Long-acting nanoparticulate DNase-1 for effective suppression of SARS-CoV-2-mediated neutrophil activities and cytokine storm.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a new strain of coronavirus not previously identified in humans. Globally, the number of confirmed cases and mortality rates of coronavirus disease 2019 (COVID-19) have risen dramatically. Currently, there are no FDA-approved antiviral drugs and there is an urgency to develop treatment strategies that can effectively suppress SARS-CoV-2-mediated cytokine storms, acute respiratory distress syndrome (ARDS), and sepsis. As symptoms progress in patients with SARS-CoV-2 sepsis, elevated amounts of cell-free DNA (cfDNA) are produced, which in turn induce multiple organ failure in these patients. Furthermore, plasma levels of DNase-1 are markedly reduced in SARS-CoV-2 sepsis patients. In this study, we generated recombinant DNase-1-coated polydopamine-poly(ethylene glycol) nanoparticulates (named long-acting DNase-1), and hypothesized that exogenous administration of long-acting DNase-1 may suppress SARS-CoV-2-mediated neutrophil activities and the cytokine storm. Our findings suggest that exogenously administered long-acting nanoparticulate DNase-1 can effectively reduce cfDNA levels and neutrophil activities and may be used as a potential therapeutic intervention for life-threatening SARS-CoV-2-mediated illnesses.

Comparative analysis of the effects of honey, copaiba oil-resin and a commercial product (fibrinolysin, deoxyribonuclease and chloramphenicol) on second intention healing, in rats. / Análise comparativa dos efeitos do mel, do óleo-serina de copaíba e de um produto comercial (fibrinolisina, desoxirribonuclease e cloranfenicol) na cicatrização por segunda intenção, em ratos.

OBJECTIVE: to compare the healing by second intention under the effects of topical application of honey, copaíba oil-resin and a commercial product (fibrinolysin, deoxyribonuclease and chloramphenicol) with a control group in rats. METHODS: we carried out a skin resection, 1cm in diameter, on the back of 40 rats allocated to four groups of ten animals. All wounds were cleaned daily with 2ml of 0.9% NaCl solution. The first group (control - GC) was restricted to such procedure. In the wounds of the second (GM), third (GO) and fourth groups (GF), after cleaning, we respectively applied 1ml of honey, 1ml of copaíba oil-resin and 1ml of cream containing fibrinolysin, deoxyribonuclease and chloramphenicol. The wounds were occluded with sterile gauze. Immediately after the incision and on days three, seven and 14 of the experiment, the wounds were copied and contraction was analyzed using planimetry. After euthanasia, we histologically evaluated the inflammatory reaction and collagen in the scars. RESULTS: the reduction of the wound area of GM (p=0.003), GO (p=0.011) and GF (p=0.002) were higher than the GC. The amount of type-I collagen present in GM and GO was higher than in GC and GF groups (p<0.05). There was a predominance of chronic inflammatory stage in GM (p=0.004), GO (p<0.001) and GF (p=0.003) when compared with GC. CONCLUSION: the topical use of honey and copaíba oil-resin increases wound contraction, the presence of type-I collagen and accelerates healing.

OBJETIVO: comparar a cicatrização, por segunda intenção, sob os efeitos da aplicação tópica de mel, óleo-resina de copaíba e um produto comercial (fibrinolisina, desoxirribonuclease e cloranfenicol) a um grupo controle, em ratos. MÉTODOS: ressecção de pele, com 1cm de diâmetro, foi realizada no dorso de 40 ratos alocados em quatro grupos de dez animais. Todas as feridas foram limpas, diariamente, com 2ml de solução de NaCl 0,9%. O primeiro grupo (controle - GC) ficou restrito a tal procedimento. Nas feridas do segundo (GM), terceiro (GO) e quarto grupos (GF), após limpeza, aplicou-se, respectivamente, 1ml de mel, 1ml de óleo-resina de copaíba e 1ml de creme contendo fibrinolisina, desoxirribonuclease e cloranfenicol. Ocluíram-se as feridas com gaze estéril. Imediatamente após a incisão e nos dias três, sete e 14 do experimento, as feridas foram copiadas e, usando planimetria, analisou-se a contração. Após a eutanásia, a histologia foi utilizada para avaliação da reação inflamatória e do colágeno nas cicatrizes. RESULTADOS: a redução da área da ferida do GM (p=0,003), GO (p=0,011) e GF (p=0,002) foram superiores ao do GC. A quantidade de colágeno tipo I presente no GM e no GO foi superior aos grupos GC e GF (p<0,05). Houve predominância do estágio inflamatório crônico no GM (p=0,004), GO (p<0,001) e GF (p=0,003) quando comparados ao GC. CONCLUSÃO: o uso tópico do mel e do óleo-resina de copaíba aumenta a contração da ferida, a presença de colágeno tipo I e acelera a cicatrização.

