Your search keyword '"Kallikrein-Kinin System"' showing total 1,242 results

101. Crosstalk between the renin–angiotensin, complement and kallikrein–kinin systems in inflammation

Author

Ingrid Lopatko Fagerström, Diana Karpman, Michael Bader, and Zivile Békássy

Subjects

History, Kallikrein-Kinin System, Inflammation, Review Article, Inflammatory diseases, Systemic inflammation, Education, Renin-Angiotensin System, Renin–angiotensin system, Humans, Medicine, business.industry, COVID-19, Thrombosis, Chemotaxis, Complement System Proteins, medicine.disease, Computer Science Applications, Complement system, Complement cascade, Crosstalk (biology), Coagulation, Hereditary angioedema, Immunology, medicine.symptom, business

Abstract

During severe inflammatory and infectious diseases, various mediators modulate the equilibrium of vascular tone, inflammation, coagulation and thrombosis. This Review describes the interactive roles of the renin–angiotensin system, the complement system, and the closely linked kallikrein–kinin and contact systems in cell biological functions such as vascular tone and leakage, inflammation, chemotaxis, thrombosis and cell proliferation. Specific attention is given to the role of these systems in systemic inflammation in the vasculature and tissues during hereditary angioedema, cardiovascular and renal glomerular disease, vasculitides and COVID-19. Moreover, we discuss the therapeutic implications of these complex interactions, given that modulation of one system may affect the other systems, with beneficial or deleterious consequences., The renin–angiotensin, complement and kallikrein–kinin systems comprise a multitude of mediators that modulate physiological responses during inflammatory and infectious diseases. This Review investigates the complex interactions between these systems and how these are dysregulated in various conditions, including cardiovascular diseases and COVID-19, as well as their therapeutic implications.

Published

2021

102. Oral FXIIa inhibitor KV998086 suppresses FXIIa and single chain FXII mediated kallikrein kinin system activation.

Author

Clermont AC, Murugesan N, Edwards HJ, Lee DK, Bayliss NP, Duckworth EJ, Pethen SJ, Hampton SL, Gailani D, and Feener EP

Abstract

Background: The kallikrein kinin system (KKS) is an established pharmacological target for the treatment and prevention of attacks in hereditary angioedema (HAE). Proteolytic activities of FXIIa and single-chain Factor XII (FXII) zymogen contribute to KKS activation and thereby may play roles in both initiating and propagating HAE attacks. In this report, we investigated the effects of potent small molecule FXIIa inhibitors on FXIIa and single chain FXII enzymatic activities, KKS activation, and angioedema in mice. Methods: We examined the effects of 29 structurally distinct FXIIa inhibitors on enzymatic activities of FXIIa and a mutant single chain FXII with R334A, R343A and R353A substitutions (rFXII-T), that does not undergo zymogen conversion to FXIIa, using kinetic fluorogenic substrate assays. We examined the effects of a representative FXIIa inhibitor, KV998086, on KKS activation and both carrageenan- and captopril-induced angioedema in mice. Results: FXIIa inhibitors designed to target its catalytic domain also potently inhibited the enzymatic activity of rFXII-T and the pIC 50 s of these compounds linearly correlated for rFXIIa and rFXII-T ( R 2 = 0.93). KV998086, a potent oral FXIIa inhibitor (IC 50 = 7.2 nM) inhibited dextran sulfate (DXS)-stimulated generation of plasma kallikrein and FXIIa, and the cleavage of high molecular weight kininogen (HK) in human plasma. KV998086 also inhibited rFXII-T mediated HK cleavage ( p < 0.005) in plasma from FXII knockout mice supplemented with rFXII-T and stimulated with polyphosphate or DXS. Orally administered KV998086 protected mice from 1) captopril-induced Evans blue leakage in colon and laryngotracheal tissues and 2) blocked carrageenan-induced plasma HK consumption and paw edema. Conclusion: These findings show that small molecule FXIIa inhibitors, designed to target its active site, also inhibit the enzymatic activity of FXII zymogen. Combined inhibition of FXII zymogen and FXIIa may thereby suppress both the initiation and amplification of KKS activation that contribute to hereditary angioedema attacks and other FXII-mediated diseases., Competing Interests: AC, NM, HE, DL, NB, SP, SH, and EF are employees of KalVista Pharmaceuticals. ED was an employee of KalVista Pharmaceuticals at the time of the study. DG has received consultants fees from Anthos Therapeutics, Bristol-Myers Squibb, Ionis, and Janssen., (Copyright © 2023 Clermont, Murugesan, Edwards, Lee, Bayliss, Duckworth, Pethen, Hampton, Gailani and Feener.)

