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Obligatory Roles of Protein Kinase C and Nitric Oxide in the Regulation of Cerebral Vascular Tone: An Implication of a Pathogenesis of Vasospasm After Subarachnoid Haemorrhage (1998)

Nishizawa, S. ; Yokota, N. ; Yokoyama, T. ; [et al.]

Springer

Acta neurochirurgica 140 (1998), S. 1063-1068

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ISSN: 0942-0940

Keywords: Keywords: Down regulation; nitric oxide; protein kinase C; subarachnoid haemorrhage; vasospasm.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We previously showed that a canine basilar artery manifested tonic and potent, protein kinase C (PKC)-dependent contractions when nitric oxide (NO) was inhibited. We also reported a linear correlation between chronological changes in the angiographic severity of vasospasm, enhanced PKC, and attenuated guanosine, 13′,15′-cyclic monophosphate (cGMP) activity in a canine subarachnoid haemorrhage model. The activity of cGMP is an indicator of NO-function. Based on this evidence, we have hypothesized that PKC and NO regulate cerebral vascular tone. We particularly focused on the role of NO in a negative feedback mechanism on PKC activity in the maintenance of vascular tone. To further confirm our hypothesis, we investigated the effect of PKC down-regulation on the tonic vascular contraction induced by NO-inhibition. Canine basilar artery was used in the experiment. Significant down-regulation of PKC activity in vascular smooth muscle cells was obtained by incubation with 10−5 mole/L of phorbol 12-myristate 13-acetate (PMA) for 24 hours. The tonic and potent contraction induced by NO-inhibition was completely suppressed in the PKC down-regulated artery, even though the artery manifested a significant contraction in high-K+ solutions. These results indicate an obligatory role of PKC activity in tonic contraction when NO is inhibited, and support our previous data. Nitric oxide induces vascular relaxation by inhibiting PKC activity. Subarachnoid haemorrhage impairs this inhibition, resulting in PKC-dependent vascular contraction, such as vasospasm.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s007010050215

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Transport mechanism of anthracycline derivatives in human leukemia cell lines: uptake and efflux of pirarubicin in HL60 and pirarubicin-resistant HL60 cells (1996)

Nagasawa, Kazuki ; Natazuka, Toshiki ; Chihara, Kazuo ; [et al.]

Springer

Cancer chemotherapy and pharmacology 37 (1996), S. 297-304

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ISSN: 1432-0843

Keywords: Key words Pirarubicin ; HL60 cell lines ; Transport

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We studied the transport mechanism of pirarubicin (THP) in HL60 and its THP-resistant (HL60/THP) cells, which showed no expression of mdr1 mRNA on Northern blot analysis. Under physiological conditions, the uptake of THP by both types of cell was time- and temperature-dependent. The amount of drug transport in the resistant cells was significantly less than that in the parent cells within 3 min of incubation. THP uptake was significantly higher in the presence than in the absence of 4 mM 2,4-dinitrophenol (DNP) in glucose-free Hanks’ balanced salt solution in both HL60 and HL60/THP cells and the increases were approximately equal. In the presence of DNP, the uptake of THP by both types of cell was concentration-dependent, and there were no significant differences in the apparent kinetic constants (Michaelis constant (K m), maximum velocity (V max) and V max/K m) for THP uptake between HL60 and HL60/THP cells. Additionally, THP transport was competitively inhibited by its analogue doxorubicin. The efflux of THP from HL60/THP cells was significantly greater than that from HL60 cells, and the release from both types of cell was completely inhibited by decreasing the incubation temperature to 0°C and by treatment with DNP in glucose-free medium. In contrast, the P-glycoprotein inhibitors verapamil and cyclosporin A did not inhibit THP efflux. However, genistein, which is a specific inhibitor of multidrug resistance-associated protein (MRP), increased the THP remaining in the resistant cells, and the value was approximately equal to that of the control group in the sensitive cells. These results suggest that THP is taken up into HL60 and HL60/THP cells via a common carrier by facilitated diffusion, and then pumped out in an energy-dependent manner. Furthermore, the accelerated efflux of THP by a specific mechanism, probably involving MRP, other than the expression of P-glycoprotein, resulted in decreased drug accumulation in the resistant cells, and was responsible, at least in part, for the development of resistance in HL60/THP cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002800050389

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