute (NCI) Anticancer Drug Screen. The mechanism underlying the selective cytotoxicity is unknown. We hypothesized that differential sensitivity to the compound observed in several renal tumor cell lines could be the result of selective accumulation or differential metabolism of this agent. We demonstrated here that the capacity of certain renal cell lines to accumulate and retain the compound, determined by accumulation of [14C]NSC 652287-derived radioactivity and by flow cytometric determination of unlabeled compound, paralleled the sensitivity of the renal cell lines to growth inhibition by NSC 652287: A-498 > TK-10 >> ACHN approximately/= to UO-31. The ability of the cell lines to metabolize [14C]NSC 652287 to a reactive species capable of binding covalently to cellular macromolecules also directly correlated with sensitivity to the compound. Different patterns of metabolites were generated by relatively more drug-sensitive cell lines in comparison with drug-resistant cell lines. The metabolizing capacity for NSC 652287 was localized primarily to the cytosolic (S100) fraction. The rate of metabolism in the cytosolic fraction from the most sensitive renal cell line, A-498, was faster than that observed in the cytosolic fractions from the other, less sensitive cell lines. The data support the hypothesis that both selective cellular accumulation and the capacity to metabolize NSC 652287 to a reactive species by certain renal carcinoma cell types are the basis for the differential cytotoxicity of this compound class.

Therapeutic vulnerability of an in vivo model of alveolar soft part sarcoma (ASPS) to antiangiogenic therapy.

In vivo growth of alveolar soft part sarcoma (ASPS) was achieved using subcutaneous xenografts in sex-matched nonobese diabetic severe combined immunodeficiency mice. One tumor, currently at passage 6, has been maintained in vivo for 32 months and has maintained characteristics consistent with those of the original ASPS tumor including (1) tumor histology and staining with periodic acid Schiff/diastase, (2) the presence of the ASPL-TFE3 type 1 fusion transcript, (3) nuclear staining with antibodies to the ASPL-TFE3 type 1 fusion protein, (4) maintenance of the t(X;17)(p11;q25) translocation characteristic of ASPS, (5) stable expression of signature ASPS gene transcripts and finally, the development and maintenance of a functional vascular network, a hallmark of ASPS. The ASPS xenograft tumor vasculature encompassing nests of ASPS cells is highly reactive to antibodies against the endothelial antigen CD34 and is readily accessible to intravenously administered fluorescein isothiocyanate-dextran. The therapeutic vulnerability of this tumor model to antiangiogenic therapy, targeting vascular endothelial growth factor and hypoxia-inducible factor-1 alpha, was examined using bevacizumab and topotecan alone and in combination. Together, the 2 drugs produced a 70% growth delay accompanied by a 0.7 net log cell kill that was superior to the antitumor effect produced by either drug alone. In summary, this study describes a preclinical in vivo model for ASPS which will facilitate investigation into the biology of this slow growing soft tissue sarcoma and demonstrates the feasibility of using an antiangiogenic approach in the treatment of ASPS.

Uptake and cytotoxicity of 9-methoxy-N2-methylellipticinium acetate in human brain and non-brain tumor cell lines

9-Methoxy-N2-methylellipticinium acetate (MMEA) was preferentially cytotoxic to human brain tumor cell lines in the in vitro primary screen of the U.S. National Cancer Institute. In the present study, the average intracellular accumulation of radioactivity derived from [14C]MMEA concentrations that were selectively cytotoxic to sensitive brain tumor cell lines was nearly 4-fold greater than in human tumor cell lines derived from the lung, kidney, ovary and colon. The extent of peak cellular accumulation of [14C]MMEA-derived radioactivity, achieved after 10-15 hr of drug exposure, was correlated positively with relative MMEA cytotoxicity in brain tumor cell lines (r2 = 0.963). A similar correlation (r2 = 0.967) was observed in selected non-brain tumor cell lines but required substantially higher (18-fold) concentrations of MMEA. [14C]MMEA radioactivity accumulation by a selected glioblastoma cell line occurred via an energy-requiring system that was predominantly sodium and pH independent.

Amino acid conferred protection against melphalan interference with melphalan therapy by L-leucine, a competitive substrate for transport.

Melphalan uptake by L1210 leukemia cells obtained from tumor bearing mice is reduced to one-third of control by physiological concentrations of L-leucine. Kinetic analysis revealed that melphalan and leucine compete for transport carrier sites. Administration of leucine with optimal therapeutic doses of melphalan to tumor bearing mice negated the efficacy of the drug.

