Reaction of nitric oxide with iron bleomycin bound to DNA: properties of the nitrosyl adduct and its reaction with O2

During the ESR spectroscopic titration of nitrosyl-iron bleomycin, ON---Fe(II)Blm, with DNA, its metal domain undergoes a change in environment as the DNA base pair to drug ratio increases to 50 to 1. The ¹⁵N---O stretching frequency of ON---Fe(II)Blm occurs at 1589 cm⁻¹, similar to that for nitrosyl hemoglobin and myoglobin. Upon addition of DNA (3 base pairs per drug molecule), this vibration is substantially broadened. Injection of O₂ into a solution of ON---Fe(II)BlmDNA converts the ESR signal of the nitrosyl species to low spin Fe(III) BlmDNA. NO is largely oxidized to NO₂⁻. The combination of these products suggests that the initial reaction of ON---Fe(II)Blm with O₂ generates Fe(III)Blm and peroxynitrite, O₂NO⁻. If peroxynitrite is formed in the reaction, it does not cause detectable DNA damage. The structural integrity of a supercoiled DNA plasmid, pBR322, is not compromised and no base propenals are produced during this reaction.     

Resonance Raman enhancement of the Mn-N-O bending mode in nitrosyl manganese "strapped" and "open" heme complexes

Resonance Raman spectra of the MnII-NO moiety in synthetic nitrosyl manganese heme complexes with and without steric hindrance are reported. The "strapped" hemes having a hydrocarbon strap (variable length) across one face of the heme hinder the perpendicular bonding of a linear ligand. These complexes were employed to investigate the effects of ligand distortion (primarily tilting) on Mn-NO stretching, Mn-N-O bending, and N-O stretching modes. It is demonstrated that ligand distortion in the MnII-NO system is a valid mechanism for causing the resonance enhancement of the Mn-N-O bending mode, similar to that observed in the FeII-CO system (Yu, N.-T., E. A. Kerr, B. Ward, and C. K. Chang. 1983. Biochemistry. 22:4534-4540). More interesting is the observation of the delta(Mn-N-O) enhancement caused by the tilting of the trans Mn-N epsilon bond in the "open" heme complexes (e.g., heme-5 and proto-1X dimethylester) with 1,2-dimethylimidazole or piperidine as a base. The nu(Mn-NO) and nu(N-O) modes exhibit an increase and a decrease, respectively, as the strap length decreases (hence the steric hindrance increases). Both nu(Mn-NO) and nu(N-O) frequencies are insensitive to the strength of the trans base. The results from "strapped" and "open" model heme systems imply that the Mn-N-O geometry is essentially linear and perpendicular in the nitrosyl complexes of monomeric manganese insect hemoglobin CTT IV and sperm whale myoglobin. The unusually low nu(N-O) frequency in the manganese myoglobin complex may be caused by the distal histidine-NO interaction. The delta(Mn-N-O) enhancement in both nitrosyl manganese CTT IV and nitrosyl manganese myoglobin may be caused by a tilting of the Mn"-Nf (proximal histidine) bond.     

Effect of ascorbic acid on production of nitric oxide by leukocytes

The effect of ascorbic acid on suspensions of blood formic elements was studied by the ESR method. It was shown that incubation of a suspension of formic blood elements in the presence of ascorbic acid leads to the appearance of nitric oxide, which is produced by leukocytes and partially probably by thrombocytes. The formation of nitric oxide is evidenced by the appearance of nitrosyl complexes heme-NO. In this case, hemoglobin of erythrocytes serves as a natural trap for nitric oxide.     

Nitrosyl heme production compared in endotoxemic and hemorrhagic shock

We compared nitric oxide production and nitrosyl hemoglobin steady state concentrations during the early phases of endotoxemic and hemorrhagic shock of equivalent severity. Sprague-Dawley rats were randomly assigned to (1) sham-operated control, (2) hemorrhage, and (3) intravenous endotoxin. Electron paramagnetic resonance spectroscopy was used to measure NO in the vasculature (binding to hemoglobin) and in the liver (binding to cytochrome P450). Despite similar changes in cardiorespiratory variables and identical microvascular pO(2), nitrosyl hemoglobin concentrations were significantly higher in endotoxemic rats than in rats in hemorrhagic shock, suggesting increased rates of NO production. A substantial venous minus arterial concentration gradient was observed for nitrosyl hemoglobin. This increased in line with the plasma total nitrite + nitrate concentration. Nitrosyl hemoglobin formation is likely to occur predominantly in the venous pool, suggesting that removal of NO from hemoglobin in the presence of oxygen may be faster than previously thought. In the liver, an increase in intracellular heme-NO complexes was detected in endotoxemic rats compared with rats in hemorrhagic shock; this was associated with increased reduction of the mitochondrial respiratory chain and is suggestive of NO inhibition of mitochondrial respiration.     

