WO2005013691A1 - Use of boranocarbonates for the therapeutic delivery of carbon monoxide - Google Patents
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Definitions
- the present invention relates to pharmaceutical compositions and compounds for the therapeutic delivery of carbon monoxide to humans and other mammals. Another use of the composition and compounds is in organ perfusion.
- CO carbon monoxide
- H0-2 constitutive
- HO-1 inducible
- heme oxygenase enzymes 1 ' 2 heme oxygenase enzymes 1 ' 2 .
- CO is now regarded as a versatile signaling molecule having essential regulatory roles in a variety of physiological and pathophysiological processes that take place within the cardiovascular, nervous and immune systems.
- CO produced in the vessel wall by heme oxygenase enzymes possesses vasorelaxing properties and has been shown to prevent vasoconstriction and both acute and chronic hypertension through stimulation of soluble guanylate cyclase -10 .
- Endogenous CO appears to modulate sinusoidal tone in the hepatic circulation X1 , control the proliferation of vascular smooth muscle cells 12 and suppress the rejection of transplanted hearts 13 .
- the biological action of heme oxygenase-derived CO is substantiated by the pharmacological effects observed when this gas is applied exogenously to in vitro and in vivo systems.
- CO gas has been reported to mediate potent anti-inflammatory effects 14 , prevent endothelial cell apoptosis 15 , inhibit human airway smooth muscle cell proliferation 1S and promote protection against hyperoxic as well as ischemic lung injury 17 ' 18 .
- transition metal carbonyls possess the ability to liberate CO under appropriate conditions and function as CO-releasing molecules (CO-RMs) in biological systems.
- CO-RMs induce vessel relaxation in isolated aortic tissue and prevent coronary vasoconstriction as well as acute hypertension in vivo through specific mechanisms that can be simulated by activation of the HO-l/CO pathway 23 .
- the versatile chemistry of transition metals allows them to be effectively modified by coordinating biological ligands to the metal center in order to render the molecule less toxic, more water soluble and to modulate the release of CO.
- US-A- 5254706 describes phosphite-borane compounds for anti-tumour, anti-inflammatory and hypolipidemic activity.
- WO93/05795 discusses use of organic boron compounds effective against osteoporosis and suggests also anti- inflammatory, anti-hyperlipidemic and antineoplastic activity.
- the compounds disclosed are primarily of the amino-borane class, but Na 2 BH 3 COO is also tested.
- Hall et al. "Metal Based Drugs", Vol. 2, No. 1, 1995, describes anti-inflammatory activity of acyclic amine-carboxyboranes in rodents.
- boranocarbonate compounds can be used to deliver CO to a physiological target so as to provide physiological effect.
- the present invention provides a pharmaceutical composition, intended for administration to a human or other mammal for delivery of carbon monoxide, comprising a boranocarbonate compound or ion adapted to make CO available for physiological effect and at least one pharmaceutically acceptable carrier.
- Boranocarbonates are a group of compounds which can loosely be described as carboxylate adducts of borane and derivatives of borane.
- Boranocarbonates generally contain a group of the form -COO " or COOR (where R is H or another group) attached to the boron atom, so that they may be called boranocarboxylates or carboxyboranes , but the term boranocarbonate seems to be preferred.
- the compound K 2 (H 3 BCOO) and the related K(H 3 BCOOH) are described in reference 31, where the compound K 2 (H 3 BCOO) is used for producing Tc carbonyls .
- a boranocarbonate has the molecular structure including the moiety
- the structure generally is an anion. It may be a divalent anion when one (COQ) is present as (COO " ) . If the structure is an anion, a cation is required. Any physiologically suitable cation may be employed, particularly a metal cation such as an alkali metal ion e.g. K + or Na + or an alkaline earth metal cation such as Ca ++ or Mg ++ . Alternatively non-metal cations might be employed, such as NR 4 + where each R is H or alkyl (preferably of 1 to 4 carbon atoms) or PR 4 + where R is alkyl (preferably of 1 to 4 carbon atoms) .
- the cation may be selected in order to achieve a desired solubility of the compound.
- y is 1.
- x is 3.