Published

2023

103. Quantitative detection of RAS and KKS peptides in COVID-19 patient serum by stable isotope dimethyl labeling LC-MS.

Author

Ahiadu BK, Ellis T, Graichen A, Kremer RB, and Rusling JF

Subjects

Humans, Kallikrein-Kinin System, Chromatography, Liquid, Serum, Tandem Mass Spectrometry, Peptides, Formaldehyde, Isotopes, Renin-Angiotensin System, COVID-19 diagnosis

Abstract

Angiotensin and kinin metabolic pathways are reported to be altered by many diseases, including COVID-19. Monitoring levels of these peptide metabolites is important for understanding mechanisms of disease processes. In this paper, we report dimethyl labeling of amines in peptides by addition of formaldehyde to samples and deutero-formaldehyde to internal standards to generate nearly identical isotopic standards with 4 m / z units larger per amine group than the corresponding analyte. We apply this approach to rapid, multiplexed, absolute LC-MS/MS quantitation of renin angiotensin system (RAS) and kallikrein-kinin system (KKS) peptides in human blood serum. Limits of detection (LODs) were obtained in the low pg mL -1 range with 3 orders of magnitude dynamic ranges, appropriate for determinations of normal and elevated levels of the target peptides in blood serum and plasma. Accuracy is within ±15% at concentrations above the limit of quantitation, as validated by spike-recovery in serum samples. Applicability was demonstrated by measuring RAS and KKS peptides in serum from COVID-19 patients, but is extendable to any class of peptides or other small molecules bearing reactive -NH 2 groups.

Published

2023

104. In vitro reconstitution of kallikrein-kinin system and progress curve analysis

Author

Bertrand Favier, Dominique J. Bicout, Rémi Baroso, Marie-Hélène Paclet, and Christian Drouet

Subjects

Enzyme Precursors, Kininogen, High-Molecular-Weight, Kallikrein-Kinin System, Dextran Sulfate, Ice, Prekallikrein, Biophysics, Reproducibility of Results, Cell Biology, Bradykinin, Biochemistry, Factor XII, Serine, Humans, Molecular Biology

Abstract

Human kallikrein-kinin system (KKS) is a proteolytic cascade with two serine-protease zymogen couples (Factor XII and prekallikrein (PK) and their activated forms, FXIIa, PKa, respectively), releasing bradykinin by cleavage of native high-molecular-weight kininogen (nHK) into cleaved HK. For KKS investigation in human plasma, this cascade is usually triggered on ice eventually by mixing with purified proteins. It has been established that purified FXIIa, PK, and nHK required a fixed order and timing for mixing protein on ice to ensure reproducibility of testing, we investigated the activation kinetics of both enzymes. The activation process of this in vitro minimal reconstitution of KKS was studied by progress curve analysis, in condition of high enzyme/substrate ratio and by using on natural rather than peptide substrates. FXIIa and PKa were found five-times less active on ice than at 37°C: kcat = 0.133 ± 0.034 and 0.0119 ± 0.0027 s−1, KM = 672 ± 150 and 115 ± 24 nM, respectively. The progress curve analysis of our in vitro KKS reconstitutions differed from a Michaelis–Menten mathematical simulation by a faster initial rate and a slower late rate. These two features were also observed ex vivo by using dextran sulfate-activated plasma and could reinforce the hypothesis of a maximal local effect (bradykinin release) and a minimal systemic consequence (PK preservation) in KKS activation process. Analyzing the complete curve of cold KKS activation would provide valuable information for ex vivo investigation of KKS in samples from patients presenting with hereditary angioedema and other inflammatory conditions.