Dinitrosyl iron complexes with thiol ligands promote skin wound healing in animals

Dimeric dinitrosyl iron complexes (DNIC) with cysteine or glutathione as NO donors accelerated the healing of experimental skin wound in rats, as demonstrated by histological and histochemical examination. After two injections of an aqueous DNIC solution into the wound (total 5 μmol) on days 1 and 2 after surgery, the granulocyte volume in wound tissue on day 4 was 3–4 times greater than in the control. Higher DNIC doses provoked inflammation in the wound. Similar experiments with another NO donor S-nitrosoglutathione in equivalent amounts (10 μmol) adversely affected the wound. Addition of 2.5 μmol glutathione DNIC for 40 min produced EPR-detectable protein-bound DNIC (2.5 nmol) in wound tissue. Under the same conditions, 5 μmol S-nitrosoglutathione produced less than 10 pmol of protein-bound DNIC; an EPR-active nitrosyl hemoglobin complex was mainly formed (1.5–2.0 nmol) in this case. The beneficial effect of DNIC on the wound was suggested to be due to the delivery of NO to its targets without pronounced formation of cytotoxic peroxynitrite in wound tissue. In contrast, peroxynitrite could form upon administration of rapidly decomposed S-nitrosoglutathione, thereby aggravating the wound condition.     

Zinc, Copper, and Selenium Tissue Levels and Their Relation to Subcutaneous Abscess, Minor Surgery, and Wound Healing in Humans

Trace element involvement in wounds left to heal by secondary intention needs clarification. We have previously reported faster healing of wounds following acute surgery compared with elective excision of pilonidal sinus disease. The effect of topical zinc on the closure of the excisional wounds was mediocre compared with placebo. In contrast, parenteral zinc, copper, and selenium combined appear effective for wound healing in humans. We have investigated zinc, copper, and selenium with respect to (a) impact of acute versus chronic pilonidal sinus and (b) regional concentrations within granulating wounds treated topically with placebo or zinc in 42 (33 males) pilonidal disease patients. Baseline serum and skin concentrations of copper correlated (r _S?=?0.351, p?=?0.033, n?=?37), but not of zinc or selenium. Patients with abscesses had elevated serum C-reactive protein (CRP) and copper levels (+29 %; p?<?0.001) compared with the elective patients consistent with the strong correlation between serum copper and CRP (r _S?=?0.715, p?<?0.0005, n?=?41). Seven days after elective surgery, serum CRP and copper levels were elevated (p?=?0.010) versus preoperative values. The copper concentration in wound edges was higher than in periwound skin (p?<?0.0005) and wound base (p?=?0.010). Selenium levels were increased in wound edge compared to wound base (p?=?0.003). Topical zinc oxide treatment doubled (p?<?0.050) zinc concentrations in the three tissue localizations without concomitant significant changes of copper or selenium levels. In conclusion, copper and selenium are mobilized to injured sites possibly to enhance host defense and early wound healing mechanisms that are complementary to the necessity of zinc for matrix metalloproteinase activity.     

An ESR study of nitrosyl-Aplysia brasiliana myoglobin and nitrosyl annelidae Glossoscolex paulistus erythrocruorin

The nitrosyl derivatives of Annelidae Glossoscolex paulistus hemoglobin (an earth worm erythrocruorin (Ec AGp)) and Aplysia brasiliana myoglobin (Mb Apb) are studied using ESR spectroscopy. These two proteins have a quite similar ESR spectra at 100 K, but a different temperature behaviour. The temperature dependence of the nitrosyl Mb Apb spectrum is in good agreement with the Boltzmann distribution. In the case of nitrosyl-Ec AGp, the results are explained by the existence of two types of spectrum in thermodynamic equilibrium, with delta H = 9.08 kJ/mol, delta S = 47.15 J/mol and T1/2 = 193 K. There is a great similarity of the nitrosyl-Ec AGp spectra with those reported for elephant myoglobin, suggesting the presence of the same heme environment with a glutamine residue in the distal site. The pH dependence of the spectrum of nitrosyl-Mb Apb shows that the affinity of nitrosyl binding is higher at high pH (7.3) than at low pH (4.6). The ESR parameters are the same for these two pH values.     

