Your search keyword '"Cromolyn Sodium pharmacology"' showing total 1,229 results

1. Cromolyn sodium and masitinib combination inhibits fibroblast-myofibroblast transition and exerts additive cell-protective and antioxidant effects on a bleomycin-induced in vitro fibrosis model.

Author

Göksu AY, Dirol H, and Kocanci FG

Subjects

Animals, Cell Survival drug effects, Hydrogen Peroxide pharmacology, Drug Synergism, Humans, Idiopathic Pulmonary Fibrosis drug therapy, Idiopathic Pulmonary Fibrosis pathology, Cells, Cultured, Mice, Pulmonary Fibrosis chemically induced, Pulmonary Fibrosis drug therapy, Pulmonary Fibrosis pathology, Bleomycin, Antioxidants pharmacology, Fibroblasts drug effects, Fibroblasts metabolism, Oxidative Stress drug effects, Benzamides pharmacology, Pyridines pharmacology, Apoptosis drug effects, Myofibroblasts drug effects, Myofibroblasts metabolism, Piperidines pharmacology, Cromolyn Sodium pharmacology, Thiazoles pharmacology

Abstract

Idiopathic pulmonary fibrosis (IPF) is a progressive and fatal fibrotic lung disease. While recent studies have suggested the potential efficacy of tyrosine kinase inhibitors in managing IPF, masitinib, a clinically used tyrosine kinase inhibitor, has not yet been investigated for its efficacy in fibrotic lung diseases. In a previous study on an in vitro neurodegenerative model, we demonstrated the synergistic antitoxic and antioxidant effects of masitinib combined with cromolyn sodium, an FDA-approved mast cell stabilizer. This study aims to investigate the anti-fibrotic and antioxidant effects of the masitinib-cromolyn sodium combination in an in vitro model of pulmonary fibrosis. Fibroblast cell cultures treated with bleomycin and/or hydrogen peroxide (H 2 O 2 ) were subjected to masitinib and/or cromolyn sodium, followed by assessments of cell viability, morphological and apoptotic nuclear changes, triple-immunofluorescence labeling, and total oxidant/antioxidant capacities, besides ratio of Bax and Bcl-2 mRNA expressions as an indication of apoptosis. The combined treatment of masitinib and cromolyn sodium effectively prevented the fibroblast myofibroblast transition, a hallmark of fibrosis, and significantly reduced bleomycin / H 2 O 2 -induced apoptosis and oxidative stress. This study is the first to demonstrate the additive anti-fibrotic, cell-protective, and antioxidant effects of the masitinib-cromolyn sodium combination in an in vitro fibrosis model, suggesting its potential as an innovative therapeutic approach for pulmonary fibrosis. Combination therapy may be more advantageous in that both drugs could be administered in lower doses, exerting less side effects, and at the same time providing diverse mechanisms of action simultaneously., (© 2024 The Author(s). Pharmacology Research & Perspectives published by British Pharmacological Society and American Society for Pharmacology and Experimental Therapeutics and John Wiley & Sons Ltd.)

Published

2024

2. Disodium Cromoglycate Templates Anisotropic Short-Chain PEG Hydrogels.

Author

Chen J and Luo Y

Subjects

Humans, Anisotropy, Tissue Engineering, Polyethylene Glycols chemistry, Hydrogels chemistry, Hydrogels chemical synthesis, Fibroblasts cytology, Fibroblasts drug effects, Cromolyn Sodium chemistry, Cromolyn Sodium pharmacology

Abstract

Anisotropic hydrogels have found widespread applications in biomedical engineering, particularly as scaffolds for tissue engineering. However, it remains a challenge to produce them using conventional fabrication methods, without specialized synthesis or equipment, such as 3D printing and unidirectional stretching. In this study, we explore the self-assembly behaviors of polyethylene glycol diacrylate (PEGDA), using disodium cromoglycate (DSCG), a lyotropic chromonic liquid crystal, as a removable template. The affinity between short-chain PEGDA (Mn = 250) and DSCG allows polymerization to take place at the DSCG surface, thereby forming anisotropic hydrogel networks with fibrin-like morphologies. This process requires considerable finesse as the phase behaviors of DSCG depend on a multitude of factors, including the weight percentage of PEGDA and DSCG, the chain length of PEGDA, and the concentration of ionic species. The key to modulating the microstructures of the all-PEG hydrogel networks is through precise control of the DSCG concentration, resulting in anisotropic mechanical properties. Using these anisotropic hydrogel networks, we demonstrate that human dermal fibroblasts are particularly sensitive to the alignment order. We find that cells exhibit a density-dependent activation pattern of a Yes-associated protein, a mechanotransducer, corroborating its role in enabling cells to translate external mechanical and morphological patterns to specific behaviors. The flexibility of modulating microstructure, along with PEG hydrogels' biocompatibility and biodegradability, underscores their potential use for tissue engineering to create functional structures with physiological morphologies.

Published

2024

3. A Quantity-Dependent Nonlinear Model of Sodium Cromoglycate Suppression on Beta-Conglycinin Transport.

Author

Zheng Z, Han J, Chen X, and Zheng S

Subjects

Animals, Endocytosis drug effects, beta-Cyclodextrins pharmacology, beta-Cyclodextrins chemistry, Cell Line, Biological Transport drug effects, Glycine max metabolism, Glycine max chemistry, Intestinal Mucosa metabolism, Intestinal Mucosa drug effects, Swine, Globulins metabolism, Globulins pharmacology, Globulins chemistry, Seed Storage Proteins metabolism, Seed Storage Proteins pharmacology, Seed Storage Proteins chemistry, Antigens, Plant metabolism, Soybean Proteins metabolism, Soybean Proteins chemistry, Cromolyn Sodium pharmacology, Chlorpromazine pharmacology

Abstract

Understanding the transport mechanism is crucial for developing inhibitors that block allergen absorption and transport and prevent allergic reactions. However, the process of how beta-conglycinin, the primary allergen in soybeans, crosses the intestinal mucosal barrier remains unclear. The present study indicated that the transport of beta-conglycinin hydrolysates by IPEC-J2 monolayers occurred in a time- and quantity-dependent manner. The beta-conglycinin hydrolysates were absorbed into the cytoplasm of IPEC-J2 monolayers, while none were detected in the intercellular spaces. Furthermore, inhibitors such as methyl-beta-cyclodextrin (MβCD) and chlorpromazine (CPZ) significantly suppressed the absorption and transport of beta-conglycinin hydrolysates. Of particular interest, sodium cromoglycate (SCG) exhibited a quantity-dependent nonlinear suppression model on the absorption and transport of beta-conglycinin hydrolysates. In conclusion, beta-conglycinin crossed the IPEC-J2 monolayers through a transcellular pathway, involving both clathrin-mediated and caveolae-dependent endocytosis mechanisms. SCG suppressed the absorption and transport of beta-conglycinin hydrolysates by the IPEC-J2 monolayers by a quantity-dependent nonlinear model via clathrin-mediated and caveolae-dependent endocytosis. These findings provide promising targets for both the prevention and treatment of soybean allergies.

Published

2024

4. Recruitment or activation of mast cells in the liver aggravates the accumulation of fibrosis in carbon tetrachloride-induced liver injury.

Author

Zhang M, Yang J, Yuan Y, Zhou Y, Wang Y, Cui R, Maliu Y, Xu F, and Wu X

Subjects

Animals, Rats, Male, Transforming Growth Factor beta1 metabolism, Rats, Sprague-Dawley, Ketotifen pharmacology, Chemical and Drug Induced Liver Injury metabolism, Chemical and Drug Induced Liver Injury pathology, Chemical and Drug Induced Liver Injury immunology, Oxidative Stress drug effects, NF-E2-Related Factor 2 metabolism, Signal Transduction drug effects, Smad2 Protein metabolism, Smad3 Protein metabolism, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Vascular Endothelial Growth Factor A metabolism, Mast Cells metabolism, Mast Cells immunology, Mast Cells drug effects, Carbon Tetrachloride toxicity, Liver Cirrhosis metabolism, Liver Cirrhosis pathology, Liver Cirrhosis immunology, Liver Cirrhosis chemically induced, Cromolyn Sodium pharmacology, Liver pathology, Liver metabolism, Liver drug effects

Abstract

Liver diseases caused by viral infections, alcoholism, drugs, or chemical poisons are a significant health problem: Liver diseases are a leading contributor to mortality, with approximately 2 million deaths per year worldwide. Liver fibrosis, as a common liver disease characterized by excessive collagen deposition, is associated with high morbidity and mortality, and there is no effective treatment. Numerous studies have shown that the accumulation of mast cells (MCs) in the liver is closely associated with liver injury caused by a variety of factors. This study investigated the relationship between MCs and carbon tetrachloride (CCl4)-induced liver fibrosis in rats and the effects of the MC stabilizers sodium cromoglycate (SGC) and ketotifen (KET) on CCl4-induced liver fibrosis. The results showed that MCs were recruited or activated during CCl4-induced liver fibrosis. Coadministration of SCG or KET alleviated the liver fibrosis by decreasing SCF/c-kit expression, inhibiting the TGF-β1/Smad2/3 pathway, depressing the HIF-1a/VEGF pathway, activating Nrf2/HO-1 pathway, and increasing the hepatic levels of GSH, GSH-Px, and GR, thereby reducing hepatic oxidative stress. Collectively, recruitment or activation of MCs is linked to liver fibrosis and the stabilization of MCs may provide a new approach to the prevention of liver fibrosis., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

5. Promising anticancer activity of cromolyn in colon cancer: in vitro and in vivo analysis.

Author

Aliabadi A, Haghshenas MR, Kiani R, Panjehshahin MR, and Erfani N

Subjects

Animals, Humans, Mice, Doxorubicin pharmacology, Mice, Inbred BALB C, HT29 Cells, Antineoplastic Agents pharmacology, Xenograft Model Antitumor Assays, Cell Line, Tumor, Colonic Neoplasms drug therapy, Colonic Neoplasms pathology, Apoptosis drug effects, Cell Proliferation drug effects, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use

Abstract

Purpose: Colon cancer is a prevalent cancer globally, representing approximately 10% of all cancer cases and accounting for 10% of all cancer-related deaths. Therefore, finding new therapeutic methods with high efficiency will be very valuable. Cromolyn (C), a common anti-allergic and mast cell membrane stabilizing drug, has recently shown valuable anti-cancer effects in several studies. This study was designed to investigate the anti-cancer activity of cromolyn on colon cancer in vitro and in vivo and to determine values such as selectivity index and survival effect., Methods: HT-29 (colon cancer) and MCF-10 (normal epithelial) cell lines were treated with C and Doxorubicin (DOX; Positive control). IC50 values and the effects of C and DOX on apoptosis were explored using methyl thiazole diphenyl-tetrazolium bromide (MTT) assay and Annexin V/PI Apoptosis Assay Kit. To investigate in an animal study, colon cancer was subcutaneously induced by CT26 cells (mouse colon cancer) in bulb/c mice. Mice were treated with 0.05 LD50 intraperitoneal every other day for 35 days. After the death of mice, tumor volume, tumor weight, and survival rate were evaluated., Results: C selectively and significantly suppressed the proliferation of cancer cells in a dose-dependent manner. The IC50 values for the MCF-10 and HT29 cell lines were 7.33 ± 0.78 μM and 2.33 ± 0.6 μM, respectively. Notably, the selective index (SI) highlighted that C displayed greater selectivity in inhibiting cancer cell growth compared to DOX, with SI values of 3.15 and 2.60, respectively. C exhibited higher effectiveness and selectivity in inducing apoptosis in cancer cells compared to DOX, with a significant p-value (61% vs. 52%, P-value ≤ 0.0001). Also, in mice bearing colon cancer, C reduced the tumor volume (6317 ± 1685mm 3 ) and tumor weight (9.8 ± 1.6 g) compared to the negative control group (weight 12.45 ± 0.9 g; volume 7346 ± 1077) but these values were not statistically significant (P ≤ 0.05)., Conclusion: Our study showed that cromolyn is a selective and strong drug in inhibiting the proliferation of colon cancer cells. Based on our results, the efficacy of C in vitro analysis (MTT assays and apoptosis), as well as animal studies is competitive with the FDA-approved drug doxorubicin. C is very promising as a low-complication and good-efficacy drug for cancer drug repositioning. This requires clinical research study designs to comprehensively evaluate its anti-cancer effects., (© 2024. The Author(s).)

Published

2024

6. Suppression of Mast Cell Activation by GPR35: GPR35 Is a Primary Target of Disodium Cromoglycate.

Author

Oka M, Akaki S, Ohno O, Terasaki M, Hamaoka-Tamura Y, Saito M, Kato S, Inoue A, Aoki J, Matsuno K, Furuta K, and Tanaka S

Subjects

Rats, Mice, Animals, Mast Cells, Receptors, G-Protein-Coupled metabolism, Immunoglobulin E metabolism, Immunoglobulin E pharmacology, Cell Degranulation, Cromolyn Sodium pharmacology, Mast Cell Stabilizers pharmacology

Abstract

Mast cell stabilizers, including disodium cromoglycate (DSCG), were found to have potential as the agonists of an orphan G protein-coupled receptor, GPR35, although it remains to be determined whether GPR35 is expressed in mast cells and involved in suppression of mast cell degranulation. Our purpose in this study is to verify the expression of GPR35 in mast cells and to clarify how GPR35 modulates the degranulation. We explored the roles of GPR35 using an expression system, a mast cell line constitutively expressing rat GPR35, peritoneal mast cells, and bone marrow-derived cultured mast cells. Immediate allergic responses were assessed using the IgE-mediated passive cutaneous anaphylaxis (PCA) model. Various known GPR35 agonists, including DSCG and newly designed compounds, suppressed IgE-mediated degranulation. GPR35 was expressed in mature mast cells but not in immature bone marrow-derived cultured mast cells and the rat mast cell line. Degranulation induced by antigens was significantly downmodulated in the mast cell line stably expressing GPR35. A GPR35 agonist, zaprinast, induced a transient activation of RhoA and a transient decrease in the amount of filamentous actin. GPR35 agonists suppressed the PCA responses in the wild-type mice but not in the GPR35 -/- mice. These findings suggest that GPR35 should prevent mast cells from undergoing degranulation induced by IgE-mediated antigen stimulation and be the primary target of mast cell stabilizers. SIGNIFICANCE STATEMENT: The agonists of an orphan G protein-coupled receptor, GPR35, including disodium cromoglycate, were found to suppress degranulation of rat and mouse mature mast cells, and their antiallergic effects were abrogated in the GPR35 -/- mice, indicating that the primary target of mast cell stabilizers should be GPR35., (Copyright © 2024 by The Author(s).)