Immunohistochemical discrimination between the ASPL-TFE3 fusion proteins of alveolar soft part sarcoma.

Alveolar soft part sarcoma (ASPS), a rare soft tissue sarcoma, is characterized by a chromosomal translocation der(17)t(X;17)(p11;q25) resulting in the production of 2 fusion proteins encoded by regions of the genes for alveolar soft part locus (ASPL) and the transcription factor E3 (TFE3). In this study, polyclonal antibodies were generated to 25 mer peptides encompassing the junctional regions of ASPL-TFE3 type 1 and ASPL-TFE3 type 2. The specificity of the affinity purified antibodies for the synthetic peptides and recombinant expressed ASPL-TFE3 type 1 and ASPL-TFE3 type 2 proteins was evaluated by enzyme-linked immunosorbent assay and was highly fusion type specific. Immunohistochemical staining of formalin-fixed, paraffin-embedded ASPS tumors with the fusion-specific antibodies resulted in intense nuclear staining and differentiation between tumors that express the type 1 protein and tumors that express the type 2 protein. These antibodies will be useful for the differential diagnosis of type 1 and type 2 ASPS and also in the detection of the fusion proteins in biochemical and cell biologic investigations.

Concentrative uptake of melphalan, a cancer chemotherapeutic agent which is transported by the leucine-preferring carrier system

Abstract The transport of melphalan, L -phenylalamine mustard, proceeded uphill against a concentration gradient and resulted in a distribution ratio of approximately 10. Concentrative uptake was temperature sensitive and was inhibited by the metabolic inhibitor carbonyl cyanide 3-chlorophenylhydrazone (CCCP) and L -leucine, a natural substrate of the transport carriers. These results indicate that melphalan transport is an energy requiring process and that naturally occurring competitive substrates such as leucine markedly reduce concentrative uptake of the drug.

Steroid receptors and steroid response in cultured LI 210 murine leukemia cells

Murine L1210 leukemia cells were cultured in the presence of various steroid hormones to determine their growth response. Cells maintained in medium containing glucocorticoids such as dexamethasone exhibit a 10--20% inhibition of growth, whereas progesterone of 17 beta estradiol produce a 40--50% inhibition of growth. The response is due to growth inhibition and not to any cytolytic effect of the steroids. L1210 cytoplasmic and nuclear extracts contain high affinity binding sites for [3H]dexamethasone, [3H]progesterone and [3H]17 beta-estradiol. Competition with various steroids indicate that estrogens bind to one class of cytoplasmic binding sites, while glucocorticoids and progestins bind to a second class of receptor sites. These receptors appear not be be completely responsible for growth inhibition since there is no correlation between the magnitude of growth inhibition and the intracellular concentration of receptor sites, and since the concentration of steroid required to cause significant growth inhibition exceeds those concentrations required to saturate the cytoplasmic receptors.

Bioinformatic Analysis of Patient-Derived ASPS Gene Expressions and ASPL-TFE3 Fusion Transcript Levels Identify Potential Therapeutic Targets

Gene expression data, collected from ASPS tumors of seven different patients and from one immortalized ASPS cell line (ASPS-1), was analyzed jointly with patient ASPL-TFE3 (t(X;17)(p11;q25)) fusion transcript data to identify disease-specific pathways and their component genes. Data analysis of the pooled patient and ASPS-1 gene expression data, using conventional clustering methods, revealed a relatively small set of pathways and genes characterizing the biology of ASPS. These results could be largely recapitulated using only the gene expression data collected from patient tumor samples. The concordance between expression measures derived from ASPS-1 and both pooled and individual patient tumor data provided a rationale for extending the analysis to include patient ASPL-TFE3 fusion transcript data. A novel linear model was exploited to link gene expressions to fusion transcript data and used to identify a small set of ASPS-specific pathways and their gene expression. Cellular pathways that appear aberrantly regulated in response to the t(X;17)(p11;q25) translocation include the cell cycle and cell adhesion. The identification of pathways and gene subsets characteristic of ASPS support current therapeutic strategies that target the FLT1 and MET, while also proposing additional targeting of genes found in pathways involved in the cell cycle (CHK1), cell adhesion (ARHGD1A), cell division (CDC6), control of meiosis (RAD51L3) and mitosis (BIRC5), and chemokine-related protein tyrosine kinase activity (CCL4).