Análise comparativa dos efeitos do mel, do óleo-serina de copaíba e de um produto comercial (fibrinolisina, desoxirribonuclease e cloranfenicol) na cicatrização por segunda intenção, em ratos / Comparative analysis of the effects of honey, copaiba oil-resin and a commercial product (fibrinolysin, deoxyribonuclease and chloramphenicol) on second intention healing, in rats

RESUMO Objetivo: comparar a cicatrização, por segunda intenção, sob os efeitos da aplicação tópica de mel, óleo-resina de copaíba e um produto comercial (fibrinolisina, desoxirribonuclease e cloranfenicol) a um grupo controle, em ratos. Métodos: ressecção de pele, com 1cm de diâmetro, foi realizada no dorso de 40 ratos alocados em quatro grupos de dez animais. Todas as feridas foram limpas, diariamente, com 2ml de solução de NaCl 0,9%. O primeiro grupo (controle - GC) ficou restrito a tal procedimento. Nas feridas do segundo (GM), terceiro (GO) e quarto grupos (GF), após limpeza, aplicou-se, respectivamente, 1ml de mel, 1ml de óleo-resina de copaíba e 1ml de creme contendo fibrinolisina, desoxirribonuclease e cloranfenicol. Ocluíram-se as feridas com gaze estéril. Imediatamente após a incisão e nos dias três, sete e 14 do experimento, as feridas foram copiadas e, usando planimetria, analisou-se a contração. Após a eutanásia, a histologia foi utilizada para avaliação da reação inflamatória e do colágeno nas cicatrizes. Resultados: a redução da área da ferida do GM (p=0,003), GO (p=0,011) e GF (p=0,002) foram superiores ao do GC. A quantidade de colágeno tipo I presente no GM e no GO foi superior aos grupos GC e GF (p<0,05). Houve predominância do estágio inflamatório crônico no GM (p=0,004), GO (p<0,001) e GF (p=0,003) quando comparados ao GC. Conclusão: o uso tópico do mel e do óleo-resina de copaíba aumenta a contração da ferida, a presença de colágeno tipo I e acelera a cicatrização.

ABSTRACT Objective: to compare the healing by second intention under the effects of topical application of honey, copaíba oil-resin and a commercial product (fibrinolysin, deoxyribonuclease and chloramphenicol) with a control group in rats. Methods: we carried out a skin resection, 1cm in diameter, on the back of 40 rats allocated to four groups of ten animals. All wounds were cleaned daily with 2ml of 0.9% NaCl solution. The first group (control - GC) was restricted to such procedure. In the wounds of the second (GM), third (GO) and fourth groups (GF), after cleaning, we respectively applied 1ml of honey, 1ml of copaíba oil-resin and 1ml of cream containing fibrinolysin, deoxyribonuclease and chloramphenicol. The wounds were occluded with sterile gauze. Immediately after the incision and on days three, seven and 14 of the experiment, the wounds were copied and contraction was analyzed using planimetry. After euthanasia, we histologically evaluated the inflammatory reaction and collagen in the scars. Results: the reduction of the wound area of GM (p=0.003), GO (p=0.011) and GF (p=0.002) were higher than the GC. The amount of type-I collagen present in GM and GO was higher than in GC and GF groups (p<0.05). There was a predominance of chronic inflammatory stage in GM (p=0.004), GO (p<0.001) and GF (p=0.003) when compared with GC. Conclusion: the topical use of honey and copaíba oil-resin increases wound contraction, the presence of type-I collagen and accelerates healing.