Published

2024

7. Combined effect of trifluoperazine and sodium cromoglycate on reducing acute edema and limiting lasting functional impairments after spinal cord injury in rats.

Author

Seblani M, Ertlen C, Coyle T, Decherchi P, and Brezun JM

Subjects

Rats, Animals, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use, Cromolyn Sodium metabolism, Trifluoperazine pharmacology, Trifluoperazine therapeutic use, Trifluoperazine metabolism, Edema drug therapy, Edema etiology, Spinal Cord metabolism, Spinal Cord Injuries complications, Spinal Cord Injuries drug therapy, Spinal Cord Injuries metabolism

Abstract

Edema formation is one of the very first events to occur after spinal cord injury (SCI) leading to an increase of the intrathecal pressure and consequently to serious spinal tissue and functional impairments. Current edema treatments are still symptomatic and/or non-specific. Since edema formation mechanisms are mainly described as vasogenic and cytotoxic, it becomes crucial to understand the interplay between these two subtypes. Acting on key targets to inhibit edema formation may reduce secondary damage and related functional impairments. In this study, we characterize the edema kinetic after T9-10 spinal contusion. We use trifluoperazine (TFP) to block the expression and the functional subcellular localization of aquaporin-4 supposed to be implicated in the cytotoxic edema formation. We also use sodium cromoglycate (SCG) to deactivate mast cell degranulation known to be implicated in the vasogenic edema formation. Our results show a significant reduction of edema after TFP treatment and after TFP-SCG combined treatment compared to control. This reduction is correlated with limited onset of initial sensorimotor impairments particularly after combined treatment. Our results highlight the importance of potential synergetic targets in early edema therapy after SCI as part of tissue sparing strategies., Competing Interests: Declaration of Competing Interest The authors declare that they have no conflict of interest., (Copyright © 2023. Published by Elsevier Inc.)

Published

2024

8. Luteolin Is More Potent than Cromolyn in Their Ability to Inhibit Mediator Release from Cultured Human Mast Cells.

Author

Tsilioni I and Theoharides T

Subjects

Humans, Cytokines metabolism, Tryptases metabolism, Cell Line, Vascular Endothelial Growth Factor A metabolism, Antibodies, Anti-Idiotypic pharmacology, Anti-Allergic Agents pharmacology, Luteolin pharmacology, Mast Cells drug effects, Mast Cells immunology, Mast Cells metabolism, Cromolyn Sodium pharmacology, Histamine Release drug effects, Immunoglobulin E immunology

Abstract

Introduction: Mast cells are known for their involvement in allergic reactions but also in inflammatory reactions via secretion of numerous pro-inflammatory chemokines, cytokines, and enzymes. Drug development has focused on antiproliferative therapy for systemic mastocytosis and not on inhibitors of mast cell activation. The only drug available as a "mast cell blocker" is disodium cromoglycate (cromolyn), but it is poorly absorbed after oral administration, is a weak inhibitor of histamine release from human mast cells, and it develops rapid anaphylaxis. Instead, certain natural flavonoids, especially luteolin, can inhibit mast cell activation., Methods: Here, we compared pretreatment (0-120 min) with equimolar concentration (effective dose for 50% inhibition = 100 mm for inhibition of histamine release by cromolyn) of cromolyn and luteolin on release of mediators from the cultured human LADR mast cell line stimulated either by immunoglobulin E (IgE) and anti-IgE or with IL-33., Results: We show that luteolin is significantly more potent than cromolyn inhibiting release of histamine, tryptase, metalloproteinase-9, and vascular endothelial growth factor. Moreover, while luteolin also significantly inhibited release of IL-1β, IL-6, and IL-8 (CXCL8) and TNF, cromolyn had no effect., Conclusion: These findings support the use of luteolin, especially in liposomal form to increase oral absorption, may be a useful alternative to cromolyn., (© 2024 S. Karger AG, Basel.)

Published

2024

9. Stabilizing histamine release in gut mast cells mitigates peripheral and central inflammation after stroke.

Author

Conesa MPB, Blixt FW, Peesh P, Khan R, Korf J, Lee J, Jagadeesan G, Andersohn A, Das TK, Tan C, Di Gesu C, Colpo GD, Moruno-Manchón JF, McCullough LD, Bryan R, and Ganesh BP

Subjects

Humans, Mice, Male, Animals, Mast Cells, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use, Histamine, Neuroinflammatory Diseases, Inflammation drug therapy, Inflammation etiology, Infarction, Middle Cerebral Artery complications, Infarction, Middle Cerebral Artery drug therapy, Ischemia, Histamine Release, Stroke complications

Abstract

Stroke is the most common cause of long-term disability and places a high economic burden on the global healthcare system. Functional outcomes from stroke are largely determined by the extent of ischemic injury, however, there is growing recognition that systemic inflammatory responses also contribute to outcomes. Mast cells (MCs) rapidly respond to injury and release histamine (HA), a pro-inflammatory neurotransmitter that enhances inflammation. The gut serves as a major reservoir of HA. We hypothesized that cromolyn, a mast cell stabilizer that prevents the release of inflammatory mediators, would decrease peripheral and central inflammation, reduce MC trafficking to the brain, and improve stroke outcomes. We used the transient middle cerebral artery occlusion (MCAO) model of ischemic stroke in aged (18 mo) male mice to investigate the role of MC in neuroinflammation post-stroke. After MCAO we treated mice with 25 mg/kg body weight of cromolyn (MC stabilizer) by oral gavage. Cromolyn was administered at 3 h, 10 h, 24 h and every 24 h for 3 days post-stroke. Three control groups were used. One group underwent a sham surgery and was treated with cromolyn, one received sham surgery with PBS vehicle and the third underwent MCAO with PBS vehicle. Mice were euthanized at 24 h and 3 days post-stroke. Cromolyn administration significantly reduced MC numbers in the brain at both 24 h and 3 days post-stroke. Infarct volume was not significantly different between groups, however improved functional outcomes were seen at 3 days post-stroke in mice that received cromolyn. Treatment with cromolyn reduced plasma histamine and IL-6 levels in both the 24-h and 3-day cohorts. Gut MCs numbers were significantly reduced after cromolyn treatment at 24 h and 3 days after stroke. To determine if MC trafficking from the gut to the brain occurred after injury, GFP + MCs were adoptively transferred to c-kit -/- MC knock-out animals prior to MCAO. 24 h after stroke, elevated MC recruitment was seen in the ischemic brain. Preventing MC histamine release by cromolyn improved gut barrier integrity and an improvement in stroke-induced dysbiosis was seen with treatment. Our results show that preventing MC histamine release possesses prevents post-stroke neuroinflammation and improves neurological and functional outcomes., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

10. The Interactions of Magnesium Sulfate and Cromoglycate in a Rat Model of Orofacial Pain; The Role of Magnesium on Mast Cell Degranulation in Neuroinflammation.

Author

Srebro D, Dožić B, Vučković S, Savić Vujović K, Medić Brkić B, Dožić I, and Srebro M

Subjects

Rats, Animals, Male, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use, Rats, Wistar, Cell Degranulation, Neuroinflammatory Diseases, Mast Cells, Facial Pain drug therapy, Inflammation drug therapy, Analgesics pharmacology, Magnesium Sulfate pharmacology, Magnesium Sulfate therapeutic use, Magnesium pharmacology, Magnesium therapeutic use

Abstract

Mast cell degranulation impacts the development of pain and inflammation during tissue injury. We investigated the antinociceptive effect of a combination of cromoglycate and magnesium in the orofacial model of pain and the histological profile of the effect of magnesium in orofacial pain. In male Wistar rats, formalin (1.5%, 100 µL) was injected subcutaneously into the right upper lip of rats after cromoglycate and/or magnesium. Pain was measured as the total time spent on pain-related behavior. Toluidine blue staining was used to visualize mast cells under the light microscope. In the formalin test, in phase 1, magnesium antagonized the antinociceptive effect of cromoglycate, while in phase 2, it potentiated or inhibited its effect. Magnesium significantly reduced mast cell degranulation in the acute phase by about 23% and in the second phase by about 40%. Pearson's coefficient did not show a significant correlation between mast cell degranulation and pain under treatment with magnesium. The cromoglycate-magnesium sulfate combination may prevent the development of inflammatory orofacial pain. The effect of a combination of cromoglycate-magnesium sulfate depends on the nature of the pain and the individual effects of the drugs. Magnesium reduced orofacial inflammation in the periphery, and this effect did not significantly contribute to its analgesic effect.

Published

2023

11. PD-1 + mast cell enhanced by PD-1 blocking therapy associated with resistance to immunotherapy.

Author

Li J, Peng G, Zhu K, Jie X, Xu Y, Rao X, Xu Y, Chen Y, Xing B, Wu G, and Shi L

Subjects

Mice, Animals, Cromolyn Sodium metabolism, Cromolyn Sodium pharmacology, Histamine pharmacology, Phosphatidylinositol 3-Kinases metabolism, Cytokines metabolism, Immunotherapy, Tumor Microenvironment, Mast Cells, Melanoma metabolism

Abstract

Background: Programmed cell death protein 1 (PD-1) antibody has been approved for a variety of tumors, but its effective rate is unsatisfactory. New evidence suggests that mast cells are an important component of the tumor microenvironment and are associated with resistance to immunotherapy, but the underlying mechanism is not clear., Methods: Bioinformatics analysis of patients with melanoma in TCGA-SKCM and GSE91061 was used to determine the prognostic value of mast cells and their association with anti-PD-1 immunotherapy. HMC-1 cells (mast cell line) and bone marrow-derived mast cells (BMMCs) were used to verify the effect of PD-1 antibody and cromolyn sodium in vitro. The mouse subcutaneous melanoma model was used to verify the effect of the PD-1 antibody on mast cells in vivo., Results: Bioinformatics analysis showed that mast cells were a poor prognostic factor associated with resistance to anti-PD-1 immunotherapy. PD-1 was expressed on the mast cell membrane. The PD-1 antibody promoted the release of histamine and cytokines from mast cells via the PI3K/AKT pathway and calcium signaling pathway. The activation of mast cells induced by PD-1 antibody could be partially inhibited by cromolyn sodium. In vivo, cromolyn sodium increased the efficacy of PD-1 antibody and decreased the infiltration of mast cells and the density of microvessels., Conclusion: PD-1 + mast cell activated by PD-1 antibody plays a negative role in the tumor microenvironment via the enhanced function of releasing histamine and cytokines. Inhibition of mast cell may provide a new solution to solve the low response rate of anti-PD-1 immunotherapy., (© 2022. The Author(s).)

Published

2023

12. Degranulation of Murine Resident Cochlear Mast Cells: A Possible Factor Contributing to Cisplatin-Induced Ototoxicity and Neurotoxicity.

Author

Karayay B, Olze H, and Szczepek AJ

Subjects

Mice, Animals, Cisplatin pharmacology, Mast Cells, Cromolyn Sodium pharmacology, Cochlea, Antineoplastic Agents pharmacology, Ototoxicity

Abstract

Permanent hearing loss is one of cisplatin's adverse effects, affecting 30-60% of cancer patients treated with that drug. Our research group recently identified resident mast cells in rodents' cochleae and observed that the number of mast cells changed upon adding cisplatin to cochlear explants. Here, we followed that observation and found that the murine cochlear mast cells degranulate in response to cisplatin and that the mast cell stabilizer cromoglicic acid (cromolyn) inhibits this process. Additionally, cromolyn significantly prevented cisplatin-induced loss of auditory hair cells and spiral ganglion neurons. Our study provides the first evidence for the possible mast cell participation in cisplatin-induced damage to the inner ear.

Published

2023

13. The Investigation of Therapeutic Implications of Mast Cell Stabilizer Cromolyn Sodium on Cholestasis and Cholestatic Pruritus in Experimental Cholestasis.

Author

Yurdakul Ertan H, Özbakış Dengiz G, Barut F, Yılmaz Ürün Y, Can M, Hussen SU, and Üstündağ Y

Subjects

Rats, Animals, Mast Cell Stabilizers therapeutic use, Histamine therapeutic use, Liver pathology, Pruritus drug therapy, Pruritus etiology, Pruritus pathology, Ligation, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use, Cholestasis complications, Cholestasis drug therapy

Abstract

Background: Relevant studies have indicated that hepatic mast cells may have potential roles in the progression of cholestasis and cholestasis-induced itch. We aimed to compare the effects of cromolyn sodium and other medications on cholestatic pruritus, serum biochemistry, histamine, total bile acids, autotaxin, liver histopathology, and mast cell distribution in tissues in an experimental cholestasis model conducted by bile duct ligation., Methods: Rats received the determined treatment consecutively for 10 days in addition to bile duct ligation. On the 5th and 10th days of the experiment, the rats' itching behaviors were observed for 5 minutes. After 10 days, blood and tissue samples were taken., Results: Significant decreases in serum histamine and autotaxin levels, plasma total bile acids, total bilirubin, and biliary enzymes were reported only in cromolyn sodium-treated rats compared to the control group. In immunohistochemistry of the liver samples, the peribiliary mast cells stained positive for autotaxin. Except for bile duct infarctus, all histopathological findings of cholestasis significantly improved only in cromolyn sodium-treated and sertraline-treated rats. The liver and peritoneal mast cells significantly decreased only in cromolyn sodium-treated rats compared to the control group. On the 10th day of the experiment, the mean duration of itching was significantly lower in all groups, except for naloxone- and ondansetron-treated rats., Conclusion: Cromolyn sodium has promising antipruritic efficacy and provides biochemical and histopathological recovery of the relevant parameters of cholestasis induced by bile duct ligation. For the first time in the literature, we showed that peribiliary mast cells can produce autotaxin, which is a very important pruritogenic signal in the setting of cholestasis.

