Melanocyte response to gravitational stress: an overview with a focus on the role of cyclic nucleotides
Abstract
Human melanocytes are responsible for skin pigmentation by synthesizing the pigment melanin. A well known modulator of melanogenesis is the second messenger adenosine 3',5'-cyclic monophos-phate (cAMP). It has also been reported that the nitric oxide (NO)/soluble guanylyl cyclase (sGC)/guanosine 3',5'-cyclic monophosphate (cGMP) pathway is involved in UVB-induced melanogenesis. Melanin acts as a scavenger for free radicals during oxidative stress, but it may additionally act as a photosensitizer that generates active oxygen species upon UV radiation, which may initiate hypopigmentary disorders (e.g., vitiligo) as well as UV-induced oncogene cell transformation. Melanoma, a deadly skin cancer which arises from transformed melanocytes, is characterized by a resistance to chemotherapy. In our studies we were able to show that hu-man melanocytic cells differentially respond to gravitational stress. Hypergravity (up to 5 g for 24 h) stimulated cGMP efflux in cultured human melanocytes and non-metastatic melanoma cells, but not in metastatic phenotypes under the conditions of limited degradation [e.g., in the presence of phosphodiesterase (PDE) inhibitors] or stimulated synthesis of cGMP [e.g., by NO donors, but not natriuretic peptides], whereas cellular proliferation and morphology were not altered. Interestingly, long-term exposure to hypergravity stimulated an increase in both intra-cellular as well as extracellular cAMP levels as well as melanogenesis in pigmented melanocytes and non-metastatic melanoma cells. As some cAMP-PDEs are regulated by cGMP, it seems that the hypergravity-induced alteration of melanocyte pigmentation could be a result of a cross-talk between these two cyclic nucleotides. Hypergravity induced further an increase in the mRNA and protein levels of the selective cGMP and cAMP exporters, the multidrug resistance proteins (MRP) 4 and 5 -but not 8 -, whereas simulated microgravity (up to 1.21x10-2 g for 24 h) -provided by a fast-rotating clinostat (60 rpm) with one rotating axis -reduced the mRNA levels for MRP4/5 in these cells. The alterations are dependent on the expression of func-tional NO-sensitive sGC (a heterodimeric hemeprotein, consisting of α and β subunits), since no changes in the expression of mRNA for MRP4/5 were found in non-metastatic melanoma cells transfected with siRNA for sGC-β1. In addition, long-term exposure to simulated mi-crogravity slightly reduced the proliferation rate of the melanocytes, whereas morphology was not affected. Taken together, the results of our studies suggest a role of the cyclic nucleotides cGMP and cAMP as well as of MRP4/5 in the adaptation of melanocytic cells to gravitational stress. Since MRP4/5 may confer resistance to nucleobase and nucleoside analogs, which are used in anticancer and antiviral therapy, medication and drug resistance may be different in altered gravity in comparison to terrestrial conditions.
- Publication:
-
38th COSPAR Scientific Assembly
- Pub Date:
- 2010
- Bibcode:
- 2010cosp...38.3403I