Dry powders for the inhalation of ciprofloxacin or levofloxacin combined with a mucolytic agent for cystic fibrosis patients.

OBJECTIVE: This study aimed to design and characterize an inhalable dry powder of ciprofloxacin or levofloxacin combined with the mucolytics acetylcysteine and dornase alfa for the management of pulmonary infections in patients with cystic fibrosis. METHODS: Ball milling, homogenization in isopropyl alcohol and spray drying processes were used to prepare dry powders for inhalation. Physico-chemical characteristics of the dry powders were assessed via thermogravimetric analysis, differential scanning calorimetry (DSC), Fourier transform infrared spectroscopy (FT-IR), X-ray diffractometry and scanning electron microscopy. The particle size distribution, dissolution rate and permeability across Calu-3 cell monolayers were analyzed. The aerodynamic parameters of dry powders were determined using the Andersen cascade impactor (ACI). RESULTS: After the micronization process, the particle sizes of the raw materials significantly decreased. X-ray and DSC results indicated that although ciprofloxacin showed no changes in its crystal structure, the structure of levofloxacin became amorphous after the micronization process. FT-IR spectra exhibited the characteristic peaks for ciprofloxacin and levofloxacin in all formulations. The dissolution rates of micro-homogenized and spray-dried ciprofloxacin were higher than that of untreated ciprofloxacin. ACI results showed that all formulations had a mass median aerodynamic diameter less than 5 µm; however, levofloxacin microparticles showed higher respirability than ciprofloxacin powders did. The permeability of levofloxacin was higher than those of the ciprofloxacin formulations. CONCLUSION: Together, our study showed that these methods could suitably characterize antibiotic and mucolytic-containing dry powder inhalers.

Inhaled mannitol and cystic fibrosis. Unnecessary bronchial irritation.

Cystic fibrosis is a life-threatening genetic disease mainly characterised by accumulation of viscous secretions in the airways. In the absence of a better alternative, inhaled dornase alfa is used to liquefy bronchial secretions and thereby facilitate their drainage. Mannitol, in the form of capsules of powder for inhalation, is authorised in the European Union for use as a mucolytic in adults with cystic fibrosis. Two double-blind randomised trials have compared two doses of inhaled mannitol (400 mg or 50 mg, twice a day) in a total of 642 patients (57% adults) with cystic fibrosis. After 26 weeks of treatment, there was no difference between the groups in terms of clinical criteria such as the frequency of pulmonary exacerbations, quality of life, hospitalisation, or rescue antibiotic use. Inhaled mannitol increases the risk of bronchospasm and can also cause coughing and haemoptysis. A pretreatment test, used to exclude patients with bronchial hyperresponsiveness to mannitol, can also have noteworthy adverse effects. Treatment is inconvenient, requiring inhalation of the contents of 10 mannitol capsules morning and evening; the capsules have to be placed one by one in the inhalation device, and the device must be replaced every week. In practice, patients with cystic fibrosis would be well advised to avoid inhaled mannitol.

Tear fluid extracellular DNA: diagnostic and therapeutic implications in dry eye disease.

PURPOSE: To determine the abundance of extracellular DNA (eDNA) in tear fluid of patients with dry eye disease (DED) and to report clinical outcomes after DNase I eyedrops use to reduce excessive tear fluid eDNA. METHODS: Tear fluid was collected from healthy control subjects and patients with DED. The eDNA abundance was determined with the PicoGreen dye assay. The DED symptoms and clinical signs were recorded and correlated with eDNA abundance. Two patients with DED having excessive eDNA in tear fluid were treated with DNase I eyedrops. RESULTS: The PicoGreen dye assay measures tear fluid eDNA abundance after a 2-minute incubation time. With longer incubations, admixed cells also contribute to eDNA measurements. The mean (SE) eDNA abundance in healthy control subjects' tear fluid was 1.4 (0.2) µg/mL. The mean (SE) eDNA abundance in tear fluid of patients with nonautoimmune DED, autoimmune DED, and graft versus host disease was significantly higher: the values were 2.9 (0.6), 5.2 (1.2), and 9.1 (2.3) µg/mL, respectively (P < 0.05). In most of these patients, the PicoGreen dye kinetic assay of tear fluid showed an increase in fluorescence signal due to the presence of viable cells in tear fluid. Tear fluid eDNA had the best correlation with corneal Rose Bengal staining (r = 0.55). Treatment of patients having DED with DNase I eyedrops reduced eDNA abundance, abrogated signal increase, and improved comfort. CONCLUSIONS: Excessive eDNA is present in tear fluid of patients with dry eyes. A novel therapeutic approach for managing DED may be to measure eDNA abundance in tear fluid with the PicoGreen dye assay and reduce excessive amounts with DNase I eyedrops.