Published

2023

14. Cromolyn chitosan nanoparticles reverse the DNA methylation of RASSF1A and p16 genes and mitigate DNMT1 and METTL3 expression in breast cancer cell line and tumor xenograft model in mice.

Author

Motawi TK, El-Maraghy SA, Sabry D, Nady OM, and Senousy MA

Subjects

Animals, Ascites, Breast Neoplasms genetics, Breast Neoplasms metabolism, Carcinoma genetics, Carcinoma metabolism, Cell Line, Tumor, Chitosan metabolism, Chitosan pharmacology, Cromolyn Sodium metabolism, Cromolyn Sodium pharmacology, DNA (Cytosine-5-)-Methyltransferase 1 genetics, DNA (Cytosine-5-)-Methyltransferase 1 metabolism, DNA (Cytosine-5-)-Methyltransferases genetics, DNA (Cytosine-5-)-Methyltransferases metabolism, Disease Models, Animal, Female, Gene Expression Regulation, Neoplastic, Genes, p16, Heterografts, Humans, Mice, RNA, Neoplasm metabolism, Breast Neoplasms drug therapy, Carcinoma drug therapy, Chitosan therapeutic use, Cromolyn Sodium therapeutic use, DNA Methylation drug effects, Nanoparticles

Abstract

Background: Developing epigenetic drugs for breast cancer (BC) remains a novel therapeutic approach. Cromolyn is a mast cell stabilizer emerging as an anticancer drug; its encapsulation in chitosan nanoparticles (CSNPs) improves its effect and bioavailability. However, its effect on DNA and RNA methylation machineries has not been previously tackled., Methods: The possible anticancer effect of cromolyn CSNPs and its potential as an epigenetic drug was investigated in vitro using MCF-7 human BC cell line and in vivo using Ehrlich ascites carcinoma-xenograft model in mice symbolizing murine mammary adenocarcinoma. Mice were injected with a single dose of Ehrlich ascites carcinoma cells subcutaneously for the induction of tumor mass, and then randomized into three groups: control, cromolyn CSNPs (equivalent to 5 mg cromolyn/kg, i.p.) and plain CSNPs twice/week for 2 weeks., Results: Cromolyn CSNPs showed prominent anticancer effect in MCF-7 cells by reducing the cell viability percent and enhancing DNA damage in the comet assay demonstrating its apoptotic actions. Mechanistically, cromolyn CSNPs influenced potential epigenetic processes through mitigating DNA methyltransferase 1 (DNMT1) expression, reversing the hypermethylation pattern of the tumor suppressor RASSF1A and p16 genes and attenuating the expression of the RNA N 6 -methyladenosine writer, methyltransferase-like 3 (METTL3). Cromolyn CSNPs diminished ERK1/2 phosphorylation, a possible arm influencing DNMT1 expression. In vivo, cromolyn CSNPs lessened the tumor volume and halted DNMT1 and METTL3 expression in Ehrlich carcinoma mice., Conclusions: Cromolyn CSNPs have the premise as an epigenetic drug through inhibiting ERK1/2 phosphorylation/DNMT1/DNA methylation and possibly impacting the RNA methylation machinery via mitigating METTL3 expression., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

15. A pharmacological approach assessing the role of mast cells in insulin infusion site inflammation.

Author

Kesserwan S, Mao L, Sharafieh R, Kreutzer DL, and Klueh U

Subjects

Animals, Cromolyn Sodium metabolism, Cromolyn Sodium pharmacology, Inflammation chemically induced, Inflammation drug therapy, Insulin pharmacology, Mice, Diabetes Mellitus, Experimental drug therapy, Diabetes Mellitus, Experimental metabolism, Mast Cells metabolism

Abstract

Background Extending the lifespan of subcutaneous insulin administration sets and infusion pumps requires overcoming unreliable insulin delivery induced by dermal reactions. All commercially available insulin formulations contain insulin phenolic preservatives (IPP), which stabilize the insulin molecule but result in unwanted cell and tissue toxicity. Mast cells, which are the first line of defense once the epithelium is breached, are particularly abundant beneath the skin surface. Thus, we hypothesize a sequence of events initiated by device insertion that activates skin mast cells (MC) that subsequently trigger neutrophil and monocyte/macrophage recruitment. The ensuing inflammatory response compromises effective insulin infusion therapy. Methods We employed a non-genetic, pharmacological approach to MC membrane stabilization using Cromolyn sodium (CS), which inhibits MC degranulation. These studies were conducted in our modified air pouch mouse model using non-diabetic and streptozotocin induced diabetic mice. We evaluated the impact of systemic CS through intraperitoneal injections, as well as the impact of local CS through co-infusion, on infusion catheter insertion and IPP-induced inflammation. Results CS at a concentration of 50 mg/kg minimized inflammation triggered in response to insulin phenolic preservatives present in standard insulin formulations. The resultant degree of tissue inflammation was comparable to that observed with saline injections. Conclusion Targeting MC has the potential to extend the longevity of insulin infusion sets by mitigating the inflammatory response. Future studies should be directed at employing other MC models, such as newer Cre/loxP mouse strains, to confirm the sentinel role of MC in insulin infusion therapy., (© 2021. Controlled Release Society.)

Published

2022

16. Cromolyn Sodium differentially regulates human mast cell and mouse leukocyte responses to control allergic inflammation.

Author

Puzzovio PG, Brüggemann TR, Pahima H, Mankuta D, Levy BD, and Levi-Schaffer F

Subjects

Animals, Humans, Immunoglobulin E, Inflammation drug therapy, Leukocytes, Mast Cells, Mice, Ovalbumin, Staphylococcus aureus, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use, Interleukin-10

Abstract

Background: Cromolyn Sodium (CS) has been used in the past as an anti-allergy drug owing to its mast cell (MC) stabilizing properties that impair histamine release. However, additional mechanisms for its clinical actions are likely and might help to identify new roles for MCs and leukocytes in regulating inflammation. Here, using human cord blood-derived MCs (CBMCs), mouse bone marrow-derived MCs (BMMCs) and eosinophils (BMEos), and in vivo mouse models of allergic inflammation (AI), additional actions of CS on MCs were determined., Methods: The in vitro effects of CS on IgE-activated human and mouse MCs were assessed by measuring the levels of pro-inflammatory (tryptase, LTC 4 , IL-8, CD48) and pro-resolution effectors (IL-10, CD300a, Annexin A1) before and after CS treatment. The in vivo effects of daily CS injections on parameters of inflammation were assessed using mouse models of allergic peritonitis (AP) (Ovalbumin/Alum- or Ovalbumin/S. aureus enterotoxin B) and allergic airways inflammation (AAI) (house dust mite (HDM))., Results: In vitro, CS did not affect pro-inflammatory effectors but significantly increased the anti-inflammatory/pro-resolution CD300a levels and IL-10 release from IgE-activated CBMCs. BMMCs were not affected by CS. In vivo, CS injections decreased total cell and Eos numbers in the peritoneal cavity in the AP models and bronchoalveolar lavage and lungs in the AAI model. CS reduced EPX release from PAF-activated BMEos in vitro, possibly explaining the in vivo findings., Conclusion: Together, these results demonstrate immunomodulatory actions for CS in AI that are broader than only MC stabilization., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

17. Effects of Disodium Cromoglycate Treatment in the Early Stage of Diabetic Nephropathy: Focus on Collagen Deposition.

Author

da Luz MJ, da Costa VAA, Balbi APC, and Bispo-da-Silva LB

Subjects

Animals, Collagen, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use, Kidney, Rats, Diabetes Mellitus, Type 1, Diabetic Nephropathies drug therapy

Abstract

Inflammation is part of the pathophysiology of diabetic nephropathy (DN), and mast cells (MCs) appear to increase in number within the kidney of humans and animals with diabetes. Disodium cromoglycate (CG) not only inhibits the degranulation of MCs but also has several secondary effects that may improve inflammation. However, little is known about the effects of CG treatment on kidney collagen deposition and myofibroblast population in animals with type I diabetes (DM1). Data presented here suggest that the increases in the density and activity of MCs within the kidney in the early stages of DN contribute to tubulointerstitial collagen deposition, even in the absence of alterations in the renal myofibroblast population. Moreover, CG treatment showed renoprotective effects in rats with DM1, which appear to be linked to its mast cell stabilizing property and its ability to avoid some detrimental morphofunctional alterations.

Published

2022

18. Cromolyn platform suppresses fibrosis and inflammation, promotes microglial phagocytosis and neurite outgrowth.

Author

Wang YJ, Downey MA, Choi S, Shoup TM, and Elmaleh DR

Subjects

Amyloid beta-Peptides metabolism, Animals, Biomarkers, Cell Line, Computational Biology methods, Cytokines metabolism, Disease Susceptibility, Fibrosis, Gene Expression Profiling, Gene Expression Regulation drug effects, Gene Regulatory Networks, Humans, Microglia pathology, Neuroinflammatory Diseases drug therapy, Neuroinflammatory Diseases pathology, Peptide Fragments metabolism, Phosphatidylinositol 3-Kinases metabolism, Proteome, Signal Transduction drug effects, Cromolyn Sodium pharmacology, Microglia immunology, Microglia metabolism, Neuroinflammatory Diseases etiology, Neuroinflammatory Diseases metabolism, Neuronal Outgrowth drug effects, Phagocytosis drug effects, Phagocytosis immunology

Abstract

Neurodegenerative diseases are characterized by chronic neuroinflammation and may perpetuate ongoing fibrotic reactions within the central nervous system. Unfortunately, there is no therapeutic available that treats neurodegenerative inflammation and its sequelae. Here we utilize cromolyn, a mast cell inhibitor with anti-inflammatory capabilities, and its fluorinated analogue F-cromolyn to study fibrosis-related protein regulation and secretion downstream of neuroinflammation and their ability to promote microglial phagocytosis and neurite outgrowth. In this report, RNA-seq analysis shows that administration of the pro-inflammatory cytokine TNF-α to HMC3 human microglia results in a robust upregulation of fibrosis-associated genes. Subsequent treatment with cromolyn and F-cromolyn resulted in reduced secretion of collagen XVIII, fibronectin, and tenascin-c. Additionally, we show that cromolyn and F-cromolyn reduce pro-inflammatory proteins PLP1, PELP1, HSP90, IL-2, GRO-α, Eotaxin, and VEGF-Α, while promoting secretion of anti-inflammatory IL-4 in HMC3 microglia. Furthermore, cromolyn and F-cromolyn augment neurite outgrowth in PC12 neuronal cells in concert with nerve growth factor. Treatment also differentially altered secretion of neurogenesis-related proteins TTL, PROX1, Rab35, and CSDE1 in HMC3 microglia. Finally, iPSC-derived human microglia more readily phagocytose Aβ42 with cromolyn and F-cromolyn relative to controls. We propose the cromolyn platform targets multiple proteins upstream of PI3K/Akt/mTOR, NF-κB, and GSK-3β signaling pathways to affect cytokine, chemokine, and fibrosis-related protein expression., (© 2021. The Author(s).)

Published

2021

19. Cromolyn inhibits the secretion of inflammatory cytokines by human microglia (HMC3).

Author

Wang YJ, Monteagudo A, Downey MA, Ashton-Rickardt PG, and Elmaleh DR

Subjects

Humans, Cell Line, Inflammation Mediators metabolism, Alzheimer Disease drug therapy, Alzheimer Disease metabolism, Chemokines metabolism, Microglia drug effects, Microglia metabolism, Cytokines metabolism, Cromolyn Sodium pharmacology

Abstract

Cromolyn is a known mast cell stabilizer and is approved for treatment of asthma and for other allergic indications. Cromolyn, in a new redesigned dry powder formulation, is being tested in a pivotal clinical trial in combination with low dose ibuprofen to treat early Alzheimer's Disease (AD) subjects. To better understand the mechanistic effect cromolyn has in slowing down or halting the neuroinflammatory response associated with AD progression, we tested the effect of cromolyn to dampen the inflammatory response in the human HMC3 microglia cell line. The direct effect of cromolyn on HMC3 microglia is on cytokines and chemokines production following their activation by the inflammatory cytokine TNF-α. Cromolyn and a new fluorinated analog dramatically reduced the secretion of a wide spectrum of inflammatory mediators, which included cytokines such as IL-1β, IL-6, IL-8 and IFN-γ, and chemokines such as CXCL10, CCL2, CCL3 and CCL4. These results bolster our understanding of how our cromolyn platform modulates toxic microglia behavior as a dynamic future treatment option for neurodegenerative disorders.