- the boranocarbonate is soluble and is present in solution in a suitable solvent, e.g. an aqueous solvent, in the composition.
- suitable solvents e.g. ethanol, DMSO, DMF and other physiologically compatible solvents .
- the boranocarbonates employed in the present invention vary in their ability to provide CO.
- the release of CO may be pH and temperature dependent . Lower pH causes more or faster release.
- a range of compounds is available, for choice of a suitable release rate for a particular application. Slow release over a long period, of hours or days, can be achieved.
- Solutions can be provided containing dissolved CO, already released by the boranocarbonate.
- release of CO may be triggered by change of condition (e.g. pH or temperature) or by contact with another material, e.g. another solvent or aqueous physiological fluid such as blood or lymph, or even at a physiological delivery site .
- the pharmaceutical compositions of the present invention release CO such as to make it available to a therapeutic target in dissolved form.
- CO may be released directly to a non-solvent acceptor molecule .
- pharmaceutical compositions according to the present invention may be capable of delivering CO therapeutically through one or more of the above described modes of action.
- the boranocarbonate compound may further comprise a targeting moiety, to facilitate release of CO at an appropriate site.
- the targeting moiety is typically capable of binding a receptor on a particular target cell surface, in order to promote release of CO at the required site.
- the targeting moiety may be a part of a modulating ligand capable of binding to a receptor found on the surface of the target cells, or may be derived from another molecule, such as an antibody directed against a particular receptor, joined to the boranocarbonate molecule by a suitable linker.
- the pharmaceutical compositions of the present invention typically comprise a pharmaceutically acceptable excipient, carrier, buffer, stabiliser or other materials well known to those skilled in the art. Such materials should be non-toxic and should not interfere unduly with the efficacy of the active ingredient .
- the precise nature of the carrier or other material may depend on the route of administration, e.g.
- compositions for oral administration may be in tablet, capsule, powder or liquid form.
- a tablet may include a solid carrier such as gelatin or an adjuvant or a slow-release polymer.
- Liquid pharmaceutical compositions generally include a liquid carrier such as water, petroleum, animal or vegetable oils, mineral oil or synthetic oil. Physiological saline solution, dextrose or other saccharide solution or glycols such as ethylene glycol, propylene glycol or polyethylene glycol may be included. Pharmaceutically acceptable amounts of other solvents may also be included, in particular where they are required for dissolving the particular compound contained in the composition.
- the active ingredient will typically be in the form of a parenterally acceptable solution which is pyrogen-free and has suitable pH, isotonicity and stability.
- a parenterally acceptable solution which is pyrogen-free and has suitable pH, isotonicity and stability.
- Those of relevant skill in the art are well able to prepare suitable solutions using, for example, isotonic vehicles such as Sodium Chloride Injection, Ringer's Injection, Lactated Ringer's Injection. Preservatives, stabilisers, buffers, antioxidants and/or other additives may be included, as required. Delivery systems for needle-free injection are also known, and compositions for use with such systems may be prepared accordingly.
- compositions intended for delivery by any route including but not limited to oral, nasal, mucosal, intravenous, cutaneous, subcutaneous and rectal the active substance may be micro encapsulated within polymeric spheres such that exposure to body fluids and subsequent CO release is delayed in time.
- Administration is preferably in a prophylactically effective amount or a therapeutically effective amount (as the case may be, although prophylaxis may be considered therapy) , this being sufficient to show benefit to the individual .
- the actual amount administered, and rate and time-course of administration will depend on the nature and severity of what is being treated. Prescription of treatment, e.g. decisions on dosage etc, is within the responsibility of general practitioners and other medical doctors, and typically takes account of the disorder to be treated, the condition of the individual patient, the site of delivery, the method of administration and other factors known to practitioners.
- compositions according to the present invention When formulating pharmaceutical compositions according to the present invention, the toxicity of the active ingredient and/or the solvent must be considered. The balance between medical benefit and toxicity should be taken into account . The dosages and formulations of the compositions will typically be determined so that the medical benefit provided outweighs any risks due to the toxicity of the constituents .