Published

2022

105. Bradykinin receptor in immune-mediated renal tubular injury in trichloroethylene-sensitized mice: Impact on NF-κB signaling pathway.

Author

Yang, Ling, Zhang, Jiaxiang, Li, Na, Xie, Haibo, Chen, Shuangping, Wang, Hui, Shen, Tong, and Zhu, Qi-xing

Subjects

*TRICHLOROETHYLENE, *SKIN diseases, *BRADYKININ, *ANIMAL models in research, *EPITHELIAL cells

Abstract

Trichloroethylene (TCE) is known to induce skin disorders and multi-system dysfunction, but the mechanism of this multi-organ injury is not entirely clear. It was shown in a previous study that levels of pivotal end-products of the kallikrein-kinin system (KKS), i.e. bradykinin (BK) and BK receptors B1R/B2R, in the kidneys were increased by TCE exposure. Unfortunately, how BK and its receptors acted in the etiology of the induced renal injury is not clear. Thus, this study explored any correlation between BK receptors and immune renal injury in TCE-sensitized mice by blocking the BK receptors B1R/B2R. BALB/c mice were sensitized (via skin) by TCE, with or without pre-treatment with a B1R or B2R antagonist. Renal lesions, increased expressions of B1R, B2R, Kim-1, Lipocalin-2, and NF-κB p65 subunit on tubular epithelial cells were all observed in TCE-sensitized mice. Serum levels of creatinine (Cr), microglobulin α1 and β2, along with mRNA levels for inflammatory cytokines and NF- κB p65 in kidneys, were all increased by 72 h after a final challenge. Highly selective antagonist pre-treatment blocked B2R and significantly attenuated TCE-induced changes. Blocking B1R or B2R attenuated release of pro-inflammatory cytokines and activation of NF-κB signaling pathway (as reflected in lower up-regulation of pIκB and nuclear NF-κB p65 subunit, and down-regulation of IκB in the kidneys. These results provided evidence that TCE-sensitization caused KKS activation and enhanced the expression of B1R and B2R on tubular epithelial cells. This, in turn, accelerated NF-κB signaling pathway activation and amplified inflammatory cytokine release, which all likely contributed to TCE-induced immune renal injury. [ABSTRACT FROM AUTHOR]

Published

2018

106. Factor XII in coagulation, inflammation and beyond.

Author

Didiasova, Miroslava, Wujak, Lukasz, Schaefer, Liliana, and Wygrecka, Malgorzata

Subjects

*INFLAMMATION, *PROTEOLYTIC enzymes, *ZYMOGENS, *BLOOD coagulation, *KALLIKREIN, *FIBRINOLYSIS

Abstract

Abstract Factor XII (FXII) is a protease that is mainly produced in the liver and circulates in plasma as a single chain zymogen. Following contact with negatively charged surfaces, FXII is converted into the two-chain active form, FXIIa. FXIIa initiates the intrinsic blood coagulation pathway via activation of factor XI. Furthermore, it converts plasma prekallikrein to kallikrein (PK), which reciprocally activates FXII and liberates bradykinin from high molecular weight kininogen. In addition, FXIIa initiates fibrinolysis via PK-mediated urokinase activation and activates the classical complement pathway. Even though the main function of FXII seems to relate to the activation of the intrinsic coagulation pathway and the kallikrein-kinin system, a growing body of evidence suggests that FXII may also directly regulate cellular responses. In this regard, it has been found that FXII/FXIIa induces the expression of inflammatory mediators, promotes cell proliferation, and enhances the migration of neutrophils and lung fibroblasts. In addition, it has been reported that genetic ablation of FXII protects against neuroinflammation, reduces the formation of atherosclerotic lesions in Apoe −/− mice, improves wound healing, and inhibits postnatal angiogenesis. Although the aforementioned effects can be partially explained by the downstream products of FXII activation, the ability of FXII/FXIIa to directly regulate cellular responses has recently emerged as an alternative hypothesis. These direct cellular reactions to FXII/FXIIa will be discussed in the review. Highlights • Comprehensive review summarizing the role of FXII in coagulation, inflammation and different cellular processes • The role of FXII in cell proliferation, migration, and expression of inflammatory mediators is highlighted. • Diversity of FXII functions and complicity of the underlying molecular mechanisms are underscored. • New roles of FXII in various pathological conditions are proposed. [ABSTRACT FROM AUTHOR]