Published

2021

20. Potential association of mast cells with coronavirus disease 2019.

Author

Theoharides TC

Subjects

COVID-19 pathology, COVID-19 virology, Cell Communication drug effects, Cromolyn Sodium pharmacology, Cyproheptadine analogs & derivatives, Cyproheptadine pharmacology, Cytokines antagonists & inhibitors, Cytokines biosynthesis, Cytokines immunology, Famotidine pharmacology, Histamine biosynthesis, Humans, Lung drug effects, Lung immunology, Lung virology, Macrophages drug effects, Macrophages immunology, Macrophages virology, Mast Cells immunology, Mast Cells virology, SARS-CoV-2 immunology, SARS-CoV-2 pathogenicity, Severity of Illness Index, Substance P antagonists & inhibitors, Substance P pharmacology, COVID-19 Drug Treatment, COVID-19 immunology, Cholecalciferol pharmacology, Histamine Antagonists pharmacology, Luteolin pharmacology, Mast Cells drug effects

Published

2021

21. From Combinations to Single-Molecule Polypharmacology-Cromolyn-Ibuprofen Conjugates for Alzheimer's Disease.

Author

Albertini C, Naldi M, Petralla S, Strocchi S, Grifoni D, Monti B, Bartolini M, and Bolognesi ML

Subjects

Amyloid beta-Peptides chemistry, Amyloid beta-Peptides toxicity, Animals, Behavior, Animal drug effects, Cell Survival drug effects, Cromolyn Sodium chemical synthesis, Cromolyn Sodium chemistry, Cromolyn Sodium pharmacology, Drosophila drug effects, Drug Design, Endocytosis drug effects, Ibuprofen chemical synthesis, Ibuprofen chemistry, Ibuprofen pharmacology, Immunomodulation drug effects, Mice, Microglia drug effects, Microglia metabolism, Neurons drug effects, Neurons metabolism, Neuroprotective Agents pharmacology, Neurotoxins toxicity, Protein Aggregates drug effects, Rats, Wistar, Rats, Alzheimer Disease drug therapy, Cromolyn Sodium therapeutic use, Ibuprofen therapeutic use, Polypharmacology

Abstract

Despite Alzheimer's disease (AD) incidence being projected to increase worldwide, the drugs currently on the market can only mitigate symptoms. Considering the failures of the classical paradigm "one target-one drug-one disease" in delivering effective medications for AD, polypharmacology appears to be a most viable therapeutic strategy. Polypharmacology can involve combinations of multiple drugs and/or single chemical entities modulating multiple targets. Taking inspiration from an ongoing clinical trial, this work aims to convert a promising cromolyn-ibuprofen drug combination into single-molecule "codrugs." Such codrugs should be able to similarly modulate neuroinflammatory and amyloid pathways, while showing peculiar pros and cons. By exploiting a linking strategy, we designed and synthesized a small set of cromolyn-ibuprofen conjugates ( 4 - 6 ). Preliminary plasma stability and neurotoxicity assays allowed us to select diamide 5 and ethanolamide 6 as promising compounds for further studies. We investigated their immunomodulatory profile in immortalized microglia cells, in vitro anti-aggregating activity towards Aβ 42 -amyloid self-aggregation, and their cellular neuroprotective effect against Aβ 42 -induced neurotoxicity. The fact that 6 effectively reduced Aβ-induced neuronal death, prompted its investigation into an in vivo model. Notably, 6 was demonstrated to significantly increase the longevity of Aβ 42 -expressing Drosophila and to improve fly locomotor performance.

Published

2021

22. Mast Cell Degranulation Increases Mouse Mast Cell Protease 4-Dependent Vasopressor Responses to Big Endothelin-1 But Not Angiotensin I.

Author

Vincent L, Lapointe C, Lo M, Gagnon H, Pejler G, Takai S, Day R, and D'Orléans-Juste P

Subjects

Animals, Cells, Cultured, Chymases antagonists & inhibitors, Cromolyn Sodium pharmacology, Enzyme Inhibitors pharmacology, Male, Mast Cell Stabilizers pharmacology, Mast Cells drug effects, Mast Cells metabolism, Mice, Mice, Inbred C57BL, Peritoneum cytology, Serine Endopeptidases genetics, Sulfonamides pharmacology, Thiophenes pharmacology, Angiotensin I pharmacology, Blood Pressure, Cell Degranulation, Endothelin-1 pharmacology, Mast Cells physiology, Serine Endopeptidases metabolism

Abstract

Mouse mast cell protease 4 (mMCP-4), the murine functional analog to the human chymase, is a serine protease synthesized and stored in mast cell secretory granules. Our previous studies reported physiologic and pathologic roles for mMCP-4 in the maturation and synthesis of the vasoactive peptide endothelin-1 (ET-1) from its precursor, big ET-1. The aim of this study was to investigate the impact of mast cell degranulation or stabilization on mMCP-4-dependent pressor responses after the administration of big ET-1 or angiotensin I (Ang I). In anesthetized mice, mast cell degranulation induced by compound 48/80 (C48/80) or stabilization by cromolyn enhanced or repressed, respectively, the dose-dependent vasopressor responses to big ET-1 in wild-type (WT) mice but not in mMCP-4 knockout mice in a chymase inhibitor (TY-51469)-sensitive fashion. In addition, mMCP-4-dependent hydrolysis of the fluorogenic substrate Suc-Leu-Leu-Val-Tyr-7-amino-4-methylcoumarin was depleted or enhanced in peritoneal mast cells isolated from mice pretreated with C48/80 or cromolyn, respectively. Furthermore, C48/80 or cromolyn markedly increased or abolished, respectively, ET-1 (1-31) conversion from exogenous big ET-1 in WT mice peritoneal fluid-isolated mast cells, in vitro . Finally, the vasopressor responses to Ang I were unaffected by mast cell activation or stabilization, whereas those induced by the angiotensin-converting enzyme-resistant Ang I analog, [Pro 11 , D-Ala 12 ] Ang I, were potentiated by C48/80. Altogether, the present study shows that mast cell activation enhances the mMCP-4-dependent vasoactive properties of big ET-1 but not Ang I in the mouse model. SIGNIFICANCE STATEMENT: The current work demonstrates a significant role for mast cell stability in the cardiovascular pharmacology of big endothelin-1 but not angiotensin I in the murine systemic circulation., (Copyright © 2021 by The American Society for Pharmacology and Experimental Therapeutics.)

Published

2021

23. Evaluation of Fluorinated Cromolyn Derivatives as Potential Therapeutics for Alzheimer's Disease.

Author

Shoup TM, Griciuc A, Normandin MD, Quinti L, Walsh LV, Dhaynaut M, Moon SH, Guehl NJ, Brugarolas P, Elmaleh DR, Fakhri GE, and Tanzi RE

Subjects

Alzheimer Disease metabolism, Amyloid beta-Peptides metabolism, Animals, Brain drug effects, Brain metabolism, Cell Line, Cells, Cultured, Cromolyn Sodium metabolism, Macaca mulatta metabolism, Mice, Neuroprotective Agents pharmacology, Peptide Fragments metabolism, Phagocytosis drug effects, Alzheimer Disease drug therapy, Cromolyn Sodium pharmacology, Microglia drug effects, Microglia metabolism

Abstract

Background: Cromolyn is an anti-neuroinflammatory modulator with a multifactorial mechanism of action that has been shown to inhibit amyloid-β (Aβ) aggregation and enhance microglial uptake and clearance of Aβ., Objective: We report the effects of fluoro-cromolyn derivatives on microglial cell toxicity and microglial clearance of Aβ42., Methods: Microglial cell toxicity for cromolyn derivatives were determined in naive BV2 microglial cells. Microglial clearance assays were performed with Aβ42 in naive BV2 microglial cell line and single cell clone BV2 line expressing CD33WT. PET imaging was performed for three F-18 analogs in a rhesus macaque., Results: All compounds but derivative 8 exhibited low microglial cell toxicity. Cromolyn 1 and derivatives 2, 4, and 7 displayed an increased uptake on Aβ42 in naïve BV2 microglial cells. Derivative 4 increased Aβ42 uptake in a dose-dependent manner and at 75μM resulted in a one-fold increase in Aβ42 uptake in BV2-CD33WT. PET imaging for three [18F]cromolyn analogs revealed the order of brain tracer penetration to be 4a > 10 > 2a. Tracer 4a exhibited enhanced uptake in areas of high perfusion (putamen, grey matter, and cerebellum) and lower signal in areas of lower perfusion (caudate, thalamus, and white matter)., Conclusion: Substantial uptake of Aβ42 in both naïve BV2 and BV2-CD33WT cells observed with 4 indicate conversion of microglial cells from a pro-inflammatory to an activation state favoring Aβ phagocytosis/clearance. These findings suggest that a fluoro-cromolyn analog could reduce fibril-prone Aβ42in vivo and thereby serve as a therapeutic for the treatment and prevention of AD.

Published

2021

24. Sodium Cromoglycate Decreases Sensorimotor Impairment and Hippocampal Alterations Induced by Severe Traumatic Brain Injury in Rats.

Author

Segovia-Oropeza M, Santiago-Castañeda C, Orozco-Suárez SA, Concha L, and Rocha L

Subjects

Animals, Male, Motor Activity drug effects, Rats, Rats, Wistar, Brain Injuries, Traumatic pathology, Cromolyn Sodium pharmacology, Hippocampus drug effects, Hippocampus pathology, Neuroprotective Agents pharmacology

Abstract

Severe traumatic brain injury (TBI) results in significant functional disturbances in the hippocampus. Studies support that sodium cromoglycate (CG) induces neuroprotective effects. This study focused on investigating the effects of post-TBI subchronic administration of CG on hippocampal hyperexcitability and damage as well as on sensorimotor impairment in rats. In contrast to the control group (Sham+SS group), animals undergoing severe TBI (TBI+SS group) showed sensorimotor dysfunction over the experimental post-TBI period (day 2, 55%, p  < 0.001; day 23, 39.5%, p  < 0.001; day 30, 38.6%, p  < 0.01). On day 30 post-TBI, TBI+SS group showed neuronal hyperexcitability (63.3%, p  < 0.01). The hippocampus ipsilateral to the injury showed volume reduction (14.4%, p < 0.001) with a volume of damage of 0.15 ± 0.09 mm 3 . These changes were associated with neuronal loss in the dentate gyrus (ipsilateral, 33%, p  < 0.05); hilus (ipsilateral, 77%, p  < 0.001; contralateral, 51%, p  < 0.001); Cornu Ammonis (CA)1 (ipsilateral, 40%, p  < 0.01), and CA3 (ipsilateral, 52%, p  < 0.001; contralateral, 34%, p  < 0.01). Animals receiving subchronic treatment with CG (50 mg/kg, s.c. daily for 10 days) after TBI (TBI+CG group) displayed a sensorimotor dysfunction less evident than that of the TBI+SS group ( p  < 0.001). Their hippocampal excitability was similar to that of the Sham+SS group ( p  = 0.21). The TBI+CG group presented hippocampal volume reduction (12.7%, p  = 0.94) and damage (0.10 ± 0.03 mm 3 , p  > 0.99) similar to the TBI+SS group. However, their hippocampal neuronal preservation was similar to that of the Sham+SS group. These results indicate that CG represents an appropriate and novel pharmacological strategy to reduce the long-term sensorimotor impairment and hippocampal damage and hyperexcitability that result as consequences of severe TBI.

Published

2020

25. Genetic Deficiency and Pharmacological Stabilization of Mast Cells Ameliorate Pressure Overload-Induced Maladaptive Right Ventricular Remodeling in Mice.

Author

Sydykov A, Luitel H, Mamazhakypov A, Wygrecka M, Pradhan K, Pak O, Petrovic A, Kojonazarov B, Weissmann N, Seeger W, Grimminger F, Ghofrani HA, Kosanovic D, and Schermuly RT

Subjects

Animals, Biomarkers metabolism, Cromolyn Sodium administration & dosage, Cromolyn Sodium pharmacology, Fibrosis, Gene Expression Regulation drug effects, Heart Ventricles drug effects, Heart Ventricles pathology, Hypertrophy, Inflammation pathology, Inflammation Mediators metabolism, Male, Mast Cells drug effects, Mice, Inbred C57BL, Myocytes, Cardiac drug effects, Myocytes, Cardiac pathology, Ventricular Remodeling drug effects, Mast Cells metabolism, Mast Cells pathology, Pressure, Ventricular Remodeling genetics

Abstract

Although the response of the right ventricle (RV) to the increased afterload is an important determinant of the patient outcome, very little is known about the underlying mechanisms. Mast cells have been implicated in the pathogenesis of left ventricular maladaptive remodeling and failure. However, the role of mast cells in RV remodeling remains unexplored. We subjected mast cell-deficient WBB6F1-KitW/W-v (Kit W /Kit W-v ) mice and their mast cell-sufficient littermate controls (MC +/+ ) to pulmonary artery banding (PAB). PAB led to RV dilatation, extensive myocardial fibrosis, and RV dysfunction in MC +/+ mice. In PAB Kit W /Kit W-v mice, RV remodeling was characterized by minimal RV chamber dilatation and preserved RV function. We further administered to C57Bl/6J mice either placebo or cromolyn treatment starting from day 1 or 7 days after PAB surgery to test whether mast cells stabilizing drugs can prevent or reverse maladaptive RV remodeling. Both preventive and therapeutic cromolyn applications significantly attenuated RV dilatation and improved RV function. Our study establishes a previously undescribed role of mast cells in pressure overload-induced adverse RV remodeling. Mast cells may thus represent an interesting target for the development of a new therapeutic approach directed specifically at the heart.

Published

2020

26. Mast Cell Promotes the Development of Intracranial Aneurysm Rupture.

Author

Furukawa H, Wada K, Tada Y, Kuwabara A, Sato H, Ai J, Lawton MT, and Hashimoto T

Subjects

Aneurysm, Ruptured pathology, Aneurysm, Ruptured prevention & control, Animals, Cathepsin G genetics, Chymases genetics, Cromolyn Sodium pharmacology, Disease Models, Animal, Interleukin-6 genetics, Intracranial Aneurysm pathology, Male, Mast Cell Stabilizers pharmacology, Mast Cells drug effects, Mast Cells pathology, Matrix Metalloproteinase 9 genetics, Mice, Mice, Transgenic, Mutation, Proto-Oncogene Proteins c-kit genetics, RNA, Messenger metabolism, Receptor, Angiotensin, Type 1 genetics, Subarachnoid Hemorrhage immunology, Subarachnoid Hemorrhage pathology, Subarachnoid Hemorrhage prevention & control, Tryptases genetics, Tumor Necrosis Factor-alpha genetics, p-Methoxy-N-methylphenethylamine pharmacology, Aneurysm, Ruptured immunology, Intracranial Aneurysm immunology, Mast Cells immunology

Abstract

Background and Purpose: Inflammation has emerged as a key component of the pathophysiology of intracranial aneurysms. Mast cells have been detected in human intracranial aneurysm tissues, and their presence was associated with intramural microhemorrhage and wall degeneration. We hypothesized that mast cells play a critical role in the development of aneurysmal rupture, and that mast cells can be used as a therapeutic target for the prevention of aneurysm rupture., Methods: Intracranial aneurysms were induced in adult mice using a combination of induced systemic hypertension and a single injection of elastase into the cerebrospinal fluid. Aneurysm formation and rupture were assessed over 3 weeks. Roles of mast cells were assessed using a mast cell stabilizer (cromolyn), a mast cell activator (C48/80), and mice that are genetically lacking mature mast cells (Kit W-sh/W-sh mice)., Results: Pharmacological stabilization of mast cells with cromolyn markedly decreased the rupture rate of aneurysms (80% versus 19%, n=10 versus n =16) without affecting the aneurysm formation. The activation of mast cells with C48/80 significantly increased the rupture rate of aneurysms (25% versus 100%, n=4 versus n=5) without affecting the overall rate of aneurysm formation. Furthermore, the genetic deficiency of mast cells significantly prevented aneurysm rupture (80% versus 25%, n=10 versus n=8, wild-type versus Kit W-sh/W-sh mice)., Conclusions: These results suggest that mast cells play a key role in promoting aneurysm rupture but not formation. Stabilizers of mast cells may have a potential therapeutic value in preventing intracranial aneurysm rupture in patients.