糖尿病足溃疡的危险因素探讨及亲水性纤维含银敷料促进患者伤口愈合的临床对照研究

摘要 目的：探讨糖尿病足溃疡（DFU）的危险因素,并研究亲水性纤维含银敷料促进患者伤口愈合的应用价值。方法：选取2017年8月-2020年12月期间我院收治的糖尿病患者230例。230例糖尿病患者中发生DFU的79例,纳为DFU组,剩余151例未发生DFU,纳为无DFU组。DFU组的患者采用随机数字表法分为治疗1组39例和治疗2组40例,治疗1组给予传统纱布敷料,治疗2组给予亲水性纤维含银敷料。采用多因素Logistic回归分析DFU发生的危险因素。观察治疗1组、治疗2组的临床疗效和临床指标。结果：DFU组、无DFU组在性别、年龄、户籍地、糖尿病病程、并发下肢血管病变、并发周围神经病变、足底有胼胝、血红蛋白（Hb）、C反应蛋白（CRP）、白蛋白（ALB）、总胆固醇（TC）、纤维蛋白原（FIB）、红细胞沉降率（ESR）、高密度脂蛋白（HDL）、 胱抑C（CysC）、 低密度脂蛋白（LDL）、脂蛋白a[Lp(a)]、糖化血红蛋白（HbAlc）方面对比差异有统计学意义（P<0.05）。男性、糖尿病病程、并发下肢血管病变、并发周围神经病变、足底有胼胝、ALB、ESR、CysC、CRP、Lp(a)、HbAlc均是DFU发生的危险因素（P<0.05）。治疗2组的临床总有效率明显高于治疗1组（P<0.05）。治疗2组的创面愈合时间、出现明显肉芽时间、住院时间短于治疗1组,住院费用高于治疗1组（P<0.05）。结论：DFU的发生受到多种因素影响,包括男性、糖尿病病程、并发下肢血管病变等,因此临床应加强对这些因素的预防和控制。此外,亲水性纤维含银敷料可促进DFU患者创面愈合,疗效显著。     

Effects of bio-active ceramic resources in cutaneous wound healing and the role of TGF-β signaling

The wound healing process is a highly orchestrated process, which includes inflammation, re-epithelialization, granulation tissue formation, matrix formation and re-modeling. In this paper, we attempt to determine if bio-active ceramic resource powder particles had an effect on cutaneous wound healing. Furthermore, we investigated its related mechanism and the expression of Smads of cutaneous wound healing, which can be accelerated by bio-active ceramic ointment. Topically applied lesions of 5%, 10% and 15% bio-active ceramic ointment (AO) showed accelerated wound closure, re-epithelialization, and the related immediate down stream of TGF-β (p-Smad2/3 and Smad3) was suppressed. In particular, 10% and 15% AO lesions became closed faster at Days 3 and 4 of post-wound and p-Smad2/3 was also suppressed. All AO lesions showed accelerated mild wound closure at Day 6, but there were no significant difference. Several papers reported that Smad3 may mediate the signaling pathways that is inhibitory to wound healing, as the deletion of Smad3 leads to enhanced re-epithelialization and contraction of the wound area. This study showed that topical, bio-active ceramic ointment applications accelerated wound closure, re-epithelialization and the suppression of Smad proteins (p-Smad2/3, Smad3). The data revealed that the suppression of Smad3, which was induced by bio-active ceramic resources powder particles affected re-epithelialization and cutaneous wound closure. At the end of this paper, we concluded that bio-active ceramic resources affect cutaneous wound healing by accelerating the re-epithelialization of keratinocytes and that is mediated by the suppression of related protein, Smad3.     

The effect of quaternary structure on the state of the alpha and beta subunits within nitrosyl haemoglobin. Low temperature photodissociation and the ESR spectra.

