Kristin Löber scite author profile

Kristin Löber

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STI571 (Glivec®) affects histamine release and intracellular pH after alkalinisation in HMC‐1^{560, 816}

Löber¹,

Alfonso²,

Escribano³

et al. 2007

J of Cellular Biochemistry

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The human mast cell line (HMC-1(560, 816)) was used to study the effect of the tyrosine kinase inhibitor STI571 (Glivec) on exocytosis, intracellular Ca(2+) and pH changes, because STI571 inhibits the proliferation of HMC-1(560) and induces its apoptosis. This drug does not have these effects on HMC-1(560, 816). Exocytosis in HMC-1(560, 816) cells can be stimulated by alkalinisation with NH(4)Cl as well as with ionomycin. Surprisingly 24-h pre-incubation with STI571 decreases spontaneous histamine release of HMC-1(560, 816) cells, but increases the histamine response after alkalinisation and not after ionomycin-stimulation. After addition of NH(4)Cl, pH(i) has a higher increase in STI571 pre-incubated cells, without changing intracellular Ca(2+) concentration. Activation of PKC in combination with tyrosine kinase inhibition increases also histamine release in HMC-1(560, 816) cells. Strangely, STI571 pre-incubated cells with PKC inhibited by rottlerin show the same effects. In these cells, cytosolic pH increases more than in control cells. This is the first report of STI571 effect in HMC-1(560, 816) cells. It seems that different pathways modulate signals for proliferation and exocytosis. STI571 does not only inhibit KIT TyrK, but may also influence cytosolic pH after alkalinisation in both cell lines, HMC-1(560) and HMC-1(560, 816), and this ends in induced histamine release. This work is important since HMC-1(560, 816) cells are reported in 80% of aggressive systemic mastocytosis cases and the understanding of some signalling pathways involved in mast cell response could facilitate drug targeting.

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Influence of the tyrosine kinase inhibitors STI571 (Glivec®), lavendustin A and genistein on human mast cell line (HMC‐1⁵⁶⁰) activation

Löber¹,

Alfonso²,

Escribano³

et al. 2007

J of Cellular Biochemistry

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The human mast cell line (HMC-1(560)) was used to study the effects of tyrosine kinase (TyrK) inhibition on histamine release in consequence of intracellular Ca2+ or pH changes. This is important since the TyrK inhibitor STI571 (Glivec) inhibits proliferation and induces apoptosis in HMC-1(560). HMC-1(560) cells have a mutation in c-kit, which leads to a permanent phosphorylation of the KIT protein and their ligand-independent proliferation. The TyrK inhibitors STI571, lavendustin A and genistein decrease spontaneous histamine release in 24-h pre-incubated cells. Results are compared with those of the mast cell stabiliser cromoglycic acid, which also drops spontaneous histamine release. When exocytosis is stimulated by alkalinisation, STI571 pre-incubated cells release more histamine than non-pre-incubated cells. Alkalinisation-induced histamine release reaches still higher levels in STI571 cells with activated protein kinase C (PKC) by PMA. We do not observe modifications on histamine release in cells, treated with PKC inhibitors (rottlerin, Gf109203 or Gö6976). Lavendustin A- and genistein 24-h incubated cells behave similar to STI571 cells, whereas cromoglycic acid does not show effects after stimulation with alkalinisation. Stimulation of exocytosis with the Ca2+ ionophore ionomycin does not modify histamine response in TyrK inhibited cells. Ca2+ and pH changes are observed after long-time incubation with STI571. Results show that pH is still higher in STI571 pre-incubated cells after alkalinisation with NH4Cl, whereas intracellular Ca2+ concentration remains stable. This work further strength the importance of pHi as a cell signal and suggest that STI571 has transduction pathways in common with other TyrKs.

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The effect of rottlerin in calcium regulation in HMC‐1⁵⁶⁰ cells is mediated by a PKC‐δ independent effect

Albrecht¹,

Alfonso²,

Löber³

et al. 2008

J of Cellular Biochemistry

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The human mast cell line (HMC-1(560)) is a good model for Ca(2+) signaling studies, because intracellular alkalinization is the mainly histamine release stimulus without changes in the intracellular Ca(2+) levels. This fact allows us to study Ca(2+) changes without degranulation, since this process can affected cellular viability. Ionomycin and thapsigargin have been fully used for induced Ca(2+) influx across SOC channels. When HMC-1(560) cells are incubated with rottlerin, 5 microM, for 5 min a strong inhibition of ionomycin-induced Ca(2+) influx is observed. However, when thapsigargin stimulates Ca(2+) influx, rottlerin did not show any effect on Ca(2+) levels. This fact point two possibilities, ionomycin and thapsigargin might activate different SOC channels or that these drugs might activate the same channel but in a different way in HMC-1(560) cells. The rottlerin inhibition of ionomycin-induced Ca(2+) influx is PKC-delta independent and this effect is not related with the store depletion, since rottlerin has the same effect when it is added before or after the stores are empty. FCCP, a know uncoupler of oxidative phosphorylation in mitochondria, induces the same inhibition in ionomycin Ca(2+) influx than rottlerin which point to the mitochondria as a cellular target to rottlerin.

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Kristin Löber

STI571 (Glivec®) affects histamine release and intracellular pH after alkalinisation in HMC‐1^{560, 816}

Influence of the tyrosine kinase inhibitors STI571 (Glivec®), lavendustin A and genistein on human mast cell line (HMC‐1⁵⁶⁰) activation

The effect of rottlerin in calcium regulation in HMC‐1⁵⁶⁰ cells is mediated by a PKC‐δ independent effect

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Kristin Löber

STI571 (Glivec®) affects histamine release and intracellular pH after alkalinisation in HMC‐1560, 816

Influence of the tyrosine kinase inhibitors STI571 (Glivec®), lavendustin A and genistein on human mast cell line (HMC‐1560) activation

The effect of rottlerin in calcium regulation in HMC‐1560 cells is mediated by a PKC‐δ independent effect

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STI571 (Glivec®) affects histamine release and intracellular pH after alkalinisation in HMC‐1^{560, 816}

Influence of the tyrosine kinase inhibitors STI571 (Glivec®), lavendustin A and genistein on human mast cell line (HMC‐1⁵⁶⁰) activation

The effect of rottlerin in calcium regulation in HMC‐1⁵⁶⁰ cells is mediated by a PKC‐δ independent effect