Leukemia cells accumulate zinc for oncofusion protein stabilization.

Acute promyelocytic leukemia (APL) and chronic myeloid leukemia (CML) are both hematological malignancies characterized by genetic alterations leading to the formation of oncofusion proteins. The classical chromosomal aberrations in APL and CML result in the PML-RARα and BCR-ABL1 oncofusion proteins, respectively. Interestingly, our flow cytometric analyses revealed elevated free intracellular zinc levels in various leukemia cells, which may play a role in stabilizing oncofusion proteins in leukemia and thus support cell proliferation and malignancy. Long-term zinc deficiency resulted in the degradation of PML-RARα in NB4 cells (APL cell line) and of BCR-ABL1 in K562 cells (CML cell line). This degradation may be explained by increased caspase 3 activity observed in zinc deficient cells, whereas zinc reconstitution normalized the caspase 3 activity and abolished zinc deficiency-induced oncofusion protein degradation. In NB4 cells, fluorescence microscopic images further indicated enlarged and enriched lysosomes during zinc deficiency, suggesting increased rates of autophagy. Moreover, NB4 cells exhibited increased expression of the zinc transporters ZIP2, ZIP10 and ZnT3 during zinc deficiency and revealed excessive accumulation of zinc in contrast to healthy peripheral blood mononuclear cells (PBMCs), when zinc was abundantly available extracellularly. Our results highlight the importance of altered zinc homeostasis for some characteristics in leukemia cells, uncover potential pathways underlying the effects of zinc deficiency in leukemia cells, and provide potential alternative strategies by which oncofusion proteins can be degraded.

Zinc supplementation prior to heat shock enhances HSP70 synthesis through HSF1 phosphorylation at serine 326 in human peripheral mononuclear cells.

Zinc supplementation prior to heat shock increases HSP70 (heat shock protein 70) expression, which has cytoprotective effects in tissue cells during inflammation. Effects of zinc deficiency in this regard have been discussed controversially. Whether zinc modulates the expression of HSP70 in the human immune system as well and thus affects cell survival during heat stress is so far largely unknown. Therefore, we investigated the effect of alterations in the cellular zinc status on HSP70 expression and on cellular survival in human monocytes and lymphocytes. Three cell lines (Jurkat, THP-1, and Ramos) and enriched primary human monocytes and lymphocytes from young subjects were subjected to zinc deficiency or supplementation and subsequently heat shock at 42 °C. HSP70 mRNA expression was analyzed by real-time PCR, whereas HSP70 protein expression was analyzed by western blotting. In all cells other than Ramos cells, zinc supplementation and deficiency augmented heat shock-induced HSP70 expression. Further experiments in primary monocytes and lymphocytes indicated that this may be explained by the enhanced phosphorylation of HSF1 (Heat shock factor 1) at Ser326, which plays a significant role in HSP70 induction, as observed in zinc deficient and supplemented cells. While zinc supplementation had negligible effects on cell viability, acute zinc deficiency further increased cell death, induced by heat shock. Our results emphasize the importance of an optimal cellular zinc status. Moreover, we present a possible mechanism behind zinc's influence on HSP70 expression in human leukocytes. Our data form the basis for further in vivo and ex vivo studies to investigate how the zinc status may affect cellular damage in transient high temperature situations.

The Role of Zinc in GM-CSF-Induced Signaling in Human Polymorphonuclear Leukocytes.

SCOPE: Zinc is suggested to be necessary for functional signaling induced by certain growth factors. The granulocyte-macrophage colony-stimulating factor (GM-CSF) is a key factor for differentiation and activation of myeloid cells. This report analyses the impact of different zinc concentrations on GM-CSF-induced signaling in mature polymorphonuclear leukocytes (PMN). METHODS AND RESULTS: As measured by flow cytometry, zinc increases surface GM-CSF receptor (GM-CSFR) in PMN, whereas monocytes respond with decreased GM-CSFR surface expression. Since total cellular GM-CSFR expression remains unaffected, the observed zinc-induced GM-CSFR surface dynamics may be explained by receptor redistribution. In PMN, zinc enhanced phosphorylation of mitogen-activated protein kinases (MAPK) in a dose-dependent manner as found in western blot. Zinc-induced MAPK phosphorylation is additionally augmented by moderate GM-CSF stimulation. CONCLUSION: The present study demonstrates the opposing influence of zinc on GM-CSFR surface expression in monocytes and PMN. Zinc and GM-CSF, use in optimized concentrations, augment MAPK signaling, and increase expression of MAPK-induced myeloid cell leukemia-1 (Mcl-1) in PMN. Thus, this study concludes that zinc strengthens growth factor-induced signaling. Hence, the study provides a basis for further in vivo studies, focusing on the therapeutic value of zinc in patients with a disturbed GM-CSF signaling.