Published

2020

27. Disodium cromoglycate treatment reduces T H 2 immune response and immunohistopathological features in a murine model of Eosinophilic Esophagitis.

Author

Silva FMCE, de Oliveira EE, Ambrósio MGE, Ayupe MC, de Souza VP, Menegati LM, Reis DRL, Machado MA, Macedo GC, and Ferreira AP

Subjects

Animals, Bone Marrow drug effects, Bone Marrow immunology, Bone Marrow pathology, Disease Models, Animal, Eosinophilic Esophagitis chemically induced, Eosinophilic Esophagitis drug therapy, Eosinophilic Esophagitis pathology, Eosinophils drug effects, Eosinophils immunology, Esophageal Mucosa drug effects, Esophageal Mucosa immunology, Esophageal Mucosa pathology, Fibrosis immunology, Fibrosis pathology, Immunity drug effects, Immunity immunology, Lymphoid Tissue drug effects, Lymphoid Tissue immunology, Male, Mast Cells drug effects, Mast Cells immunology, Mice, Mice, Inbred BALB C, Ovalbumin toxicity, Cromolyn Sodium pharmacology, Eosinophilic Esophagitis immunology, Mast Cell Stabilizers pharmacology, Th2 Cells drug effects, Th2 Cells immunology

Abstract

Eosinophilic esophagitis (EoE) is an emergent chronic disease of the esophagus. The immunopathological process in EoE is characterized by Th2 immune response and prominent eosinophilic influx, in response to common food allergens. The classical treatment consists of allergen elimination diet and systemic/topical corticosteroid therapy. Nevertheless, patients do not always comply to treatment, and the prolonged corticosteroid therapy can cause side effects, therefore, there is an immediate need for new therapeutic approach for EoE. Disodium cromoglicate (DSCG) is a substance broadly used in allergic asthma treatment, and a well-known mast cell activation stabilizer. However, its effect in EoE have not been evaluated yet. This study aimed to assess the effects of DSCG treatment in an EoE experimental model. Male Balb/C mice were subcutaneously sensitized for five days with OVA, and subsequently orally OVA-challenged, DSCG administration was performed between the OVA-challenges. DSCG treatment not only reduced eosinophilic and mast cell influx, as well as reduced fibrosis. In addition, tslp, GATA 3, IL-5, FoxP 3 and IL-10 mRNA expression were reduced in esophageal mucosa, associated with lower Th2 (CD3 + CD4 + GATA3 + IL4 + ) and B cells (CD19 + CD40 + ) number in peripheral lymphoid organs. In conclusion, the data demonstrate DSCG treatment was effective in reducing mast cell activation and Th2 immune response, important immunopathological EoE features. Therefore, the use of DSCG as an EoE treatment can be considered a promising therapeutic approach to treat this disease., Competing Interests: Declaration of Competing Interest The authors have no conflicts of interest to disclose., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

28. Amyotrophic Lateral Sclerosis, Neuroinflammation, and Cromolyn.

Author

Theoharides TC and Tsilioni I

Subjects

Animals, Cytokines metabolism, Disease Models, Animal, Humans, Mast Cells drug effects, Mast Cells metabolism, Mice, Spinal Cord drug effects, Spinal Cord metabolism, Amyotrophic Lateral Sclerosis metabolism, Cromolyn Sodium pharmacology, Inflammation metabolism

Abstract

Amyotrophic lateral sclerosis (ALS) is an upper motor neuron disease with an unknown pathogenesis and no effective treatment. A recent study found that treatment of a mouse model of ALS (TgSOD1 mice) intraperitoneally with the mast-cell blocker disodium chromoglycate (cromolyn) had a small but significant effect on disease onset, improvement of neurologic symptoms, and decrease in the expression of proinflammatory cytokines and chemokines in the spinal cord and plasma of the TgSOD1 mice. Treatment with cromolyn also reduced degranulation of mast cells in the tibialis anterior muscle. There was no effect on survival. These findings are important in their support of the involvement of mast cells in the pathogenesis of ALS but are limited by the small effect of cromolyn, which was given intraperitoneally and is poorly absorbed after oral administration. Instead, use of the structurally related flavonoid tetramethoxyluteolin, which is a more potent inhibitor of proinflammatory cytokine release from mast cells and also inhibits activated microglia, may offer significant advantages over cromolyn. Development of mast cell inhibitors could benefit not only allergic disorders but also inflammatory and neurodegenerative disorders., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

29. Cromolyn sodium delays disease onset and is neuroprotective in the SOD1 G93A Mouse Model of amyotrophic lateral sclerosis.

Author

Granucci EJ, Griciuc A, Mueller KA, Mills AN, Le H, Dios AM, McGinty D, Pereira J, Elmaleh D, Berry JD, Paganoni S, Cudkowicz ME, Tanzi RE, and Sadri-Vakili G

Subjects

Amyotrophic Lateral Sclerosis genetics, Animals, Anti-Inflammatory Agents pharmacology, Cromolyn Sodium pharmacology, Cytokines blood, Cytokines genetics, Cytokines metabolism, Female, Male, Mice, Mice, Inbred C57BL, Motor Neurons drug effects, Neuromuscular Junction drug effects, Neuroprotective Agents pharmacology, Spinal Cord drug effects, Spinal Cord metabolism, Superoxide Dismutase-1 genetics, Amyotrophic Lateral Sclerosis drug therapy, Anti-Inflammatory Agents therapeutic use, Cromolyn Sodium therapeutic use, Neuroprotective Agents therapeutic use

Abstract

Accumulating evidence suggests that neuroinflammatory processes are implicated in the initiation and progression of amyotrophic lateral sclerosis (ALS). Previous reports have demonstrated an increase in microgliosis and astrogliosis in the lumbar spinal cord of SOD1 G93A transgenic mice before the onset of symptoms, a neuroinflammatory response which correlated with disease progression. Importantly, early stage homeostatic microglia enhanced motor neuron survival, while pro-inflammatory microglia were toxic to motor neurons in the SOD1 G93A mice. Recent studies from our group have demonstrated that cromolyn sodium, an FDA approved compound, exerts neuroprotective effects in mouse models of Alzheimer's disease by altering microglial cell activation. Here, we tested the neuroprotective and anti-inflammatory effects of cromolyn sodium in the SOD1 G93A mouse model of ALS. Our results indicate that cromolyn sodium treatment significantly delayed the onset of neurological symptoms, and improved deficits in PaGE performance in both male and female mice, however, there was only an effect on survival in female mice. Furthermore, there was a significant increase in motor neuron survival in the lumbar spinal cord as well as a significant decrease in the denervation of the neuromuscular junction of the tibialis anterior muscle in cromolyn treated transgenic SOD1 G93A mice. Lastly, cromolyn treatment decreased the expression of pro-inflammatory cytokines/chemokines in the lumbar spinal cord and plasma and decreased mast cell degranulation in the tibialis anterior muscle of transgenic SOD1 G93A mice. Together, these findings suggest that cromolyn sodium provides neuroprotection in the SOD1 G93A mice by decreasing the inflammatory response.

Published

2019

30. TCTP from Loxosceles Intermedia (Brown Spider) Venom Contributes to the Allergic and Inflammatory Response of Cutaneous Loxoscelism.

Author

Boia-Ferreira M, Moreno KG, Basílio ABC, da Silva LP, Vuitika L, Soley B, Wille ACM, Donatti L, Barbaro KC, Chaim OM, Gremski LH, Veiga SS, and Senff-Ribeiro A

Subjects

Animals, Biomarkers, Tumor antagonists & inhibitors, Biomarkers, Tumor genetics, Cimetidine administration & dosage, Cimetidine pharmacology, Cromolyn Sodium administration & dosage, Cromolyn Sodium pharmacology, Dose-Response Relationship, Drug, Hypersensitivity drug therapy, Inflammation drug therapy, Injections, Intraperitoneal, Injections, Intravenous, Mast Cells drug effects, Mast Cells immunology, Mice, Piperidines administration & dosage, Piperidines pharmacology, Promethazine administration & dosage, Promethazine pharmacology, Rabbits, Rats, Skin Diseases drug therapy, Tumor Cells, Cultured, Tumor Protein, Translationally-Controlled 1, Biomarkers, Tumor immunology, Hypersensitivity immunology, Inflammation immunology, Phosphoric Diester Hydrolases chemistry, Phosphoric Diester Hydrolases immunology, Skin Diseases immunology, Spider Venoms chemistry, Spider Venoms immunology

Abstract

LiTCTP is a toxin from the Translationally Controlled Tumor Protein (TCTP) family identified in Loxosceles brown spider venoms. These proteins are known as histamine-releasing factors (HRF). TCTPs participate in allergic and anaphylactic reactions, which suggest their potential role as therapeutic targets. The histaminergic effect of TCTP is related to its pro-inflammatory functions. An initial characterization of LiTCTP in animal models showed that this toxin can increase the microvascular permeability of skin vessels and induce paw edema in a dose-dependent manner. We evaluated the role of LiTCTP in vitro and in vivo in the inflammatory and allergic aspects that undergo the biological responses observed in Loxoscelism, the clinical condition after an accident with Loxosceles spiders. Our results showed LiTCTP recombinant toxin (LiRecTCTP) as an essential synergistic factor for the dermonecrotic toxin actions (LiRecDT1, known as the main toxin in the pathophysiology of Loxoscelism), revealing its contribution to the exacerbated inflammatory response clinically observed in envenomated patients.

Published

2019

31. Dietary cholesterol is essential to mast cell activation and associated obesity and diabetes in mice.

Author

Zhang X, Huang Q, Wang X, Deng Z, Li J, Yan X, Jauhiainen M, Metso J, Libby P, Liu J, and Shi GP

Subjects

Adipose Tissue drug effects, Adipose Tissue metabolism, Adipose Tissue pathology, Animals, Anti-Allergic Agents pharmacology, Anti-Asthmatic Agents pharmacology, Cholesterol, LDL metabolism, Cromolyn Sodium pharmacology, Diabetes Mellitus, Experimental chemically induced, Diabetes Mellitus, Experimental pathology, Diet, High-Fat adverse effects, Gene Expression, Histamine blood, Ketotifen pharmacology, Male, Mast Cells metabolism, Mast Cells pathology, Mice, Mice, Inbred C57BL, Mice, Knockout, Obesity etiology, Obesity pathology, Receptors, LDL deficiency, Receptors, LDL genetics, Serotonin metabolism, Signal Transduction, Streptozocin, beta-N-Acetylhexosaminidases metabolism, Cell Degranulation drug effects, Cholesterol, Dietary adverse effects, Diabetes Mellitus, Experimental blood, Mast Cells drug effects, Obesity blood

Abstract

Mast cell (MC) deficiency in Kit W-sh/W-sh mice and inhibition with disodium chromoglycate (DSCG) or ketotifen reduced obesity and diabetes in mice on a high-cholesterol (1.25%) Western diet. Yet, Kit-independent MC-deficient mice and mice treated with DSCG disproved MC function in obesity and diabetes when mice are fed a high-fat diet (HFD) that contains no cholesterol. This study reproduced the obesity and diabetes inhibitory activities of DSCG and ketotifen from mice on a Western diet. Yet, such inhibitory effects were diminished in mice on the HFD. DSCG and ketotifen MC inhibitory activities were recovered from mice on the HFD supplemented with the same amount of cholesterol (1.25%) as that in the Western diet. DSCG and ketotifen effectively blunted the high-cholesterol diet-induced elevations of blood histamine and adipose tissue MC degranulation. Pearson's correlation test demonstrated significant and positive correlations between plasma histamine and total cholesterol or low-density lipoprotein-cholesterol (LDL). In cultured bone marrow-derived MCs, plasma from mice following a Western diet or a cholesterol-supplemented HFD, but not those from HFD-fed mice, induced MC degranulation and the release of β-hexosaminidase, histamine, and serotonin. IgE, LDL, very low-density lipoprotein, and high-density lipoprotein also induced MC activation, which can be inhibited by DSCG and ketotifen depending on the doses and types of MC inhibitors and cholesterol, and also the MC granule molecules of interest. DSCG or ketotifen lost their activities in inhibiting LDL-induced activation of MCs from LDL receptor-deficient mice. These results indicate that dietary cholesterol critically influences the function of mouse MCs., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

32. Sodium cromoglycate reduces short- and long-term consequences of status epilepticus in rats.

Author

Valle-Dorado MG, Santana-Gómez CE, Orozco-Suárez SA, and Rocha L

Subjects

Animals, Cromolyn Sodium pharmacology, Dentate Gyrus drug effects, Dentate Gyrus pathology, Dentate Gyrus physiopathology, Disease Models, Animal, Hippocampus drug effects, Hippocampus pathology, Hippocampus physiopathology, Male, Neurons drug effects, Neurons physiology, Neuroprotective Agents pharmacology, Neuroprotective Agents therapeutic use, Rats, Rats, Wistar, Status Epilepticus physiopathology, Time Factors, Cromolyn Sodium therapeutic use, Status Epilepticus drug therapy, Status Epilepticus pathology

Abstract

Several studies indicate that sodium cromoglycate (CG) induces neuroprotective effects in acute neurological conditions. The present study focused on investigating if the use of CG in rats during the post-status epilepticus (post-SE) period reduces the acute and long-term consequences of seizure activity. Our results revealed that animals that received a single dose of CG (50 mg/kg s.c.: subcutaneously) during the post-SE period showed a lower number of neurons in the process of dying in the dentate gyrus, hilus, cornu ammonis 1 (CA1), and CA3 of the dorsal hippocampus than the rats that received the vehicle. However, this effect was not evident in layers V-VI of the sensorimotor cortex or the lateral-posterior thalamic nucleus. A second experiment showed that animals that received CG subchronically (50 mg/kg s.c. every 12 h for 5 days followed by 24 mg/kg/day s.c. for 14 days using osmotic minipumps) after SE presented fewer generalized convulsive seizures and less neuronal damage in the lateral-posterior thalamic nucleus but not in the hippocampus or cortex. Our data indicate that CG can be used as a therapeutic strategy to reduce short- and long-term neuronal damage in the hippocampus and thalamus, respectively. The data also indicate that CG can reduce the expression of generalized convulsive spontaneous seizures when it is given during the latent period of epileptogenesis., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

33. Inhibition of Mast Cell Degranulation With Cromolyn Sodium Exhibits Organ-Specific Effects in Polycystic Kidney (PCK) Rats.