Published

2018

107. Exogenous Pancreatic Kallikrein Improves Diabetic Cardiomyopathy in Streptozotocin-Induced Diabetes.

Author

Wu, Meng, Yang, Yeping, Wang, Meng, Zeng, Fangfang, Li, Qin, Liu, Wenjuan, Guo, Shizhe, He, Min, Wang, Yi, Huang, Jie, Zhou, Linuo, Li, Yiming, Hu, Ji, Gong, Wei, and Zhang, Zhaoyun

Subjects

KALLIKREIN, PANCREATIC secretions, DIABETIC cardiomyopathy

Abstract

Aims: To evaluate the protective effects of exogenous pancreatic kallikrein (PKK) treatment on diabetic cardiomyopathy (DCM) and explore the underlying mechanisms. Methods and Results: Streptozotocin (STZ)-induced diabetic rats, a type 1 diabetic model, were treated with either PKK or saline for 12 weeks. Non-diabetic rats were used as controls. PKK administration attenuated the mitochondria swelling, Z line misalignments, myofibrosis and interstitial collagen accumulation in diabetic myocardial tissue. The oxidative stress imbalance including increased nitrotyrosine, decreased anti-oxidative components such as nuclear receptor nuclear factor like 2 (Nrf2), glutathione peroxidase 1(GPx-1), catalase (CAT) and superoxide dismutase (SOD), were recovered in the heart of PKK-treated diabetic rats. In diabetic rats, protein expression of TGF-β1 and accumulation of collagen I in the heart tissues was decreased after PKK administration. Markers for inflammation were decreased in diabetic rats by PKK treatment. Compared to diabetic rats, PKK reversed the degradation of IκB-α, an inhibitive element of heterotrimer nuclear factor kappa B (NF-κB). The endothelial nitric oxide synthase (eNOS) protein and myocardial nitrate/nitrite were impaired in the heart of diabetic rats, which, however, were restored after PKK treatment. The sarcoplasmic reticulum Ca2+-ATPase 2 (SERCA2) and phospholamban (PLN) were mishandled in diabetic rats, while were rectified in PKK-treated diabetic rats. The plasma NT-proBNP level was increased in diabetic rats while was reduced with PKK treatment. Conclusion: PKK protects against DCM via reducing fibrosis, inflammation, and oxidative stress, promoting nitric oxide production, as well as restoring the function of the calcium channel. [ABSTRACT FROM AUTHOR]

Published

2018

108. Implication of the Kallikrein-Kinin system in neurological disorders: Quest for potential biomarkers and mechanisms.

Author

Nokkari, Amaly, Abou-El-Hassan, Hadi, Mechref, Yehia, Mondello, Stefania, Kindy, Mark S., Jaffa, Ayad A., and Kobeissy, Firas

Subjects

*NEUROLOGICAL disorders, *MENTAL health, *STROKE, *HEME oxygenase, *KININS

Abstract

Neurological disorders represent major health concerns in terms of comorbidity and mortality worldwide. Despite a tremendous increase in our understanding of the pathophysiological processes involved in disease progression and prevention, the accumulated knowledge so far resulted in relatively moderate translational benefits in terms of therapeutic interventions and enhanced clinical outcomes. Aiming at specific neural molecular pathways, different strategies have been geared to target the development and progression of such disorders. The kallikrein-kinin system (KKS) is among the most delineated candidate systems due to its ubiquitous roles mediating several of the pathophysiological features of these neurological disorders as well as being implicated in regulating various brain functions. Several experimental KKS models revealed that the inhibition or stimulation of the two receptors of the KKS system (B1R and B2R) can exhibit neuroprotective and/or adverse pathological outcomes. This updated review provides background details of the KKS components and their functions in different neurological disorders including temporal lobe epilepsy, traumatic brain injury, stroke, spinal cord injury, Alzheimer’s disease, multiple sclerosis and glioma. Finally, this work will highlight the putative roles of the KKS components as potential neurotherapeutic targets and provide future perspectives on the possibility of translating these findings into potential clinical biomarkers in neurological disease. [ABSTRACT FROM AUTHOR]

