Growth differentiation factor 15 in patients with congenital dyserythropoietic anaemia (CDA) type II.

Congenital dyserythropoietic anaemias (CDAs) are heterogeneous, hereditary disorders hallmarked by ineffective erythropoiesis and tissue iron overload. Growth differentiation factor 15 (GDF15) was suggested to mediate iron overload in iron-loading anaemias, such as the thalassaemias and CDAI by suppressing hepcidin, the key regulator of iron absorption. Here, we show that serum GDF15 concentrations are elevated in subjects with CDAI and CDAII. Despite similar disease characteristics, CDAI patients present with significantly higher GDF15 concentrations compared to CDAII patients. Hepcidin concentrations are inappropriately low in CDAII patients considering the severe hepatic iron overload associated with this disorder. GDF15 significantly correlates with the degree of anaemia (Hb), the response of erythropoiesis (reticulocyte index) as well as with iron availability in the serum (transferrin saturation). The observation that GDF15 is elevated in CDAII patients is consistent with the proposal that GDF15 is among the erythroid factors down-regulating hepcidin and contributing to iron overload in conditions of dyserythropoiesis.

Sensitivity and specificity of different staining methods to monitor apoptosis induced by oxidative stress in adherent cells.

OBJECTIVE: To study the sensitivity and specificity of different staining methods to monitor apoptosis induced by oxidative stress in adherent cells. METHODS: Sensitivity and specificity of several common methods for apoptosis determination were evaluated (Apo2.7-expression, Annexin V-binding, TUNEL-reaction, poly-(ADP-ribose)-polymerase-(PARP) cleavage and single-stranded-DNA (ssDNA) staining). Apoptosis was induced by oxidative stress generated by hydrogen peroxide in 3 cultured cells types growing as adherent monolayer (MiaPaCa-2, Hep-G2 and human skin fibroblasts), necrosis was induced by depletion of cellular ATP using sodium azide. Cells positively stained by the respective apoptosis assay were quantified and alterations of cell morphology were monitored by fluorescence microscopy. The date was analyzed by one-way analysis of variance and significance test of correlation coefficient. RESULTS: One hour after apoptosis induction significant cell fractions were positively stained for ssDNA (33% with MiaPaCa-2 cells, 35% with Hep-G2 cells, 56% with human skin fibroblasts). PARP-cleavage was less sensitive compared to the ssDNA-staining. Apo2.7-expression, Annexin V-binding and TUNEL-reaction were not applicable to detect early apoptosis induced by oxidative stress (below 2 hours), but were efficiently monitoring late apoptosis. Specificity of ssDNA-staining was complete with each cell type even 4 hs after induction of necrosis by the highest sodium azide concentration. In contrast, the same experimental conditions resulted in 50% - 90% positively stained necrotic cells by using Apo2.7-expression, TUNEL-reaction or Annexin V-binding. Surprisingly, specificity of PARP-cleavage was highly depending on the respective cell type. CONCLUSIONS: Our study prove that among the five methods investigated only ssDNA-staining allowed to completely differentiate apoptosis from necrosis, and is thus suitable to reliably detect early as well as late apoptosis. Therefore, the ssDNA-staining may be used as reference method to clearly identify apoptosis induced by oxidative stress in adherent cells. The TUNEL-reaction, annexin-V-binding and Apo-2.7-expression may be used to quantify the number of apoptotic and necrotic cells especially at later stages but without discrimination of apoptosis and primary or secondary necrosis.

Triplex-forming oligodeoxynucleotides targeting survivin inhibit proliferation and induce apoptosis of human lung carcinoma cells.

Survivin is expressed in most cancers but is undetectable in differentiated adult cells, and plays an important role both in the suppression of apoptosis and mitotic spindle checkpoint; thus it has attracted great interest as a potential drug target. In this study, we investigated the antigene and antiproliferative effects of triplex-forming oligodeoxynucleotides (TFO) targeting survivin in human lung carcinoma A549 cells. Survivin-specific TFOs form stable triplexes under physiological conditions as tested by electrophoretic mobility shift assays. Treatment of A549 cells with survivin-specific but not control TFOs at a concentration of 400 nM in the presence of uptake-enhancing liposome significantly reduced survivin protein level, inhibited cell proliferation, and induced cell apoptosis as demonstrated by immunoblot, cell number counting, and Annexin V-staining. Moreover, we found that the triplex-forming potential of TFOs measured in vitro does not necessarily correlate with the ability of TFOs to affect expression of a targeted gene in vivo. Our results indicate that targeting survivin is a promising alternative strategy for the development of novel anticancer therapeutics.