Author

Jiang L, Fang P, Septer S, Apte U, and Pritchard MT

Subjects

Animals, Disease Models, Animal, Kidney physiology, Liver physiology, Mast Cells physiology, Rats, Sprague-Dawley, Cell Degranulation drug effects, Cromolyn Sodium pharmacology, Kidney drug effects, Liver drug effects, Mast Cells drug effects, Polycystic Kidney, Autosomal Recessive

Abstract

Autosomal recessive polycystic kidney disease (ARPKD) is a monogenic disease characterized by development of hepatorenal cysts, pericystic fibrosis, and inflammation. Previous studies show that mast cell (MC) mediators such as histamine induce proliferation of cholangiocytes. We observed robust MC accumulation around liver cysts, but not kidney cysts, in polycystic kidney (PCK) rats (an animal model of ARPKD). Therefore, we hypothesized that MCs contribute to hepatic cyst growth in ARPKD. To test this hypothesis, we treated PCK rats with 1 of 2 different MC stabilizers, cromolyn sodium (CS) or ketotifen, or saline. The CS treatment decreased MC degranulation in the liver and reduced serum tryptase (an MC granule component). Interestingly, we observed an increase in liver to body weight ratio after CS treatment paralleled by a significant increase in individual cyst size. Hepatic fibrosis was not affected by CS treatment. The CS treatment increased hepatic cyst wall epithelial cell (CWEC) proliferation and decreased cell death. Ketotifen treatment also increased hepatic cyst size. In vitro, CS treatment did not affect proliferation of isolated hepatic CWECs from PCK rats. In contrast, CS decreased kidney to body weight ratio paralleled by a significant decrease in individual cyst size. The percentage of kidney to body weight ratio was strongly correlated with serum renin (an MC granule component). Ketotifen did not affect kidney cyst growth. Collectively, these data suggest that CS affects hepatic and renal cyst growth differently in PCK rats. Moreover, CS may be beneficial to renal cystic disease but may exacerbate hepatic cyst growth in ARPKD.

Published

2018

34. Design, synthesis, and biological evaluation of 2-substituted-2,3,4,9-tetrahydrospiro-β-carboline-3-carboxylic acid derivatives as first-in-class mast cell stabilizers.

Author

Singh J, Shah R, Singh D, Jaggi AS, and Singh N

Subjects

Animals, Anti-Allergic Agents chemical synthesis, Anti-Allergic Agents chemistry, Carbolines chemical synthesis, Carbolines chemistry, Cromolyn Sodium pharmacology, Inhibitory Concentration 50, Male, Mast Cells metabolism, Rats, Rats, Wistar, Structure-Activity Relationship, Anti-Allergic Agents pharmacology, Carbolines pharmacology, Drug Design, Mast Cells drug effects

Abstract

Mast cell degranulation plays a momentous role in myriad diseases like asthma, eczema, allergic rhinitis, and conjunctivitis as well as anaphylactic shock; hence, there is an unmet need for developing new mast cells stabilizers. The reported mast cell stabilizers have a heterocyclic moiety and an acidic group. Furthermore, the role of tryptophan in suppression of mast cell activation is established. Hence, we prepared constrained analogs of tryptophan, which are derivatives of 2,3,4,9-tetrahydrospiro-β-carboline-3-carboxylic acid, and evaluated them for ex vivo inhibition of compound 48/80-induced mast degranulation activity. By comparing IC 50 (μM) values with that of the standard drug sodium cromoglycate (IC 50  = 0.489 ± 0.003 μM), compounds with bulky groups like heptyl (compound 9; IC 50  = 0.389 ± 0.015 μM) and octyl (compound 10; IC 50  = 0.354 ± 0.023 μM) were found to be of similar potency as sodium cromoglycate. Furthermore, the polar group-containing compounds like the chloropropyl (compound 16; IC 50  = 0.382 ± 0.083 μM) and benzoyl derivative (compound 14; IC 50  = 00.469 ± 0.032 μM) were also found to be of similar potency as sodium cromoglycate. This is a seminal study of spiro-β-carboline mast cell stabilization having a wider scope in mast cell research; yet, the mechanism of action remains elusive., (© 2018 Deutsche Pharmazeutische Gesellschaft.)

Published

2018

35. Four-day pulse of sodium cromoglycate modulates pulmonary vessel wall remodeling during 21-day hypoxia in rats.

Author

Novotný T, Uhlík J, and Vajner L

Subjects

Animals, Extracellular Matrix, Myocytes, Smooth Muscle, Rats, Cromolyn Sodium pharmacology, Hypoxia drug therapy, Pulmonary Artery pathology, Vascular Remodeling drug effects

Abstract

Aim of the Study: Remodeling of pulmonary resistance arteries in rats due to 4-day hypoxia could be successfully suppressed by sodium cromoglycate. In this study, we tested the difference in the suppression between two distinct time patterns of cromoglycate administration during 21-day hypoxia. In the experiment, we focused on some details in both smooth muscle cells and extracellular matrix of pulmonary arterial walls., Methods: During 21-day hypoxia, rats were treated with sodium cromoglycate either in the first four days or in the last four days. The first four days were chosen to test efficiency of an initial pulse of cromoglycate to suppress pulmonary vascular remodeling. The last four-day administration tested possibility to block remodeling post hoc., Results: Initial pulse reduced and modified remodeling in all levels of pulmonary arteries, which comprises neomuscularization of prealveolar arteries, asymmetrical hypertrophy of tunica media in muscular pulmonary arteries and hypertrophy of tunica media and tunica adventitia in large conduit arteries. Terminal pulse had only negligible effect., Conclusions: Only the initial cromoglycate therapy led to significant morphological suppression of remodeling. We therefore assume important role of initial remodeling influencing during long time hypoxia experiment.

Published

2018

36. Cromolyn Reduces Levels of the Alzheimer's Disease-Associated Amyloid β-Protein by Promoting Microglial Phagocytosis.

Author

Zhang C, Griciuc A, Hudry E, Wan Y, Quinti L, Ward J, Forte AM, Shen X, Ran C, Elmaleh DR, and Tanzi RE

Subjects

Alzheimer Disease genetics, Alzheimer Disease metabolism, Alzheimer Disease pathology, Amyloid beta-Peptides antagonists & inhibitors, Amyloid beta-Peptides biosynthesis, Amyloid beta-Protein Precursor genetics, Amyloid beta-Protein Precursor metabolism, Animals, Anti-Asthmatic Agents pharmacology, Brain drug effects, Brain metabolism, Brain pathology, Disease Models, Animal, Drug Combinations, Drug Repositioning, Gene Expression, Humans, Male, Mice, Mice, Transgenic, Microglia cytology, Microglia metabolism, Neurons drug effects, Neurons metabolism, Neurons pathology, Peptide Fragments antagonists & inhibitors, Peptide Fragments biosynthesis, Phagocytosis drug effects, Transgenes, Alzheimer Disease drug therapy, Amyloid beta-Protein Precursor antagonists & inhibitors, Cromolyn Sodium pharmacology, Ibuprofen pharmacology, Microglia drug effects, Neuroprotective Agents pharmacology

Abstract

Amyloid-beta protein (Aβ) deposition is a pathological hallmark of Alzheimer's disease (AD). Aβ deposition triggers both pro-neuroinflammatory microglial activation and neurofibrillary tangle formation. Cromolyn sodium is an asthma therapeutic agent previously shown to reduce Aβ levels in transgenic AD mouse brains after one-week of treatment. Here, we further explored these effects as well as the mechanism of action of cromolyn, alone, and in combination with ibuprofen in APP Swedish -expressing Tg2576 mice. Mice were treated for 3 months starting at 5 months of age, when the earliest stages of β-amyloid deposition begin. Cromolyn, alone, or in combination with ibuprofen, almost completely abolished longer insoluble Aβ species, i.e. Aβ40 and Aβ42, but increased insoluble Aβ38 levels. In addition to its anti-aggregation effects on Aβ, cromolyn, alone, or plus ibuprofen, but not ibuprofen alone, increased microglial recruitment to, and phagocytosis of β-amyloid deposits in AD mice. Cromolyn also promoted Aβ42 uptake in microglial cell-based assays. Collectively, our data reveal robust effects of cromolyn, alone, or in combination with ibuprofen, in reducing aggregation-prone Aβ levels and inducing a neuroprotective microglial activation state favoring Aβ phagocytosis versus a pro-neuroinflammatory state. These findings support the use of cromolyn, alone, or with ibuprofen, as a potential AD therapeutic.

Published

2018

37. Sinomenine-induced histamine release-like anaphylactoid reactions are blocked by tranilast via inhibiting NF-κB signaling.

Author

Huang L, Dong Y, Wu J, Wang P, Zhou H, Li T, and Liu L

Subjects

Acute Lung Injury blood, Acute Lung Injury chemically induced, Acute Lung Injury immunology, Anaphylaxis blood, Anaphylaxis chemically induced, Anaphylaxis immunology, Animals, Anti-Allergic Agents pharmacology, Cetirizine pharmacology, Cetirizine therapeutic use, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use, Female, Histamine blood, Histamine H1 Antagonists pharmacology, Histamine Release drug effects, Interleukin-33 immunology, Leukotriene B4 blood, Lung drug effects, Lung immunology, Mast Cells drug effects, Mast Cells immunology, NF-kappa B immunology, Rats, Sprague-Dawley, Receptors, Histamine H1 immunology, Signal Transduction drug effects, Skin drug effects, Skin immunology, ortho-Aminobenzoates pharmacology, Anaphylaxis drug therapy, Anti-Allergic Agents therapeutic use, Histamine H1 Antagonists therapeutic use, Morphinans, NF-kappa B antagonists & inhibitors, ortho-Aminobenzoates therapeutic use

Abstract

Zhengqing Fengtongning (ZQFTN), the pharmaceutical preparation of sinomenine (SIN) derived from the medicinal plant Sinmenium acutum, is well-known in China as an effective treatment for rheumatoid arthritis (RA). However, its histamine-release anaphylactoid reactions (HRARs) occur often in some patients. Therefore, it is desirable to establish effective clinical protocols to manage such HRARs. In the study, rat models with systemic HRARs and local HRARs of the skin were established. The level of vascular permeability and mast cell numbers was determined by quantitative analysis using Evans blue dye and histological assays. The levels of histamine, leukotriene B4 (LTB4) and IL-33 in plasma were detected by UHPLC-SPE-MS, ELISA and immunohistochemistry assays, respectively. The results demonstrated that SIN significantly induced both systemic and local HRARs in rats, showing significant decrease of body temperature, increases in vascular permeability in skin, injury of lung tissues and mast cell infiltration and IL-33 expression in skin and lung tissues. Mechanistic study showed that tranilast could prevent SIN-triggered HRARs via inhibition of H1 receptor gene expression and NF-κB signaling. Our findings provide evidence that mast cell membrane stabilizers and H1 receptor blockers effectively prevent SIN-induced HRARs, and cromolyn, cetirizine and tranilast can be used in the clinic for the management of HRARs induced by ZQFTN., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

38. Cromolyn chitosan nanoparticles as a novel protective approach for colorectal cancer.

Author

Motawi TK, El-Maraghy SA, ElMeshad AN, Nady OM, and Hammam OA

Subjects

Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Colorectal Neoplasms chemically induced, Colorectal Neoplasms drug therapy, Colorectal Neoplasms pathology, Cromolyn Sodium therapeutic use, Dimethylhydrazines toxicity, Drug Carriers chemistry, Drug Liberation, Lipid Peroxidation drug effects, Male, Particle Size, Proto-Oncogene Proteins c-akt metabolism, Proto-Oncogene Proteins c-bcl-2 metabolism, Rats, Rats, Wistar, Signal Transduction drug effects, beta Catenin metabolism, Chitosan chemistry, Cromolyn Sodium chemistry, Cromolyn Sodium pharmacology, Nanoparticles chemistry

Abstract

Colorectal cancer is the third most common cancer in the world. Cromolyn is a mast cell stabilizer and was proposed as an anticancer agent; however its high polarity limits its bioavailability by rapid washing from the body. We formulated 10 cromolyn chitosan nanoparticles (CCSNPs) 1 following ionic gelation technique to improve its bioavailability and investigated the protective anticancer effect of the optimum formula against colorectal cancer in dimethylhydrazine-induced model in rats. Rats were divided into seven groups, group-1: normal control, group-2: cromolyn control, group-3: CCSNPs control, groups-4 to 7 received dimethylhydrazine for 16 weeks to induce colorectal cancer. Groups-5 to 7 received cromolyn solution, non-medicated chitosan nanoparticles and CCSNPs, respectively as protective treatments. Optimum CCSNPs (size 112.4 nm, charge +39.9 mV, enclosed 93.6% cromolyn and showed a sustained drug release pattern over 48 h) significantly reduced tumor-signaling molecules and the number of aberrant crypt foci compared to dimethylhydrazine. Histopathological examination of colon samples revealed that CCSNPs exerted an augmented protective anticancer effect by ameliorating tumor pathology compared to cromolyn solution. In conclusion, CCSNPs ameliorated tumor pathology and malignant oncogenic signaling molecules in colorectal cancer tissue. Thus, CCSNPs may provide a novel protective approach in colorectal cancer treatment. Moreover, encapsulating cromolyn in chitosan nanoparticles augmented the protective anticancer effect of the drug., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

39. Exploiting a novel conformational switch to control innate immunity mediated by complement protein C3a.

Author

Lohman RJ, Hamidon JK, Reid RC, Rowley JA, Yau MK, Halili MA, Nielsen DS, Lim J, Wu KC, Loh Z, Do A, Suen JY, Iyer A, and Fairlie DP

Subjects

Animals, Anti-Asthmatic Agents pharmacology, Cell Degranulation drug effects, Cells, Cultured, Complement C3a genetics, Complement C3a metabolism, Cromolyn Sodium pharmacology, Humans, Ligands, Macrophages immunology, Male, Mast Cells immunology, Neutrophils immunology, Protein Conformation, Rats, Rats, Wistar, Receptors, Complement agonists, Receptors, Complement antagonists & inhibitors, Complement C3a physiology, Immunity, Innate genetics, Receptors, Complement chemistry

Abstract

Complement C3a is an important protein in innate and adaptive immunity, but its specific roles in vivo remain uncertain because C3a degrades rapidly to form the C3a-desArg protein, which does not bind to the C3a receptor and is indistinguishable from C3a using antibodies. Here we develop the most potent, stable and highly selective small molecule modulators of C3a receptor, using a heterocyclic hinge to switch between agonist and antagonist ligand conformations. This enables characterization of C3 areceptor-selective pro- vs. anti-inflammatory actions in human mast cells and macrophages, and in rats. A C3a receptor-selective agonist induces acute rat paw inflammation by first degranulating mast cells before activating macrophages and neutrophils. An orally administered C3a receptor-selective antagonist inhibits mast cell degranulation, thereby blocking recruitment and activation of macrophages and neutrophils, expression of inflammatory mediators and inflammation in a rat paw edema model. These novel tools reveal the mechanism of C3a-induced inflammation and provide new insights to complement-based medicines.Complement C3a is an important protein in innate and adaptive immunity, but its roles in vivo are unclear. Here the authors develop novel chemical agonists and antagonists for the C3a receptor, and show that they modulate mast cell degranulation and inflammation in a rat paw edema model.