Published

2018

109. Inhibition of plasma kallikrein-kinin system to alleviate renal injury and arthritis symptoms in rats with adjuvant-induced arthritis.

Author

Zhu, Jie, Wang, Hui, Chen, Jingyu, and Wei, Wei

Subjects

*KALLIKREIN, *ADJUVANT arthritis, *KININS, *BLOOD plasma, *LABORATORY rats

Abstract

Background: Rheumatoid arthritis (RA) is a chronic systemic autoimmune disease. Impairment of kidney functions in RA was observed. However, the mechanism of kidney injury of RA has not been clear. Plasma kallikrein-kinin system (KKS) was involved in inflammatory processes in kidney disease. Aim: This study aimed to explore the role of plasma KKS in immune reactions and kidney injury of RA. Results: The paw of AA rats appeared to be swelling and redness, the arthritis index was significantly increased on the 18, 21 and 24 d after injection and secondary inflammation in multi-sites was observed. Kidney dysfunction accompanied with inflammatory cell infiltration, tubular epithelial cell mitochondrial swelling and vacuolar degeneration, renal glomerular foot process fusions and glomerular basement membrane thickening were observed in AA rats. The expressions of neutrophil gelatinase-associated lipocalin (NGAL) and kidney injury molecule-1 (Kim-1) in kidney of AA rats were increased. In addition, expressions of BK, PK, B1R and B2R in the renal tissue of AA rats were up-regulated. Pro-inflammatory cytokines IL-2, IFN-γ and TNF-α were increased and anti-inflammatory cytokines IL-4 and IL-10 were low in kidney. Plasma kallikrein (PK) inhibitor PKSI-527 attenuated arthritis signs and renal damage, and inhibited BK, PK, B1R and B2R expressions. The protein expressions of P38, p-P38 and p-JNK and IFN-γ and TNF-α were inhibited by PKSI-527. Conclusions: These findings demonstrate that plasma KKS activation contributed to the renal injury of AA rats through MAPK signaling pathway. Plasma KKS might be a potential target for RA therapy. [ABSTRACT FROM AUTHOR]

Published

2018

110. Limited role of kininogen in the host response during gram-negative pneumonia-derived sepsis.

Author

Chao Ding, van't Veer, Cornelis, Roelofs, Joris J. T. H., Shukla, Meenal, McCrae, Keith R., Revenko, Alexey S., Crosby, Jeff, and van der Poll, Tom

Subjects

*KININOGENS, *PNEUMONIA

Abstract

High-molecular-weight kininogen (HK), together with factor XI, factor XII and prekallikrein, is part of the contact system that has proinflammatory, prothrombotic, and vasoactive properties. We hypothesized that HK plays a role in the host response during pneumonia-derived sepsis. To this end mice were depleted of kininogen (KNG) to plasma HK levels of 28% of normal by repeated treatment with a specific antisense oligonucleotide (KNG ASO) for 3 wk before infection with the common human sepsis pathogen Klebsiella pneumoniae via the airways. Whereas plasma HK levels increased during infection in mice treated with a scrambled control ASO (Ctrl ASO), HK level in the KNG ASO-treated group remained reduced to 25–30% of that in the corresponding Ctrl ASO group both before and after infection. KNG depletion did not influence bacterial growth in lungs or dissemination to distant body sites. KNG depletion was associated with lower lung CXC chemokine and myeloperoxidase levels but did not impact neutrophil influx, lung pathology, activation of the vascular endothelium, activation of the coagulation system, or the extent of distant organ injury. These results were corroborated by studies in mice with a genetic deficiency of KNG, which were indistinguishable from wild-type mice during Klebsiella-induced sepsis. Both KNG depletion and KNG deficiency were associated with strongly reduced plasma prekallikrein levels, indicating the carrier function of HK for this zymogen. This study suggests that KNG does not significantly contribute to the host defense during gram-negative pneumonia-derived sepsis. [ABSTRACT FROM AUTHOR]