- a method of introducing CO to a mammal comprising the step of administering a pharmaceutical composition according to the present invention. CO is thought to act at least in part through stimulation or activation of guanylate cyclase.
- CO is thought to have functions as, inter alia, a neurotransmitter and a vasodilating agent. Accordingly there is provided a method of delivering CO to a mammal for stimulation of guanylate cyclase activity. There is further provided a method of delivering CO to a mammal for stimulating neurotransmission or vasodilation.
- a neurotransmitter and a vasodilating agent.
- HO-1 heme oxygenase 1 pathway
- stressful stimuli including UVA radiations, carcinogens, ischaemia-reperfusion damage, endotoxic shock and several other conditions characterised by production of oxygen free radicals (32,19,2).
- the protective effect of HO-1 is attributed to the generation of the powerful antioxidants biliverdin and bilirubin and the vasoactive gas CO.
- Expression of HO-1 has been linked with cardiac xenograft survival (33) , suppression of transplant arteriosclerosis (34) and amelioration of post-ischemic myocardial dysfunction (35) .
- HO-1 has also been directly implicated in the resolution phase of acute inflammation in rats (36) .
- pathological situations such as haemorrhagic shock in brain and liver as well as sepsis (37-39)
- HO-1 gene which seems to play a crucial role in counteracting the vascular dysfunction caused by these pathophysiological states.
- Increased generation of CO as a consequence of HO-1 induction markedly affects vessel contractility and diminishes acute hypertension in the whole organism (10,9) .
- Exposure of animals to ambient air containing low concentrations of CO or transfection of the HO-1 gene results in protection against hyperoxia-induced lung injury in vivo, a mechanism mediated by attenuation of both neutrophil inflammation and lung apoptosis (cell death) (17,40) .
- Exogenous CO gas also has the ability to suppress pro-inflammatory cytokines and modulate the expression of the anti-inflammatory molecule, IL-10, both in vitro and in vivo (14) . Therefore administration of CO in accordance with the invention may be used for treatment of any of these conditions, for modulation of inflammatory states and regression of other pathophysiological conditions including cancer .
- a method of introducing CO to a mammal comprising the step of administering a pharmaceutical composition according to the present invention, for treatment of hypertension, such as acute, pulmonary and chronic hypertension, radiation damage, endotoxic shock, inflammation, inflammatory-related diseases such as asthma, rheumatoid arthritis and small bowel disease, hyperoxia- induced injury, apoptosis, cancer, transplant rejection, postoperative ileus, arteriosclerosis, post-ischemic organ damage, myocardial infarction, angina, haemorrhagic shock, sepsis, penile erectile dysfunction and adult respiratory distress syndrome, and in procedures such as balloon angioplasty (to treat restenosis following balloon angioplasty) and aortic transplantation.
- hypertension such as acute, pulmonary and chronic hypertension, radiation damage, endotoxic shock, inflammation, inflammatory-related diseases such as asthma, rheumatoid arthritis and small bowel disease, hyperoxia- induced injury, apoptosis, cancer,
- a stent may have a coating containing CO- releasing compounds .
- the present invention also provides the use of a boranocarbonate compound or ion as herein described in the manufacture of a medicament for delivering CO to a physiological target, particularly a mammal, to provide a physiological effect, e.g.
- hypertension for stimulating neurotransmission or vasodilation, or for treatment of any of hypertension, such as acute, pulmonary and chronic hypertension, radiation damage, endotoxic shock, inflammation, inflammatory-related diseases such as asthma, rheumatoid arthritis and small bowel disease, hyperoxia-induced injury, apoptosis, cancer, transplant rejection, post-operative ileus, arteriosclerosis, sickle cell anemia or sickle cell disease, post-ischemic organ damage, myocardial infarction, angina, haemorrhagic shock, sepsis, penile erectile dysfunction and adult respiratory distress syndrome, and in procedures such as balloon angioplasty and aortic transplantation.
- hypertension such as acute, pulmonary and chronic hypertension, radiation damage, endotoxic shock, inflammation, inflammatory-related diseases such as asthma, rheumatoid arthritis and small bowel disease, hyperoxia-induced injury, apoptosis, cancer, transplant rejection, post-operative ileus, arteriosclerosis,
- Such medicaments may be adapted for administration by an oral, intravenous, subcutaneous, nasal, inhalatory, intramuscular, intraperitoneal, transdermal, transmucosal or suppository route .