Inhalable antibiotic delivery using a dry powder co-delivering recombinant deoxyribonuclease and ciprofloxacin for treatment of cystic fibrosis.

PURPOSE: To achieve efficient antibiotic delivery to the cystic fibrosis (CF) airway using a single inhalable powder co-encapsulating a mucolytic and an antibiotic. METHODS: Inhalable dry powders containing deoxyribonuclease and/or ciprofloxacin (DNase, Cipro, and DNase/Cipro powders) were produced by spray-drying with dipalmitylphosphatidylcholine, albumin, and lactose as excipients, and their antibacterial effects were evaluated using the artificial sputum model. RESULTS: All powders showed mass median aerodynamic diameters below 5 microm. Both drugs were loaded in the dry powders without loss in quantity and activity. Dry powders containing DNase significantly decreased the storage modulus of the artificial sputum medium in less than 30 min. When applied to artificial sputum laden with Pseudomonas aeruginosa, Cipro/DNase powder showed better antibacterial activity than Cipro powder. The higher activity of the Cipro/DNase powder is attributable to the mucolytic activity of DNase, which promotes penetration of the dry powder into the artificial sputum and efficient dissolution and diffusion of ciprofloxacin. CONCLUSIONS: Inhalational delivery of antibiotics to the CF airway can be optimized when the sputum barrier is concomitantly addressed. Co-delivery of antibiotics and DNase using an inhalable particle system may be a promising strategy for local antipseudomonal therapy in the CF airway.

Physicochemical compatibility of mixtures of dornase alfa and tobramycin containing nebulizer solutions.

Patients suffering from cystic fibrosis (CF) often need to inhale multiple doses of different nebulizable drugs per day. Patients attempt to shorten the time consuming administration procedure by mixing drug solutions/suspensions for simultaneous inhalation. The objective of this experimental study was to determine whether mixtures of the nebulizer solution dornase alfa (Pulmozyme) with tobramycin nebulizer solutions (TOBI and GERNEBCIN 80 mg) are physico-chemically compatible. Drug combinations were prepared by mixing the content of one respule Pulmozyme with either one respule TOBI or one ampoule GERNEBCIN 80 mg. Test solutions were stored at room temperature and exposed to light. Dornase alfa activity and tobramycin concentrations were determined by using a kinetic colorimetric DNase activity assay and a fluorescence immunoassay, respectively. Physical compatibility was determined by visual inspection and measurements of pH and osmolality. Tobramycin concentration was not affected by mixing the drug products. In spite of the high variability of the dornase alfa potency assay, it is obvious that activity is especially affected by sodium metabisulfite, used as excipient in GERNEBCIN. Patients should be advised, not to mix Pulmozyme with GERNEBCIN because of the incompatibility reaction. Further analytical studies are needed in order to determine the integrity and activity of dornase alfa in mixtures of Pulmozyme with TOBI. Finally clinical studies are necessary in order to demonstrate equivalent efficacy and safety of simultaneous inhalation in comparison to consecutive inhalation of both drugs.

Physicochemical compatibility of nebulizable drug mixtures containing dornase alfa and ipratropium and/or albuterol.