Published

2018

111. The Plasma Kallikrein-Kininogen Pathway is critical in the Pathogenesis of colitis in Mice.

Author

Wang, Bo, Yang, Aizhen, Zhao, Zhenzhen, He, Chao, Liu, Yuanyuan, Colman, Robert W., Dai, Jihong, and Wu, Yi

Subjects

COLITIS, KALLIKREIN, LABORATORY mice

Abstract

The kallikrein-kinin system (KKS) consists of two serine proteases, prekallikrein (pKal) and factor XII (FXII) and a cofactor, high-molecular-weight kininogen (HK). Upon activation of the KKS, HK is cleaved to release bradykinin. Although the KKS is activated in humans and animals with inflammatory bowel disease (IBD), its role in the pathogenesis of IBD has not been characterized. In the present study, we determined the role of the KKS in the pathogenesis of IBD using mice that lack proteins involved in the KKS. In two colitis models, induced by dextran sulfate sodium (DSS) or 2,4,6-trinitrobenzene sulfonic acid (TNBS), mice deficient in HK, pKal, or bradykinin receptors displayed attenuated phenotypes, including body weight loss, disease activity index, colon length shortening, histological scoring and colonic production of cytokines. Infiltration of neutrophils and inflammatory monocytes in the colonic lamina propria was reduced in HK-deficient mice. Reconstitution of HK-deficient mice through intravenous injection of HK recovered their susceptibility to DSS-induced colitis, increased IL-1β levels in the colon tissue and bradykinin concentrations in plasma. In contrast to the phenotypes of other mice lacking other proteins involved in the KKS, mice lacking FXII had comparable colonic inflammation to that observed in wild-type mice. The concentration of bradykinin was significantly increased in the plasma of wild-type mice after DSS-induced colitis. In vitro analysis revealed that DSS-induced pKal activation, HK cleavage and bradykinin plasma release were prevented by the absence of pKal or the inhibition of Kal. Unlike DSS, TNBS-induced colitis did not trigger HK cleavage. Collectively, our data strongly suggest that Kal, acting independently of FXII, contributes to experimental colitis by promoting bradykinin release from HK. [ABSTRACT FROM AUTHOR]

Published

2018

112. Kallikrein-Kinin System Suppresses Type I Interferon Responses: A Novel Pathway of interferon Regulation.

Author

Seliga, Alecia, Lee, Michael Hweemoon, Fernandes, Nicole C., Zuluaga-Ramirez, Viviana, Didukh, Marta, Persidsky, Yuri, Potula, Raghava, Gallucci, Stefania, and Sriram, Uma