- the invention provides a method of treatment of a mammal comprising stimulation of neurotransmission, vasodilation or smooth muscle relaxation by CO as a physiologically effective agent, or the treatment of any of hypertension, radiation damage, endotoxic shock, inflammation, inflammatory-related diseases, hyperoxia-induced injury, apoptosis, cancer, transplant rejection, post- operative ileus, arteriosclerosis, post-ischemic organ damage, myocardial infarction, angina, haemorrhagic shock, sepsis, penile erectile dysfunction, adult respiratory distress syndrome, vascular restenosis, hepatic cirrhosis, cardiac hypertrophy, heart failure and ulcerative colitis, or treatment in balloon angioplasty, aortic transplantation or survival of a transplanted
- the method of treatment is stimulation of neurotransmission, vasodilation or smooth muscle relaxation by CO as a physiologically effective agent, or treatment of any of acute or chronic systemic hypertension, radiation damage, endotoxic shock, hyperoxia-induced injury, apoptosis, cancer, transplant rejection, post-operative ileus, arteriosclerosis, post-ischemic organ damage, angina, haemorrhagic shock, sepsis, penile erectile dysfunction, vascular restenosis, hepatic cirrhosis, cardiac hypertrophy, heart failure and ulcerative colitis, or treatment in balloon angioplasty, aortic transplantation or survival of a transplanted organ.
- the method of treatment is stimulation of neurotransmission, vasodilation or smooth muscle relaxation by CO as a physiologically effective agent, or treatment of any of acute or chronic systemic hypertension, hyperoxia- induced injury, cancer by the pro-apoptotic effect of CO, transplant rejection, post-operative ileus, post-ischemic organ damage, angina, haemorrhagic shock, penile erectile dysfunction, hepatic cirrhosis, cardiac hypertrophy, heart failure and ulcerative colitis, or treatment in balloon angioplasty or aortic transplantation.
- the method may be treatment of any of hyperoxia-induced injury, cancer by the pro-apoptotic effect of CO, transplant rejection, post-operative ileus, post- ischemic organ damage, angina, haemorrhagic shock, penile erectile dysfunction, hepatic cirrhosis, cardiac hypertrophy, heart failure and ulcerative colitis, or treatment in balloon angioplasty or aortic transplantation.
- smooth muscle relaxation is meant treatment of conditions other than by vasodilation, such as chronic anal fissure, internal anal sphincter disease and anorectal disease.
- More specific treatments to which the invention may be applied are the suppression of atherosclerotic legions following aortic transplantation, ischemic lung injury, prevention of reperfusion induced myocardial damage, and also to achieve the pro-apoptotic effects of CO (e.g. in cancer treatments) .
- the invention further provides use of the boranocarbonate compounds or ions here described in treatment, e.g. by perfusion, of a viable mammalian organ extracorporeally, e.g. during storage and/or transport of an organ for transplant surgery.
- the boranocarbonate is in dissolved form, preferably in an aqueous solution.
- the viable organ may be any tissue containing living cells, such as a heart, a kidney, a liver, a skin or muscle flap, etc.
- isolated organs e.g. extracorporeal organs or in situ organs isolated from the blood supply can be treated.
- the organ may be, for example, a circulatory organ, respiratory organ, urinary organ, digestive organ, reproductive organ, neurological organ, muscle or skin flap or an artificial organ containing viable cells.
- the organ may be a heart, lung, kidney or liver.
- the body tissue which is treatable are not limited and may be any human or mammal body tissue whether extracorporeal or in-situ in the body.
- compositions of the invention here described are useful to deliver CO to an extracorporeal or isolated organ so as to reduce ischaemic damage of the organ tissue.
- the boranocarbonates here described can be used in combination with a guanylate cyclase stimulant or stabilizer to deliver CO to a physiological target so as to provide an improved physiological effect .