Photodissociation of nitrosyl haemoglobin and nitrosyl hybrids, in which either the alpha or beta subunit is in the nitrosyl form has been stidued at liquid helium temperature (4.2 degrees K) by electron spin resonance and optical absorption spectroscopy. In the presence of inositol hexaphosphate, the photodissociated form of nitrosyl haemoglobin showed an anomalous absorption spectrum in the near infrared region. The experiments with nitrosyl hybrids showed that the alphaNO subunit within the T state haemoglobin is predominantly responsible for the anomalous photodissociated form and the ESR spectrum with three distinct hypefines. The ESR spectrum of alphaNO2betadeoxy2 with inositol hexaphosphate appeared to be very similar to that of the 5-coordinated NO-haem complexes but the absorption spectrum of its photodissociated form was similar to none of protoporphyrin Fe(II) derivatives so far reported. This result suggests that the anomalous photodissociated form may be attributable to some structural distortion of porphyrin or a new electronic state of the haem with different spin state from that of deoxyhaemoglobin.     

Biological activity of hemoprotein nitrosyl complexes

Chemical and biological functions of hemoprotein nitrosyl complexes as well as their photolysis products are discussed in this review. Chemical properties of nitric oxide are discussed, and major chemical reactions such as interaction with thiols, free radicals, and transition metals are considered. Specific attention is paid to the generation of hemoprotein nitrosyl complexes. The mechanisms of nitric oxide reactions with hemoglobin and cytochrome c and physicochemical properties of their nitrosyl complexes are discussed. A review of photochemical reactions of nitrosyl complexes with various ligands is given. Finally, we observe physiological effects of visible radiation on hemoprotein nitrosyl complexes: smooth muscle relaxation and reactivation of mitochondrial respiration.     

Effects of topical applications of epidermal growth factor on wound healing. Experimental study on rabbit ears

In wounds in rabbit ears, the application every 12 hours of an ointment containing epidermal growth factor appears to produce faster and better healing. The resulting epithelium is thicker and more cellular than in the untreated ear wounds, and more fibroblasts appeared sooner during the healing process. Less wound contracture occurred in the EFG-treated wounds, and wound maturation occurred earlier. The healed wounds that had been treated with EGF more closely resembled the surrounding normal tissue, producing less local deformity than in the controls. It is too early to know whether this will have clinical application, but other experiments are under way to further investigate the effects of EGF on wound healing.     

Electron spin resonance study of the role of NO . catalase in the activation of guanylate cyclase by NaN3 and NH2OH. Modulation of enzyme responses by heme proteins and their nitrosyl derivatives.

The role of NO . catalase in the activation of partially purified soluble guanylate cyclase of rat liver by NaN3 and NH2OH was examined by electron spin resonance (ESR) spectroscopy. Equilibration of bovine liver catalase with NO resulted in formation of a paramagnetic species exhibiting a three-line ESR spectrum similar to that of NO . catalase. This paramagnetic complex produced concentration-dependent stimulation of preparations of partially purified guanylate cyclase that were devoid of detectable endogenous heme content. The stimulation of partially purified guanylate cyclase by NO . catalase was similar to that obtained with NO . hemoglobin and with NO . cytochrome P-420 prepared by reaction of hepatic microsomes of phenobarbital-treated rats with NO. By contrast, these same enzyme preparations did not respond to NO or catalase alone. Addition of hematin or hemoglobin plus a reducing agent to purified guanylate cyclase restored enzyme responsiveness to NO and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), but not to NaN3 or NH2OH. Responses to the latter agents were restored by catalase and potentiated by a H2O2-generating system. Formation of the NO . catalase complex was evident by ESR spectroscopy in test solutions containing NaN3 or nh2oh, catalase, and a glucose-glucose oxidase, H2O2-generating system. The presence of NO . catalase correlated well with the ability of test solutions to activate purified guanylate cyclase. These results provide evidence for catalase-dependent NO generation from NaN3 and NH2OH under conditions leading to guanylate cyclase activation. Preformed NO . hemoglobin or NO . cytochrome P-420 also activated heme-deficient partially purified guanylate cyclase. The ability of several preformed NO . heme protein complexes, but not NO, to stimulate heme-deficient guanylate cyclase supports the concept that formation of the paramagnetic nitrosyl . heme complex, mediated by either enzymatic or nonenzymatic reactions, is a common and essential step in the process by which NO or NO-forming compounds activate guanylate cyclase. In the absence of the NO ligand, both hemoglobin and catalase suppress the stimulatory effects of the corresponding NO . heme proteins on guanylate cyclase. Release of each heme protein from the NO . heme protein complex occurs more rapidly under aerobic compared to anaerobic conditions. However, hemoglobin is approximately 2000 times more effective as an inhibitor of NO . hemoglobin stimulation of guanylate cyclase than is catalase as an inhibitor of NO . catalase action. This finding may explain the more pronounced decline in the rate of cGMP generation in air in the presence of NO . hemoglobin compared to NO . catalase. The results imply that guanylate cyclase responses to activators that can form NO are determined by both the stimulatory activity of the endogenous heme acceptors of NO and the relative inhibitory effects of the unliganded heme proteins present.     