Subjects

KALLIKREIN, TYPE I interferons, ANGIOTENSIN converting enzyme

Abstract

The Kallikrein-Kinin System (KKS), comprised of kallikreins (klks), bradykinins (BKs) angiotensin-converting enzyme (ACE), and many other molecules, regulates a number of physiological processes, including inflammation, coagulation, angiogenesis, and control of blood pressure. In this report, we show that KKS regulates Type I IFN responses, thought to be important in lupus pathogenesis. We used CpG (TLR9 ligand), R848 (TLR7 ligand), or recombinant IFN-α to induce interferon-stimulated genes (ISGs) and proteins, and observed that this response was markedly diminished by BKs, klk1 (tissue kallikrein), or captopril (an ACE inhibitor). BKs significantly decreased the ISGs induced by TLRs in vitro and in vivo (in normal and lupus-prone mice), and in human PBMCs, especially the induction of Irf7 gene (p < 0.05), the master regulator of Type I IFNs. ISGs induced by IFN-α were also suppressed by the KKS. MHC Class I upregulation, a classic response to Type I IFNs, was reduced by BKs in murine dendritic cells (DCs). BKs decreased phosphorylation of STAT2 molecules that mediate IFN signaling. Among the secreted pro-inflammatory cytokines/chemokines analyzed (IL-6, IL12p70, and CXCL10), the strongest suppressive effect was on CXCL10, a highly Type I IFN-dependent cytokine, upon CpG stimulation, both in normal and lupus-prone DCs. klks that break down into BKs, also suppressed CpG-induced ISGs in murine DCs. Captopril, a drug that inhibits ACE and increases BK, suppressed ISGs, both in mouse DCs and human PBMCs. The effects of BK were reversed with indomethacin (compound that inhibits production of PGE2), suggesting that BK suppression of IFN responses may be mediated via prostaglandins. These results highlight a novel regulatory mechanism in which members of the KKS control the Type I IFN response and suggest a role for modulators of IFNs in the pathogenesis of lupus and interferonopathies. [ABSTRACT FROM AUTHOR]

Published

2018

113. Perfluorohexadecanoic acid increases paracellular permeability in endothelial cells through the activation of plasma kallikrein-kinin system.

Author

Liu, Qian S., Hao, Fang, Sun, Zhendong, Long, Yanmin, Zhou, Qunfang, and Jiang, Guibin

Subjects

*CELL permeability, *ENDOTHELIAL cells, *KALLIKREIN, *PERFLUOROOCTANOIC acid, *APROTININ

Abstract

Per- and polyfluoroalkyl substances (PFASs) are ubiquitous and high persistent in human blood, thus potentially inducing a myriad of deleterious consequences. Plasma kallikrein-kinin system (KKS), which physiologically regulates vascular permeability, is vulnerable to exogenous stimulators, like PFASs with long-chain alkyl backbone substituted by electronegative fluorine. The study on the interactions of PFASs with the KKS and the subsequent effects on vascular permeability would be helpful to illustrate how the chemicals penetrate the biological vascular barriers to reach different tissues. In present study, three representative PFASs, including perfluorooctane sulfonic acid (PFOS), perfluorooctanoic acid (PFOA) and perfluorohexadecanoic acid (PFHxDA), were investigated for their effects on the activation of the KKS, paracellular permeability in human retina endothelial cells (HRECs) and integrity of the adherens junctions. In contrast to either PFOS or PFOA, PFHxDA efficiently triggered KKS activation in a concentration-dependent manner based on protease activity assays. The plasma activated by PFHxDA significantly increased paracellular permeability of HRECs through the degradation of adherens junctions. As evidenced by the antagonistic effect of aprotinin, PFHxDA-involved effects on vascular permeability were mediated by KKS activation. The results herein firstly revealed the mechanistic pathway for PFHxDA induced effects on vascular endothelial cells. Regarding the possible structure-related activities of the chemicals, this finding would be of great help in the risk assessment of PFASs. [ABSTRACT FROM AUTHOR]

Published

2018

114. Four decades of ocular renin-angiotensin and kallikrein-kinin systems (1977–2017).

Author

Igić, Rajko

Subjects

*RENIN-angiotensin system, *KALLIKREIN, *BIOLOGICAL crosstalk, *MEDICAL communication, DIABETIC retinopathy treatment

Abstract

This review offers a contemporary history of the renin-angiotensin (RAS) and kallikrein-kinin (KKS) systems with emphasis on how these complex systems affect the eye. It describes the types of communication (cross-talk) between the two systems and evaluates their potential role in the development of diabetic retinopathy, diabetic macular edema, age-related macular degeneration, glaucoma, and uveitis. In addition to detailing the important physiological actions of components of the RAS and KKS, possibilities are suggested for new therapeutic avenues in the treatment of common ocular diseases. Historical notes indicate the major events in this research area, marking four decades from the first publication on the discovery of renin and angiotensin converting enzyme in the eye to the present time. [ABSTRACT FROM AUTHOR]

Published

2018

115. Diet-gene interaction: effects of polymorphisms in the ACE, AGT and BDKRB2 genes and the consumption of sodium, potassium, calcium, and magnesium on blood pressure of normotensive adult individuals

Author

Giovanella, Janine, Wollinger, Luana Maria, Capra, Luisa, Dresch, Fabiane, Genro, Júlia Pasqualini, and Contini, Verônica

Published

2021

116. Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology.