- the pharmaceutical preparation may contain the boranocarbonate and the guanylate cyclase stimulant/stabilizer in a single composition or the two components may be formulated separately for simultaneous or sequential administration.
- the present invention provides a method of introducing CO to a mammal as a therapeutic agent comprising: a) administering a boranocarbonate which makes available CO suitable for physiological effect; and b) administering a guanylate cyclase stimulant or stabiliser.
- the method is particularly applicable to treatment of acute or chronic systemic hypertension, pulmonary hypertension, transplant rejection, post-operative ileus, arteriosclerosis, post-ischemic organ damage, myocardial infarction, penile erectile dysfunction, vascular restenosis, hepatic cirrhosis, cardiac hypertrophy, heart failure, chronic anal fissure, internal anal sphincter disease, anorectal disease, and ulcerative colitis or for treatment in balloon angioplasty or aortic transplantation.
- the stabilizer/stimulant is administered first followed by the boranocarbonate but this order may be reversed.
- the guanylate cyclase stabilizer/stimulant compound may be any compound which stimulates production of guanylate cyclase or which stabilizes guanylate cyclase, in particular the active form of guanylate cyclase.
- a single compound can be used or a combination of compounds can be used either for simultaneous or sequential administration, i.e. the various aspects include/use at least one guanylate cyclase stimulant/stabilizer .
- Examples include 3- (5 ' -hydroxymethyl-2 ' -furyl) -1-benzyl- indazole (YC-1) , 4 pyrimidinamine-5-cyclopropyl-2- [1- [ (2- fluorophenyl) methyl] -lH-pyrazolo [3 , -b]pyridin-3-yl] (BAY 41- 2272) , BAY 50-6038 (ortho-PAL) , BAY 51-9491 (meta PAL) , and BAY 50-8364 (para PAL).
- the structures of ortho-, meta- and para- PAL are shown in Figure 9 attached.
- Tricarbonylchloro (glycinato) ruthenium(II) ( [Ru(CO) 3 C1 (glycinate) ] or CORM-3) was synthesized as previously described by Clark and collaborators 24 .
- Disodium boranocarbonate Na 2 [H 3 BC0 2 ] , indicated here as "CORM-Al”
- Sodium borohydride (NaBH 4 ) and all other reagents were from Sigma Chemicals (Poole, Dorset) .
- the release of CO from CORM-Al was assessed spectrophotometrically by measuring the conversion of deoxymyoglobin (Mb) to carbonmonoxy myoglobin (MbCO) by a method previously described 23 .
- Sodium dithionite (0.1 %) was added to convert the oxidized myoglobin to its reduced form prior to each reading.
- Transverse ring sections of thoracic aorta were isolated from male Lewis rats and suspended under a 2 g tension in an organ bath containing oxygenated Krebs-Henseleit buffer at 37 °C in a manner previously described 10 .
- the relaxation response to CORM-Al (40, 80 and 160 ⁇ M) was assessed in aortic rings precontracted with phenylephrine (3 ⁇ M) .
- Control rings were similarly treated by adding equal doses of the inactive compound (iCORM-Al) or sodium borohydride (NaBH 4 ) to the organ bath.
- iCORM-Al inactive compound
- NaBH 4 sodium borohydride
- Example 1 Conversion of myoglobin (Mb) to carbon monoxide myoglobin (MbCO) by CO gas.
- Myoglobin (Mb) in its reduced state displays a characteristic spectrum with a maximal absorption peak at 555 nm (see Figure 1, dotted line) .
- MbCO carbon monoxide myoglobin
- MbCO displays a characteristic spectrum with two maximal absorption peaks at 540 and 576 nm, respectively (solid line) .
- This method has been previously developed to monitor and determine the amount of CO released from CO-RMs 23 and can be used to examine how various conditions such as different pHs and temperatures can affect the kinetics of CO release (see Examples 4) .
- CORM-Al at three different concentrations was added to a solution containing Mb at room temperature and the formed MbCO was calculated over time.
- Non-linear regression analysis using one phase exponential association resulted in the best fitting of the three curves (r 2 >0.99) .
- the amount of MbCO formed from CORM-Al increases with a defined kinetic in a concentration-dependent manner.
