Manuela Hesse scite author profile

Despite improvements in the treatment of patients with Ewing family tumors (EFT), the prognosis for patients with advanced disease is still unsatisfactory. Recently, we identified lipase I as an EFT-associated gene that might be interesting for the development of new immunological or pharmacological treatment strategies. Lipase I is a member of the large protein superfamilies of alpha/beta hydrolases and serine hydrolases. In the present paper we describe high expression of another member of these superfamilies in EFT. By DNA microarray data base mining we found exceptional high expression of alpha/beta hydrolase domain containing 6 (ABHD6) in EFT but not in other sarcomas. Expression of ABHD6 in EFT correlated with expression of another EFT-associated gene, aristaless. Analysis of ABHD6-associated GGAA microsatellites revealed shorter microsatellites in EFT with lack of ABHD6 expression. ABHD6 homologues were found in varying chordata but not in other animal species. Based on homology modeling we predicted the 3D-structure of ABHD6, which shows high similarity with bacterial homoserine transacetylases. High expression of ABHD6 in EFT in comparison to normal tissues and other tumors suggests that ABHD6 might be an interesting new diagnostic or therapeutic target for EFT. However, knock down of ABHD6 in EFT cells did not inhibit tumor cell growth.

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Expression of multiple membrane-associated phospholipase A1 beta transcript variants and lysophosphatidic acid receptors in Ewing tumor cells

Schmiedel

Hutter

Hesse

et al. 2010

Mol Biol Rep

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The prognosis for patients with advanced stages of Ewing family tumors (EFT) is very poor. EFT express high levels of phosphatidic acid specific membrane-associated phospholipase A1 beta (lipase I, LIPI). LIPI is a cancer/testis antigen and the high tumor specificity suggests that LIPI might be an attractive target for new diagnostic and/or therapeutic developments. By using reverse transcriptase-polymerase chain reaction (RT-PCR), we observed simultaneous presence of multiple LIPI transcript variants in EFT. We cloned and sequenced these transcript variants from EFT cell lines. Sequence analysis indicated that all transcript variants were derived by alternative splicing. Homology modeling of corresponding protein structures suggested that different transcript variants differ in their regulatory lid domains. In addition, expression of receptors for lysophosphatidic acid (LPA) was analyzed in a panel of EFT cell lines by RT-PCR. We observed that EFT cell lines expressed high levels of LPA receptors. Different LIPI transcript variants present in EFT might be involved in the pathogenesis of EFT by signaling via these LPA receptors.

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Sequence and expression of the chicken membrane-associated phospholipases A1 alpha (LIPH) and beta (LIPI)

et al. 2011

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Cancer/testis antigens (CTA) are a heterogeneous group of antigens that are expressed preferentially in tumor cells and testis. Based on this definition the human membrane-associated phospholipase A1 beta (lipase family member I, LIPI) has been identified as CTA. The high homology of LIPI and the membrane-associated phospholipase A1 alpha (lipase family member H, LIPH) suggests that both genes are derived from a common ancestor by gene duplication. In contrast to human LIPI, human LIPH is expressed in several tissues. LIPI sequences have only been identified in mammals. Here, we describe the identification of LIPI in non-mammalian vertebrates. Based on the conserved genomic organization of LIPI and LIPH we identified sequences for both lipases in birds and fishes. In all vertebrates the LIPI locus is neighbored by a member of the RNA binding motif (RBM) family, RBM11. By sequencing of reverse transcriptase-polymerase chain reaction products we determined the sequences of LIPI and LIPH messenger RNA from broilers. We found that the sequence homology between LIPI and LIPH is much higher in non-mammalian species than in mammals. In addition, we found broad expression of LIPI in broilers, resembling the expression profile of LIPH. Our data suggest that LIPI is a CTA only in mammalian species and that the unique sequence features of the mammalian LIPI/RBM11 locus have evolved together with the CTA-like expression pattern of LIPI.

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Lipases and Related Molecules in Cancer

Staege

Hesse

Max

2010

Cancer�Growth�Metastasis

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Lipases are enzymes that catalyze the hydrolysis of lipids. Based on protein structures and sequences, lipases can be classified into different protein families. The majority of conventional mammalian lipases are members of the protein super-families of serine esterases and alpha-beta hydrolases. Differential expression of lipases and related alpha-beta hydrolases in tumor cells has been observed. The physiological or patho-physiological functions of these tumor related enzymes are largely unknown. However, lipases are not only involved in energy metabolism but also in the metabolism of bioactive molecules, e.g. phosphatidic acid or arachidonic acid, suggesting that tumor-specifically expressed lipases might be interesting targets for the development of future treatment strategies. Moreover, independent of the patho-physiological function, tumor associated lipases can serve as targets for immunological treatment strategies. In addition, lipases with exclusive expression in single tumor entities can serve as potential diagnostic targets.

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Manuela Hesse

Membrane‐associated phospholipase A1 beta (LIPI) Is an Ewing tumour‐associated cancer/testis antigen

High expression of the evolutionarily conserved α/β hydrolase domain containing 6 (ABHD6) in Ewing tumors

Expression of multiple membrane-associated phospholipase A1 beta transcript variants and lysophosphatidic acid receptors in Ewing tumor cells

Sequence and expression of the chicken membrane-associated phospholipases A1 alpha (LIPH) and beta (LIPI)

Lipases and Related Molecules in Cancer

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