Patients suffering from cystic fibrosis (CF) often need to inhale multiple doses of different nebulizable drugs per day. Patients attempt to shorten the time consuming administration procedure by mixing drug solutions/suspensions for simultaneous inhalation. The objective of this experimental study was to determine whether mixtures of Pulmozyme inhalation solution with Atrovent or Sultano are physicochemically compatible. Drug combinations were prepared in accordance with the product information and clinical practice by mixing the content of one respule Pulmozyme with 2 mL Atrovent LS and 0.5 mL Sultanol Inhalationslösung (inhalation solution) or with one respule of either Atrovent 500 microg/2 mL Fertiginhalat (unit dose formulation) or Sultanol forte Fertiginhalat. Test solutions were stored at room temperature and exposed to light. Dornase alfa activity was determined by a kinetic colorimetric DNase activity assay. Ipratropium bromide and albuterol concentrations were investigated by a stability-indicating HPLC assay with ultraviolet detection. Physical compatibility was determined by visual inspection and measurements of pH and osmolality. Ipratropium bromide and albuterol concentrations were not affected by mixing the drug products. Dornase alfa activity is affected by benzalkonium chloride, used as excipient in Atrovent"LS and Sultanol'Inhalationsl6öung, and disodium edetate used as an excipient in AtroventfLS. Patients should be advised not to mix Pulmozymelwith Atrovent1LS and/or Sultanol"Inhalationsldöung, because of the incompatibility reaction. Mixtures of Pulmozyme with Atrovent 500 microg/2 mL Fertiginhalat or Sultanol forte Fertiginhalat can be designated as compatible for a limited period of time.

Role of magnesium in the failure of rhDNase therapy in patients with cystic fibrosis.

BACKGROUND: In the management of cystic fibrosis (CF), rhDNase-I inhalation is widely used to facilitate the removal of the highly viscous and elastic mucus (often called sputum) from the lungs. However, an important group of CF patients does not benefit from rhDNase-I treatment. A study was undertaken to elucidate the reason for the failure of rhDNase-I in these patients and to evaluate strategies to overcome this. METHODS: The biochemical properties, physical properties, and degradation by rhDNase-I of sputum obtained from clinical responders and non-responders to rhDNase-I were compared, and the ability of magnesium to reactivate rhDNase-I in DNA solutions and in sputum was investigated. The effect of oral magnesium supplements on magnesium levels in the sputum of patients with CF was also examined. RESULTS: Sputum from clinical responders was extensively degraded in vitro on incubation with rhDNase-I, while sputum from clinical non-responders was not degraded: the median decrease in sputum elasticity in the two groups was 32% and 5%, respectively. Sputum from clinical responders contained significantly higher concentrations of magnesium than sputum from non-responders (2.0 mM v 1.3 mM; p = 0.020). Sputum that could not be degraded by rhDNase-I became degradable after preincubation with magnesium. The effect of magnesium on rhDNase-I activity was mediated through actin. Oral intake of magnesium enhanced the magnesium concentration in the sputum of CF patients. CONCLUSION: Increasing the magnesium concentration in sputum by, for example, oral magnesium supplements may be a promising new strategy to overcome the failure of rhDNase-I in patients with CF.

Inhalation solutions: which one are allowed to be mixed? Physico-chemical compatibility of drug solutions in nebulizers.

Therapy of chronic respiratory diseases often involves inhalation therapy with nebulizers. Patients often attempt to shorten the time consuming administration procedure by mixing drug solutions/suspensions for simultaneous inhalation. This article considers the issue of physico-chemical compatibility of admixtures of drug solutions/suspensions in nebulizers. A search of databases, prescribing information and primary literature was conducted to locate literature concerning the physico-chemical compatibility of inhalation solutions/suspensions. This was supplemented by telephone interviews. Admixtures of albuterol with ipratropium and/or cromolyn, of albuterol and budesonide, or tobramycin, or colistin are physico-chemically compatible. Physico-chemical compatibility has been demonstrated for admixtures of cromolyn with albuterol and/or ipratropium and for admixtures of cromolyn and budesonide. Admixtures of budesonide with ipratropium and/or fenoterol, and admixtures of budesonide and albuterol, or cromolyn are physico-chemically compatible. Both cromolyn and colistin are incompatible with benzalkonium chloride. Admixtures should be prepared from inhalation solutions/suspensions formulated without preservatives. Besides studies of the physico-chemical compatibility, the aerodynamic behaviour of physico-chemical mixtures needs to be studied before a final recommendation of simultaneous nebulization of compatible admixtures can be made.