Effect of hydration in metHb: Reversible changes monitored by ESR of iron

The dehydration of human and bovine methemoglobins was monitored using ESR spectroscopy of the iron signal. The interconversion of the Fe(III) signal between the high spin form (at g 6) in solution and low spin form (at g 2) was quantitatively studied as a function of hydration. The dehydration process leads also to a loss of paramagnetism resulting in the appearance of about 40% Fe(II) below 0.40 grH₂O/grHb. The remaining 60% of Fe(III) ESR signal is distributed as the residual high spin form (at g 6, 5%) and low spin form (hemichromes H and P, 55%). The formation of hemichrome P was explained as resulting from the coordination of the cysteine residue at β⁹³ with the iron atom which follows the rupture of the proximal histidine bond. Experiments with hemoglobins where the sulphur atom of cysteine β was blocked (N-ethylmaleimide) did not showed the hemichrome P, confirming the involvement of the sulphur atom. This implies that the dehydration process induces displacements and torsion of the F helix, drastically changing the iron coordination at proximal site. In agreement with this proposition the Fe(II) symmetry is pentacoordinated with the disrupted bond to the proximal histidine at fifth coordination. This is also supported by ESR experiments with nitrosyl complex at low hydrations. All conformational changes were reversibly modulated by hydration degree and partially by lyophilization rate. A one-cycle dehydration of bovine hemoglobin followed by solubilization shows 100% reversibility of hemichrome P. Increasing the number of cycles of dehydration-hydration reduces the reversibility degree. With three cycles a reversibility of 70%–75% is observed. The level of 0.40 grH₂O/grHb was the critical hydration for the molecules to return to aquo met form and correspond also to a minimal water content necessary to cover all protein surface as obtained from other techniques.     

The effect of finger millet feeding on the early responses during the process of wound healing in diabetic rats

In the present study, the role of finger millet feeding on skin antioxidant status, nerve growth factor (NGF) production and wound healing parameters in healing impaired early diabetic rats is reported. Hyperglycemic rats received food containing 50 g/100 g finger millet (FM). Non-diabetic controls and diabetic controls received balanced nutritive diet. Full-thickness excision skin wounds were made after 2 weeks prior feeding of finger millet diet. The rate of wound contraction, and the levels of collagen, hexosamine and uronic acid in the granulation tissue were determined. The skin antioxidant status and lipid peroxide concentration were also monitored during the study. In hyperglycemic rats fed with finger millet diet, the healing process was hastened with an increased rate of wound contraction. Skin levels of glutathione (GSH), ascorbic acid and alpha-tocopherol in alloxan-induced diabetic rat were lower as compared to non-diabetics. Altered activities of superoxide dismutase (SOD) and catalase (CAT) were also recorded in diabetics. Interestingly, thiobarbituric acid reactive substances (TBARS) were elevated in the wound tissues of all the groups, when compared to normal (unwounded) skin tissues. However, in diabetic rats the TBARS levels of both normal and wounded skin tissues were significantly elevated (P < 0.001) when compared with control (non-diabetic) and diabetics fed with FM. Impaired production of NGF, determined by ELISA, in diabetic rats was improved upon FM feeding and further confirmed by immunocytochemical observations reflects the increased expression of NGF in hyperglycemic rats supplemented with FM-enriched diet. Histological and electron microscopical evaluations revealed the epithelialization, increased synthesis of collagen, activation of fibroblasts and mast cells in FM-fed animals. Thus, increased levels of oxidative stress markers accompanied by decreased levels of antioxidants play a vital role in delaying wound healing in diabetic rats. However, FM feeding to the diabetic animals, for 4 weeks, controlled the glucose levels and improved the antioxidant status, which hastened the dermal wound healing process.     