- Example 4 Effects of temperature and pH on the rate of CO release from CORM-Al.
- the rate of CO release from CORM-Al was examined at different pHs and temperatures.
- the concentration of MbCO was calculated at different time points and non-linear regression analysis was used to obtain the best fitting of the three curves as described in example 3.
- the rate of CO release from CORM-Al is significantly accelerated by increasing the temperature as well as by decreasing the pH.
- CORM-3 [Ru(CO) 3 Cl (glycinate) ]
- CO 27 has been shown to promote a rapid and significant relaxation in isolated vessels and this effect has been demonstrated to be mediated by CO 27 .
- CO 27 It is also known from recent works that the liberation of CO from CORM-3 to Mb or in biological systems occurs very rapidly (approximately 5 min) 24 ' 27 , which is in agreement with the prompt pharmacological effects observed in isolated vessels.
- CORM-Al the release of CO at physiological pH is slower (18.4 min) as shown in example 5.
- the pharmacological action of CORM-Al would reflect its biochemical behaviour.
- CORM-Al 80 ⁇ M caused a much slower effect on relaxation compared to CORM-3 (80 ⁇ M) .
- CORM-3 solid line
- CORM-Al dashed line
- Pre-contracted aortic rings were treated with increasing concentrations of CORM-Al (40, 80 and 160 ⁇ M) and the percentage of vasorelaxation was calculated at different time points.
- CORMA-1 caused a significant relaxation over time in a concentration-dependent manner.
- the percentage of relaxation elicited by the different concentrations of CORM-Al compared to control was as follows : 21.0 ⁇ 2.3% with 40 ⁇ M CORM-Al, 40.2 ⁇ 3.4% with 80 ⁇ M CORM-Al and 74.9 ⁇ 1.8% with 160 ⁇ M CORM-Al.
- the data are represented as the mean+S.E.M. of 6 independent experiments for each group.
- Example 8 The vasorelaxant properties of CORM-Al are mediated by CO
- Transverse ring sections of thoracic aorta were isolated from male Lewis rats and suspended under a 2 g tension in an organ bath containing oxygenated Krebs-Henseleit buffer at 37 °C in a manner previously described [10] .
- the relaxation response to CORM-Al (20 ⁇ M) in the presence or absence of YC-1 (1 ⁇ M final concentration) was assessed over time in aortic rings pre- contracted with phenylephrine (1 ⁇ mol/L) .
- YC-1 was added to the isolated rings 30 min prior to contraction with phenylephrine .
- Lewis rats (280-350 g) were anaesthetised by intramuscular injection of 1 ml/kg Hypnorm. Specially designed femoral artery and venous catheters were then surgically implanted and mean arterial pressure (MAP) monitored continuously using a polygraph recorder in a manner previously described [23] .
- MAP mean arterial pressure
- the effect of CORM-Al on mean arterial pressure (MAP) over time was assessed following an intravenous (i.v.) injection of 50 ⁇ mol kg "1 .
- Similar experiments were conducted by administering YC-1 (1.2 ⁇ mol kg "1 , i.v.) to animals 5 min prior to the bolus addition of CORM-Al. Control experiments using YC-1 alone were also performed.
- Example 10 Effect of CORM-Al and CORM-3 on mean arterial pressure.
- Femoral artery and venous catheters were surgically implanted into anesthetized Lewis rats and blood pressure continuously monitored as previously described by us [23] .
- the effect of CORM-Al and YC-1 on mean arterial pressure (MAP) in vivo is represented in Figure 11.
- the compounds were injected intravenously as a bolus at a final concentration of 50 ⁇ moles/kg for CORM-Al and 1.2 ⁇ mol kg "1 for YC-1. When the two compounds were given in combination, YC-1 was administered 10 min prior to CORM-Al injection.