Published

2017

40. Mast cells decrease efficacy of anti-angiogenic therapy by secreting matrix-degrading granzyme B.

Author

Wroblewski M, Bauer R, Cubas Córdova M, Udonta F, Ben-Batalla I, Legler K, Hauser C, Egberts J, Janning M, Velthaus J, Schulze C, Pantel K, Bokemeyer C, and Loges S

Subjects

Animals, Anti-Asthmatic Agents pharmacology, Cell Line, Tumor, Cell Proliferation drug effects, Cromolyn Sodium pharmacology, Endothelial Cells drug effects, Extracellular Matrix drug effects, Extracellular Matrix metabolism, Fibroblast Growth Factor 1 drug effects, Fibroblast Growth Factor 1 metabolism, Fibroblast Growth Factor 2 drug effects, Fibroblast Growth Factor 2 metabolism, Granulocyte-Macrophage Colony-Stimulating Factor drug effects, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, Human Umbilical Vein Endothelial Cells, Laminin metabolism, Mast Cells drug effects, Mice, Neoplasms blood supply, Neoplasms drug therapy, Neovascularization, Pathologic metabolism, Vascular Endothelial Growth Factor A drug effects, Vascular Endothelial Growth Factor A metabolism, Vascular Endothelial Growth Factor Receptor-2 drug effects, Vascular Endothelial Growth Factor Receptor-2 metabolism, Vitronectin metabolism, Angiogenesis Inhibitors pharmacology, Endothelial Cells metabolism, Granzymes metabolism, Mast Cells metabolism

Abstract

Resistance towards VEGF-centered anti-angiogenic therapy still represents a substantial clinical challenge. We report here that mast cells alter the proliferative and organizational state of endothelial cells which reduces the efficacy of anti-angiogenic therapy. Consequently, absence of mast cells sensitizes tumor vessels for anti-angiogenic therapy in different tumor models. Mechanistically, anti-angiogenic therapy only initially reduces tumor vessel proliferation, however, this treatment effect was abrogated over time as a result of mast cell-mediated restimulation of angiogenesis. We show that mast cells secrete increased amounts of granzyme b upon therapy, which mobilizes pro-angiogenic laminin- and vitronectin-bound FGF-1 and GM-CSF from the tumor matrix. In addition, mast cells also diminish efficacy of anti-angiogenic therapy by secretion of FGF-2. These pro-angiogenic factors act beside the targeted VEGFA-VEGFR2-axis and reinduce endothelial cell proliferation and angiogenesis despite the presence of anti-angiogenic therapy. Importantly, inhibition of mast cell degranulation with cromolyn is able to improve efficacy of anti-angiogenic therapy. Thus, concomitant mast cell-targeting might lead to improved efficacy of anti-angiogenic therapy.Resistance towards VEGF-centered anti-angiogenic therapy is an important clinical challenge. Here, the authors show that mast cells mediate resistance to anti-angiogenetic inhibitors by altering the proliferative and organizational state of endothelial cells through mobilization of FGF-1 and GM-CSF from the tumor matrix and secretion of FGF-2.

Published

2017

41. Identification of a small molecule that facilitates the differentiation of human iPSCs/ESCs and mouse embryonic pancreatic explants into pancreatic endocrine cells.

Author

Kondo Y, Toyoda T, Ito R, Funato M, Hosokawa Y, Matsui S, Sudo T, Nakamura M, Okada C, Zhuang X, Watanabe A, Ohta A, Inagaki N, and Osafune K

Subjects

Animals, Bone Morphogenetic Protein 4 metabolism, Cromolyn Sodium pharmacology, Embryonic Stem Cells drug effects, Embryonic Stem Cells metabolism, Homeodomain Proteins metabolism, Humans, Induced Pluripotent Stem Cells metabolism, Insulin-Secreting Cells cytology, Insulin-Secreting Cells drug effects, Insulin-Secreting Cells metabolism, Male, Mice, Pancreas cytology, Pancreas metabolism, Trans-Activators metabolism, Cell Differentiation drug effects, Induced Pluripotent Stem Cells cytology, Induced Pluripotent Stem Cells drug effects

Abstract

Aims/hypothesis: Pancreatic beta-like cells generated from human induced pluripotent stem cells (hiPSCs) or human embryonic stem cells (hESCs) offer an appealing donor tissue source. However, differentiation protocols that mainly use growth factors are costly. Therefore, in this study, we aimed to establish efficient differentiation protocols to change hiPSCs/hESCs to insulin (INS) + cells using novel small-molecule inducers., Methods: We screened small molecules that increased the induction rate of INS + cells from hESC-derived pancreatic and duodenal homeobox 1 (PDX1) + pancreatic progenitor cells. The differentiation protocol to generate INS + cells from hiPSCs/hESCs was optimised using hit compounds, and INS + cells induced with the compounds were characterised for their in vitro and in vivo functions. The inducing activity of the hit compounds was also examined using mouse embryonic pancreatic tissues in an explant culture system. Finally, RNA sequencing analyses were performed on the INS + cells to elucidate the mechanisms of action by which the hit compounds induced pancreatic endocrine differentiation., Results: One hit compound, sodium cromoglicate (SCG), was identified out of approximately 1250 small molecules screened. When SCG was combined with a previously described protocol, the induction rate of INS + cells increased from a mean ± SD of 5.9 ± 1.5% (n = 3) to 16.5 ± 2.1% (n = 3). SCG induced neurogenin 3-positive cells at a mean ± SD of 32.6 ± 4.6% (n = 3) compared with 14.2 ± 3.6% (n = 3) for control treatment without SCG, resulting in an increased generation of endocrine cells including insulin-producing cells. Similar induction by SCG was confirmed using mouse embryonic pancreatic explants. We also confirmed that the mechanisms of action by which SCG induced pancreatic endocrine differentiation included the inhibition of bone morphogenetic protein 4 signalling., Conclusions/interpretation: SCG improves the generation of pancreatic endocrine cells from multiple hiPSC/hESC lines and mouse embryonic pancreatic explants by facilitating the differentiation of endocrine precursors. This discovery will contribute to elucidating the mechanisms of pancreatic endocrine development and facilitate cost-effective generation of INS + cells from hiPSCs/hESCs., Data Availability: The RNA sequencing data generated during the current study are available in the Gene Expression Omnibus ( www.ncbi.nlm.nih.gov/geo ) with series accession number GSE89973.

Published

2017

42. Mast cells mediate early neutrophil recruitment and exhibit anti-inflammatory properties via the formyl peptide receptor 2/lipoxin A 4 receptor.

Author

Hughes EL, Becker F, Flower RJ, Buckingham JC, and Gavins FNE

Subjects

Animals, Annexin A1 chemistry, Annexin A1 pharmacology, Anti-Inflammatory Agents chemistry, Cromolyn Sodium chemistry, Cromolyn Sodium pharmacology, Endothelial Cells drug effects, Intravital Microscopy, Lipopolysaccharides chemistry, Lipopolysaccharides pharmacology, Male, Mice, Mice, Inbred C57BL, Neutrophils drug effects, Peptides chemistry, Peptides pharmacology, Anti-Inflammatory Agents pharmacology, Mast Cells drug effects, Mast Cells metabolism, Neutrophil Infiltration drug effects, Receptors, Formyl Peptide metabolism

Abstract

Background and Purpose: In recent years, studies have focused on the resolution of inflammation, which can be achieved by endogenous anti-inflammatory agonists such as Annexin A1 (AnxA1). Here, we investigated the effects of mast cells (MCs) on early LPS-induced neutrophil recruitment and the involvement of the AnxA1-formyl peptide receptor 2/ALX (FPR2/ALX or lipoxin A 4 receptor) pathway., Experimental Approach: Intravital microscopy (IVM) was used to visualize and quantify the effects of LPS (10 μg per mouse i.p.) on murine mesenteric cellular interactions. Furthermore, the role that MCs play in these inflammatory responses was determined in vivo and in vitro, and effects of AnxA1 mimetic peptide Ac2-26 were assessed., Key Results: LPS increased both neutrophil endothelial cell interactions within the mesenteric microcirculation and MC activation (determined by IVM and ruthenium red dye uptake), which in turn lead to the early stages of neutrophil recruitment. MC recruitment of neutrophils could be blocked by preventing the pro-inflammatory activation (using cromolyn sodium) or enhancing an anti-inflammatory phenotype (using Ac2-26) in MCs. Furthermore, MCs induced neutrophil migration in vitro, and MC stabilization enhanced the release of AnxA1 from neutrophils. Pharmacological approaches (such as the administration of FPR pan-antagonist Boc2, or the FPR2/ALX antagonist WRW4) revealed neutrophil FPR2/ALX to be important in this process., Conclusions and Implications: Data presented here provide evidence for a role of MCs, which are ideally positioned in close proximity to the vasculature, to act as sentinel cells in neutrophil extravasation and resolution of inflammation via the AnxA1-FPR2/ALX pathway., (© 2017 The British Pharmacological Society.)

Published

2017

43. Cromolyn Sodium Attenuates Paraquat-Induced Lung Injury by Modulation of Proinflammatory Cytokines.

Author

Harchegani AL, Hemmati AA, Nili-Ahmadabadi A, Darabi B, and Shabib S

Subjects

Acute Lung Injury, Animals, Female, Inflammation metabolism, Interleukin-1beta metabolism, Interleukin-6 metabolism, Lung drug effects, Lung metabolism, Lung Injury metabolism, Pulmonary Edema drug therapy, Pulmonary Edema metabolism, Rats, Rats, Wistar, Tumor Necrosis Factor-alpha metabolism, Cromolyn Sodium pharmacology, Cytokines metabolism, Inflammation drug therapy, Lung Injury chemically induced, Lung Injury drug therapy, Paraquat pharmacology

Abstract

The current study aimed to investigate the effects of Cromolyn Sodium (CS) on proinflammatory cytokines in Paraquat (PQ)-induced lung damage in rat. Animals were randomly divided into 5 groups. Group 1 and 2 received nebulized vehicle and CS (8 mg/kg) for 3 consecutive weeks, respectively. Group 3 was treated with single oral dose of PQ (40 mg/kg). Groups 4 and 5 were PQ groups which received nebulized CS (6 and 8 mg/kg/day, respectively) from 1 week before to 2 weeks after PQ administration. Finally, the animals were scarified and the changes of hydroxyproline (HP) and histology were evaluated in lung tissue. In addition, IL-1β, TNF-α and IL-8 levels were determined in serum samples. The results showed that lung HP level as well as IL-1β, TNF-α and IL-8 were significantly lower in the CS treated rats as compared to PQ group. The best response, however, was observed with the 8 mg/kg of CS as confirmed by histology findings. This study suggests that CS may prevent progression of PQ-induced lung damage by decreasing of inflammatory cytokines., Competing Interests: Conflict of Interest: The authors declare that there is no conflict of interest., (© Georg Thieme Verlag KG Stuttgart · New York.)

Published

2017

44. [ROLE OF MAST CELLS IN BRONCHIAL CONTRACTION IN NONALLERGIC OBSTRUCTIVE LUNG PATHOLOGY].

Author

Kuzubova NA, Fedin AN, Lebedeva ES, and Titova ON

Subjects

Adenosine pharmacology, Animals, Anti-Asthmatic Agents pharmacology, Bronchi drug effects, Bronchi innervation, Bronchi metabolism, Bronchoconstriction drug effects, Cromolyn Sodium pharmacology, Electric Stimulation, Histamine metabolism, Isometric Contraction drug effects, Male, Mast Cells drug effects, Mast Cells metabolism, Muscle, Smooth drug effects, Muscle, Smooth innervation, Muscle, Smooth metabolism, Nitrogen Dioxide administration & dosage, Pulmonary Disease, Chronic Obstructive chemically induced, Pulmonary Disease, Chronic Obstructive drug therapy, Pulmonary Disease, Chronic Obstructive metabolism, Rats, Rats, Wistar, Tissue Culture Techniques, Bronchi pathology, Cell Degranulation drug effects, Mast Cells pathology, Muscle, Smooth pathology, Pulmonary Disease, Chronic Obstructive pathology

Abstract

In model of chronic obstructive pulmonary disease induced in rats by 60-day intermittent exposure to nitrogen dioxide mast cells participation in the mechanism of bronchial smooth muscle contractile activity patterns was evaluated. Since the 31st day, one group of rats was inhaled with sodium cromoglycate every day before the nitrogen dioxide exposure to stabilize the mast cell membrane. The other group (control) hasn’t been treated. Isometric contraction of the bronchial isolated preparations in response to nerve or smooth muscle stimulation were determined. Inhibition of mast cell degranulation and the release of endogenous histamine by stabilizing cell membranes prevented the development of bronchial smooth muscle hyperactivity caused by prolonged inhalation of nitrogen dioxide. It is believed that a mechanism to increase the contractile activity of the bronchial wall smooth muscles is mediated by activation of the transmembrane adenosine receptor in resident mast cells, leading to their partial degranulation with release of histamine, acting on the histamine Hl-receptors with the launch of reflex pathways through intramural ganglion neurons.