Novel Clotrimazole and Vitis vinifera loaded chitosan nanoparticles: Antifungal and wound healing efficiencies

Chitosan integrated nanoparticles of clotrimazole and Egyptian Vitis vinifera juice extract was evaluated in order to maximize the antifungal activity and reduce the gross side effects. In the present study Egyptian Thompson Seedless Vitis vinifera and Clotrimazole (Cz) loaded chitosan nanoparticles (NCs/VJ/Cz) showed a promising antifungal effect with average inhibition zone diameters of 74 and 72 mm against Candida albicans and Aspergillus niger respectively. NCs/VJ /Cz was stable with significant drug entrapment efficiency reached 94.7%; PDI 0.24; zeta potential value + 31 and average size 35.4 nm diameter. Ex vivo and in vivo evaluation of skin retention, permeation and wound repair potentialities of NCs/VJ /Cz ointment was examined by experimental rats with wounded skin fungal infection. Data proved the ability of NCs/VJ /Cz to gradually release the drugs in a sustained manner with complete wound healing effect and tissue repair after 7 days administration. As a conclusion NCs/VJ /Cz ointment can be used as a novel anti-dermatophytic agent with high wound healing capacity.     

Effect of physico-chemical factors and species specificity on the structure of dinitrosyl iron complexes

Formation in mouse, rat and man's blood of iron nitrosyl complexes with pair thiol groups of proteins (complexes 2.03) was shown by ESR method. This formation was initiated by the introduction in blood in vitro or in vivo of low molecular dinitrosyl complexes of iron with phosphate, thiosulphate, cysteine or reduced gluthatione. Three forms of these complexes were found. They were characterized by ESR signals with rhombic or axial symmetry of g-factor tensor. These forms pass into one another under the effect of a number of thiol-containing compounds or at blood freezing. The life time of the complexes 2.03 in the blood in vivo is several hours.     

Diet-induced endogenous formation of nitroso compounds in the GI tract

Red or processed meat, but not white meat or fish, is associated with colorectal cancer. The endogenous formation of nitroso compounds is a possible explanation, as red or processed meat--but not white meat or fish--causes a dose-dependent increase in fecal apparent total N-nitroso compounds (ATNC) and the formation of nitroso-compound-specific DNA adducts. Red meat is particularly rich in heme and heme has also been found to promote the formation of ATNC. To investigate the underlying mechanism of ATNC formation, fecal and ileal samples of volunteers fed a high red meat or a vegetarian diet were analyzed for nitrosyl iron, nitrosothiols, and heme. To simulate the processes in the stomach, food homogenates and hemoglobin were incubated under simulated gastric conditions. Nitrosyl iron and nitrosothiols were significantly (p < 0.0001) increased in ileal and fecal samples after a high red meat diet compared with a vegetarian diet; significantly more nitrosyl iron than nitrosothiols was detectable in ileal (p < 0.0001) and fecal (p < 0.001) samples. The strong correlation between fecal nitrosyl iron and heme (0.776; p < 0.0001) suggested that nitrosyl heme is the main source of nitrosyl iron, and ESR confirmed the presence of nitrosyl heme in fecal samples after a high red meat diet. Under simulated gastric conditions, mainly nitrosothiols were formed, suggesting that acid-catalyzed thionitrosation is the initial step in the endogenous formation of nitroso compounds. Nitrosyl heme and other nitroso compounds can then form under the alkaline and reductive conditions of the small and large bowel.     

Binuclear schiff base complexes of nickel(II) or copper(II) linked by dithiols as a bridging group

Binuclear Schiff base complexes of nickel(II) or copper(II) were synthesized by bridging unsymmetrical Schiff base complexes of nickel(II) and copper(II) with 2,5-dimercapto-1,3,4-thiadiazole or 2-mercaptoethyl ether.Although the magnetic susceptibility and ESR measurements showed that copper(II)copper(II) interaction of the binuclear copper(II) complexes is very weak in the solid state, they catalyzed chemiluminescence of luminol by hydrogen peroxide in DMF solution, suggesting that small amounts of the complexes might be present in the form of the appropriate copper(II)copper(II) distance to activate hydrogen peroxide in solution.