- CORM-Al produced a gradual and sustained decrease in MAP over time; for instance, 60 min after CORM-Al injection MAP decreased by 6.3+1.5 mmHg from the initial baseline value. Injection with YC-1 alone also produced an effect on blood pressure; however, the decrease in MAP was only transient, reaching a maximum of 5.5+1.0 mmHg after 10 min and returning to basal levels 50 min after injection. Interestingly, the combination of CORM-Al and YC-1 produced a synergistic effect resulting in a rapid and profound hypotension. In fact, MAP significantly decreased by 16.1 ⁇ 5.6 mmHg after 10 min and remained at this level for the rest of the experiment . The data are represented as the mean+s.e.m. of 5 independent experiments for each group.
- the present invention therefore provides water-soluble compounds which are useful as CO carriers which can have selectable chemical properties, enabling novel therapeutic approaches based on CO delivery. This offers significant advantages over inhalation of CO as it may circumvent the problems related to the systemic effects of CO gas on oxygen transport and delivery. Moreover, the design of stable compounds with "fast” or “slow” kinetics of CO release that could target selective organs and affect only a restricted area of the body is highly feasible.
- One application for the use of water-soluble compounds is in conditions where Co needs to be applied locally.
- CO-providing compounds may be applied to vessels prior to the angioplasty procedure.
- vascular stents may be covered with specific boranocarbonate compounds that have the ability to release CO slowly to the injured vessels and inhibit smooth muscle cell proliferation.
- Compounds whose kinetic of CO release is affected by temperature could also be used ex-vivo as an adjuvant to preservation solutions that are commonly employed to store organs prior to transplantation.
- the protective role of HO-1 against organ rejection has been extensively reported and the concept of treating the organ(s) rather than the recipient (s) will have much benefit in the clinical setting of transplantation.
- Verma A Hirsch DJ, Glatt CE, Ronnett GV, Snyder SH. Carbon monoxide: a putative neural messenger. Science. 1993;259:381-384.
- boranocarbonate a convenient in situ CO source for the aqueous preparation of [(99m)Tc(OH(2) )3(CO)3]+. -J Am Chem Soc . 2001; 123 : 3135- 3136.
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CA002534415A CA2534415A1 (en) | 2003-08-04 | 2004-08-04 | Therapeutic delivery of carbon monoxide |
JP2006522399A JP2007501209A (en) | 2003-08-04 | 2004-08-04 | Use of boranocarbonate for the release of carbon monoxide for therapeutic purposes |
EP04801816A EP1675459A1 (en) | 2003-08-04 | 2004-08-04 | Use of boranocarbonates for the therapeutic delivery of carbon monoxide |
AU2004262976A AU2004262976A1 (en) | 2003-08-04 | 2004-08-04 | Use of boranocarbonates for the therapeutic delivery of carbon monoxide |
US10/567,157 US20070065485A1 (en) | 2003-08-04 | 2004-08-04 | Therapeutic delivery of carbon monoxide |
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GB0409376A GB0409376D0 (en) | 2003-08-04 | 2004-04-27 | Therapeutic delivery of carbon monoxide |
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WO2008130261A1 (en) * | 2007-04-24 | 2008-10-30 | Alfama - Investigaçao E Desenvolvimento De Produtos Farmaceuticos Lda. | Treatment of infections by carbon monoxide |
WO2008148474A2 (en) * | 2007-06-06 | 2008-12-11 | Bayer Schering Pharma Aktiengesellschaft | Solutions for perfusing and preserving organs and tissues |
US7964220B2 (en) | 2002-02-04 | 2011-06-21 | ALFAMA—Investigação e Desenvolvimento de Produtos Farmacêuticos, Lda. | Method for treating a mammal by administration of a compound having the ability to release CO |
US7968605B2 (en) | 2002-02-04 | 2011-06-28 | ALFAMA—Investigação e Desenvolvimento de Produtos Farmacêuticos, Lda. | Methods for treating inflammatory disease by administering aldehydes and derivatives thereof |
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US8236339B2 (en) | 2001-05-15 | 2012-08-07 | Hemocorm Limited | Therapeutic delivery of carbon monoxide |
US8389572B2 (en) | 2006-01-24 | 2013-03-05 | Hemocorm Limited | Therapeutic delivery of carbon monoxide |
US8697747B2 (en) | 2009-03-05 | 2014-04-15 | The Uab Research Foundation | Enhancing coagulation or reducing fibrinolysis |
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