Published

2017

45. Role of mast cells in bronchial contraction in nonallergic obstructive lung pathology.

Author

Kuzubova NA, Lebedeva ES, Titova ON, Fedin AN, and Dvorakovskaya IV

Subjects

Adenosine, Animals, Bronchi cytology, Bronchial Hyperreactivity chemically induced, Bronchial Hyperreactivity physiopathology, Bronchoconstriction drug effects, Cell Degranulation drug effects, Cromolyn Sodium pharmacology, Cromolyn Sodium therapeutic use, Disease Models, Animal, Histamine, In Vitro Techniques, Male, Pulmonary Disease, Chronic Obstructive drug therapy, Rats, Wistar, Receptors, Purinergic P1 metabolism, Bronchoconstriction physiology, Mast Cells physiology, Myocytes, Smooth Muscle physiology, Pulmonary Disease, Chronic Obstructive physiopathology

Abstract

The role of mast cells in contractile bronchial smooth muscle activity has been evaluated in a model of chronic obstructive pulmonary disease induced in rats that were intermittently exposed to nitrogen dioxide (NO 2 ) for 60 days. Starting from the 31st day, one group of rats inhaled sodium cromoglycate before exposure to NO 2 to stabilize mast cell membranes. The second group (control) was not treated. Isometric smooth muscle contraction was analysed in isolated bronchial samples in response to nerve and smooth muscle stimulation. Histological analysis revealed large numbers of mast cells in lung tissue of COPD model rats. The inhibition of mast cell degranulation by sodium cromoglycate prevented the development of nerve-stimulated bronchial smooth muscle hyperactivity in COPD model rats. Histamine or adenosine-induced hyperactivity on nerve stimulation was also inhibited by sodium cromoglycate in bronchial smooth muscle in both control and COPD model rats. This suggests that the mechanism of contractile activity enhancement of bronchial wall smooth muscle cells may be mediated through the activation of resident mast cells transmembrane adenosine receptors resulting in their partial degranulation, with the released histamine acting upon histamine H1-receptors which trigger reflex pathways via intramural ganglion neurons.

Published

2017

46. Evidence for the Role of Mast Cells in Cystitis-Associated Lower Urinary Tract Dysfunction: A Multidisciplinary Approach to the Study of Chronic Pelvic Pain Research Network Animal Model Study.

Author

Wang X, Liu W, O'Donnell M, Lutgendorf S, Bradley C, Schrepf A, Liu L, Kreder K, and Luo Y

Subjects

Animals, Autoimmune Diseases etiology, Autoimmune Diseases immunology, Autoimmune Diseases metabolism, Behavior, Animal physiology, CD8-Positive T-Lymphocytes cytology, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes metabolism, Cells, Cultured, Cromolyn Sodium pharmacology, Cystitis, Interstitial immunology, Cystitis, Interstitial metabolism, Cytokines genetics, Cytokines metabolism, Disease Models, Animal, Mast Cells cytology, Mast Cells immunology, Mice, Mice, Inbred C57BL, Mice, Transgenic, Ovalbumin immunology, Pelvic Pain immunology, Pelvic Pain metabolism, Proto-Oncogene Proteins c-kit deficiency, Proto-Oncogene Proteins c-kit genetics, RNA, Messenger metabolism, Urinary Bladder drug effects, Urinary Bladder metabolism, Urinary Bladder pathology, Cystitis, Interstitial etiology, Mast Cells metabolism, Pelvic Pain etiology

Abstract

Bladder inflammation frequently causes cystitis pain and lower urinary tract dysfunction (LUTD) such as urinary frequency and urgency. Although mast cells have been identified to play a critical role in bladder inflammation and pain, the role of mast cells in cystitis-associated LUTD has not been demonstrated. Interstitial cystitis/bladder pain syndrome (IC/BPS) is a chronic and debilitating inflammatory condition of the urinary bladder characterized by the hallmark symptoms of pelvic pain and LUTD. In this study we investigated the role of mast cells in LUTD using a transgenic autoimmune cystitis model (URO-OVA) that reproduces many clinical correlates of IC/BPS. URO-OVA mice express the membrane form of the model antigen ovalbumin (OVA) as a self-antigen on the urothelium and develop bladder inflammation upon introduction of OVA-specific T cells. To investigate the role of mast cells, we crossed URO-OVA mice with mast cell-deficient KitW-sh mice to generate URO-OVA/KitW-sh mice that retained urothelial OVA expression but lacked endogenous mast cells. We compared URO-OVA mice with URO-OVA/KitW-sh mice with and without mast cell reconstitution in response to cystitis induction. URO-OVA mice developed profound bladder inflammation with increased mast cell counts and LUTD, including increased total number of voids, decreased mean volume voided per micturition, and decreased maximum volume voided per micturition, after cystitis induction. In contrast, similarly cystitis-induced URO-OVA/KitW-sh mice developed reduced bladder inflammation with no mast cells and LUTD detected. However, after mast cell reconstitution URO-OVA/KitW-sh mice restored the ability to develop bladder inflammation and LUTD following cystitis induction. We further treated URO-OVA mice with cromolyn, a mast cell membrane stabilizer, and found that cromolyn treatment reversed bladder inflammation and LUTD in the animal model. Our results provide direct evidence for the role of mast cells in cystitis-associated LUTD, supporting the use of mast cell inhibitors for treatment of certain forms of IC/BPS., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

47. Contribution of mast cells to injury mechanisms in a mouse model of pediatric traumatic brain injury.

Author

Moretti R, Chhor V, Bettati D, Banino E, De Lucia S, Le Charpentier T, Lebon S, Schwendimann L, Pansiot J, Rasika S, Degos V, Titomanlio L, Gressens P, and Fleiss B

Subjects

Animals, Brain Contusion pathology, Caspase 3 biosynthesis, Caspase 3 genetics, Cell Death drug effects, Cells, Cultured, Child, Preschool, Cromolyn Sodium pharmacology, Disease Models, Animal, Histamine pharmacology, Humans, Infant, Mice, Mice, Inbred C57BL, Microglia drug effects, Microglia metabolism, Neural Stem Cells, Neurons drug effects, Neurons metabolism, Proto-Oncogene Proteins c-kit genetics, Receptors, Histamine metabolism, Brain Injuries, Traumatic pathology, Mast Cells pathology

Abstract

The cognitive and behavioral deficits caused by traumatic brain injury (TBI) to the immature brain are more severe and persistent than injuries to the adult brain. Understanding this developmental sensitivity is critical because children under 4 years of age of sustain TBI more frequently than any other age group. One of the first events after TBI is the infiltration and degranulation of mast cells (MCs) in the brain, releasing a range of immunomodulatory substances; inhibition of these cells is neuroprotective in other types of neonatal brain injury. This study investigates for the first time the role of MCs in mediating injury in a P7 mouse model of pediatric contusion-induced TBI. We show that various neural cell types express histamine receptors and that histamine exacerbates excitotoxic cell death in primary cultured neurons. Cromoglycate, an inhibitor of MC degranulation, altered the inflammatory phenotype of microglia activated by TBI, reversing several changes but accentuating others, when administered before TBI. However, without regard to the time of cromoglycate administration, inhibiting MC degranulation did not affect cell loss, as evaluated by ventricular dilatation or cleaved caspase-3 labeling, or the density of activated microglia, neurons, or myelin. In double-heterozygous cKit mutant mice lacking MCs, this overall lack of effect was confirmed. These results suggest that the role of MCs in this model of pediatric TBI is restricted to subtle effects and that they are unlikely to be viable neurotherapeutic targets. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

48. Mast cells and histamine are triggering the NF-κB-mediated reactions of adult and aged perilymphatic mesenteric tissues to acute inflammation.

Author

Nizamutdinova IT, Dusio GF, Gasheva OY, Skoog H, Tobin R, Peddaboina C, Meininger CJ, Zawieja DC, Newell-Rogers MK, and Gashev AA

Subjects

Animals, Cromolyn Sodium pharmacology, Inflammation chemically induced, Inflammation Mediators metabolism, Lipopolysaccharides, Lymphatic Vessels metabolism, Male, Mesentery metabolism, Peritoneal Diseases chemically induced, Rats, Rats, Inbred F344, Cytokines metabolism, Histamine metabolism, Inflammation metabolism, Mast Cells metabolism, NF-kappa B metabolism, Peritoneal Diseases metabolism

Abstract

This study aimed to establish mechanistic links between the aging-associated changes in the functional status of mast cells and the altered responses of mesenteric tissue and mesenteric lymphatic vessels (MLVs) to acute inflammation. We used an in vivo model of acute peritoneal inflammation induced by lipopolysaccharide treatment of adult (9-month) and aged (24-month) F-344 rats. We analyzed contractility of isolated MLVs, mast cell activation, activation of nuclear factor-κB (NF-κB) without and with stabilization of mast cells by cromolyn or blockade of all types of histamine receptors and production of 27 major pro-inflammatory cytokines in adult and aged perilymphatic mesenteric tissues and blood. We found that the reactivity of aged contracting lymphatic vessels to LPS-induced acute inflammation was abolished and that activated mast cells trigger NF-κB signaling in the mesentery through release of histamine. The aging-associated basal activation of mesenteric mast cells limits acute inflammatory NF-κB activation in aged mesentery. We conclude that proper functioning of the mast cell/histamine/NF-κB axis is necessary for reactions of the lymphatic vessels to acute inflammatory stimuli as well as for interaction and trafficking of immune cells near and within the collecting lymphatics., Competing Interests: Authors declare no conflict of interest of any type.

Published

2016

49. Disodium cromoglycate inhibits asthma-like features induced by sphingosine-1-phosphate.

Author

Roviezzo F, Sorrentino R, Iacono VM, Brancaleone V, Terlizzi M, Riemma MA, Bertolino A, Rossi A, Matteis M, Spaziano G, Pinto A, D'Agostino B, and Cirino G

Subjects

Administration, Cutaneous, Animals, Asthma blood, B-Lymphocytes drug effects, B-Lymphocytes metabolism, Bronchi drug effects, Bronchi metabolism, Female, Humans, Immunoglobulin E blood, Mast Cells drug effects, Mast Cells metabolism, Mice, Mice, Inbred BALB C, Pneumonia blood, Pneumonia drug therapy, Pneumonia metabolism, Receptors, IgE metabolism, Sphingosine metabolism, T-Lymphocytes drug effects, T-Lymphocytes metabolism, Asthma drug therapy, Asthma metabolism, Cromolyn Sodium pharmacology, Lysophospholipids metabolism, Sphingosine analogs & derivatives

Abstract

Compelling evidence suggests the involvement of sphingosine-1-phosphate (S1P) in the pathogenesis of asthma. The systemic administration of S1P causes asthma like features in the mouse involving mast cells. In this study we investigated whether disodium cromoglycate (DSCG), administered as a preventative treatment as in human therapy, could affect S1P effects on airways. BALB/c mice, treated with DSCG, received subcutaneous administration of S1P. Bronchi and pulmonary tissues were collected and functional, molecular and cellular studies were performed. DSCG inhibited S1P-induced airway hyper-reactivity as well as pulmonary inflammation. DSCG decreased the recruitment of solely mast cells and B cells in the lung. IgE serum levels, prostaglandin D 2 , mucus production and IL-13 were also reduced when mice were pretreated with DSCG. S1P induced pulmonary expression of CD23 on T and B cells, that was reversed by DSCG. Conversely, S1P failed to upregulate CD23 in mast cell-deficient Kit W-sh/W-sh mice. In conclusion we have shown that DSCG inhibits S1P-induced asthma like features in the mouse. This beneficial effect is due to a regulatory action on mast cell activity, and in turn to an inhibition of IgE-dependent T and B cells responses., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

50. Interpreting the behavior of concentration-response curves of hyaluronidase inhibitors under DMSO-perturbed assay conditions.

Author

Tomohara K, Ito T, Onikata S, Furusawa K, Kato A, and Adachi I

Subjects

Chondroitin Sulfates chemical synthesis, Chondroitin Sulfates chemistry, Chondroitin Sulfates pharmacology, Cromolyn Sodium chemical synthesis, Cromolyn Sodium chemistry, Cromolyn Sodium pharmacology, Dose-Response Relationship, Drug, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors chemistry, Flavonoids chemical synthesis, Flavonoids chemistry, Flavonoids pharmacology, Glycyrrhizic Acid chemical synthesis, Glycyrrhizic Acid chemistry, Glycyrrhizic Acid pharmacology, Hyaluronoglucosaminidase metabolism, Molecular Structure, Structure-Activity Relationship, Dimethyl Sulfoxide chemistry, Enzyme Inhibitors pharmacology, Hyaluronoglucosaminidase antagonists & inhibitors

Abstract

Hyaluronan-degrading enzyme (hyaluronidase) is involved in tumor growth and inflammation, and as such, hyaluronidase inhibitors have received recent attention as potential therapeutics. The previous studies have successfully discovered a wide range of inhibitors, but unfortunately most of them are dissimilar to original ligand hyaluronan and the mode of action is poorly understood. The present study mechanistically characterized these structurally unrelated inhibitors by interpreting the behavior of concentration-response curves under several in vitro assay conditions. Detergent-addition conditions definitely identified aggregation-based inhibitors. Subsequently, DMSO-perturbed conditions, though preliminary, highlighted the inhibitors that might bind to enzyme non-specifically. Here, an intriguing implication of the latter description is that DMSO-perturbed conditions would generate non-productive but not-denatured enzyme that is an assembly of effective species to capture non-specific binding molecules, and thereby would attenuate their inhibitory activities., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016