TY - JOUR
T1 - Pharmacological modulation of nitric oxide release: new pharmacological perspectives, potential benefits and risks.
AU - Scatena, Roberto
AU - Bottoni, Patrizia
AU - Pontoglio, Alessandro
AU - Giardina, Bruno
PY - 2010
Y1 - 2010
N2 - Nitric oxide is becoming an increasingly important signalling molecule implicated
in a growing number of physiological and pathophysiological processes. Moreover,
with the recent advances in nitric oxide biochemistry, many well known drugs have
been shown to act totally or partially by modulating NO metabolism with varying
therapeutic results. The classic organic nitrates have been shown to exhibit
beneficial therapeutic but suffer from some well known pitfalls (tolerability
induction, abrupt cephalea and hypotension). Similarly, sydnonimines, another
well known class of NO donor drugs, have a characteristically low therapeutic
index (i.e., cyanide toxicity). At present, pharmacological researchers are
designing and synthesising various chemical compounds capable of modulating NO
metabolism for therapeutic purposes that also possess an optimal therapeutic
index. Specifically, various new classes of NO donors are under intense
pharmacological investigation (such as S-nitrosothiols, diazeniumdiolates,
furoxans, zeolites and so on), each characterised by a particular pharmacokinetic
and pharmacodynamic profile. To known the pharmacological development of these
new NO donor drugs could help to ameliorate the use of these molecules in various
therapeutic protocols. In fact, the pharmacologically modulated nitric oxide
release showed to have an important therapeutic impact in the treatment of
diseases such as arteriopathies, various acute and chronic inflammatory
conditions, and several degenerative diseases. At present, the most important
obstacle in the field of new NO donor drugs seems to be carefully targeting NO
release to a particular tissue at an optimal concentration, so as to achieve a
beneficial action and to limit possible toxic effects.
AB - Nitric oxide is becoming an increasingly important signalling molecule implicated
in a growing number of physiological and pathophysiological processes. Moreover,
with the recent advances in nitric oxide biochemistry, many well known drugs have
been shown to act totally or partially by modulating NO metabolism with varying
therapeutic results. The classic organic nitrates have been shown to exhibit
beneficial therapeutic but suffer from some well known pitfalls (tolerability
induction, abrupt cephalea and hypotension). Similarly, sydnonimines, another
well known class of NO donor drugs, have a characteristically low therapeutic
index (i.e., cyanide toxicity). At present, pharmacological researchers are
designing and synthesising various chemical compounds capable of modulating NO
metabolism for therapeutic purposes that also possess an optimal therapeutic
index. Specifically, various new classes of NO donors are under intense
pharmacological investigation (such as S-nitrosothiols, diazeniumdiolates,
furoxans, zeolites and so on), each characterised by a particular pharmacokinetic
and pharmacodynamic profile. To known the pharmacological development of these
new NO donor drugs could help to ameliorate the use of these molecules in various
therapeutic protocols. In fact, the pharmacologically modulated nitric oxide
release showed to have an important therapeutic impact in the treatment of
diseases such as arteriopathies, various acute and chronic inflammatory
conditions, and several degenerative diseases. At present, the most important
obstacle in the field of new NO donor drugs seems to be carefully targeting NO
release to a particular tissue at an optimal concentration, so as to achieve a
beneficial action and to limit possible toxic effects.
KW - cancer
KW - mitochondria
KW - nitric oxide
KW - cancer
KW - mitochondria
KW - nitric oxide
UR - http://hdl.handle.net/10807/9015
M3 - Article
SN - 0929-8673
VL - 2010
SP - 61
EP - 73
JO - Current Medicinal Chemistry
JF - Current Medicinal Chemistry
ER -