Abstract

Keywords: Blood Coagulation Factors; Blood Diseases and Conditions; Bloodstream Infection; Cardiology; Cardiomyopathies; Cardiovascular Diseases and Conditions; Cardiovascular Physiological Phenomena; Clinical Research; Clinical Trials and Studies; Health and Medicine; Heart Disease; Heart Disorders and Diseases; Hematology; Hematology - Blood Coagulation Factors; Hemodynamics; Hospitals; Kallikrein-Kinin System; Kallikreins; Science And Technology; Sepsis; Septicemia EN Blood Coagulation Factors Blood Diseases and Conditions Bloodstream Infection Cardiology Cardiomyopathies Cardiovascular Diseases and Conditions Cardiovascular Physiological Phenomena Clinical Research Clinical Trials and Studies Health and Medicine Heart Disease Heart Disorders and Diseases Hematology Hematology - Blood Coagulation Factors Hemodynamics Hospitals Kallikrein-Kinin System Kallikreins Science And Technology Sepsis Septicemia 631 631 1 10/30/23 20231102 NES 231102 2023 NOV 2 (NewsRx) -- By a News Reporter-Staff News Editor at Blood Weekly -- Staff editors report on the newly launched clinical trial, NCT06080282, which has the following summary description: "The purpose of this study is to investigate whether there are differential expressions of molecules in the kallikrein-kinin system (KKS) pathway in septic cardiomyopathy, and to analyze their regulatory mechanisms and gene expression changes." Blood Coagulation Factors, Blood Diseases and Conditions, Bloodstream Infection, Cardiology, Cardiomyopathies, Cardiovascular Diseases and Conditions, Cardiovascular Physiological Phenomena, Clinical Research, Clinical Trials and Studies, Health and Medicine, Heart Disease, Heart Disorders and Diseases, Hematology, Hematology - Blood Coagulation Factors, Hemodynamics, Hospitals, Kallikreins, Science And Technology, Kallikrein-Kinin System, Sepsis, Septicemia. [Extracted from the article]

Published

2023

117. The Involvement of the Kallikrein-Kinin System in the Pathogenesis of Postoperative Injury in Cardiac Surgery: An Observational Study.

Abstract

Keywords: Blood Coagulation Factors; Blood Transfusion; Cardiac Surgery; Cardiology; Cardiovascular Physiological Phenomena; Chemicals; Clinical Research; Clinical Trials and Studies; Enzymes and Coenzymes; Health and Medicine; Hematology; Hemodynamics; Inflammation; Kallikrein-Kinin System; Kallikreins; Medical Devices; Nitric Oxide; Peptide Hydrolases; Pharmaceuticals; Reperfusion; Serine Endopeptidases; Synthase; Transfusion Medicine; Transfusion Medicine - Blood Transfusion EN Blood Coagulation Factors Blood Transfusion Cardiac Surgery Cardiology Cardiovascular Physiological Phenomena Chemicals Clinical Research Clinical Trials and Studies Enzymes and Coenzymes Health and Medicine Hematology Hemodynamics Inflammation Kallikrein-Kinin System Kallikreins Medical Devices Nitric Oxide Peptide Hydrolases Pharmaceuticals Reperfusion Serine Endopeptidases Synthase Transfusion Medicine Transfusion Medicine - Blood Transfusion 623 623 1 10/30/23 20231103 NES 231103 2023 NOV 2 (NewsRx) -- By a News Reporter-Staff News Editor at Medical Devices & Surgical Technology Week -- Staff editors report on the newly launched clinical trial, NCT06080295, which has the following summary description: "We aimed to established an interlink among the kallikrein-kinin system (KKS), endothelial dysfunction and cardiac inflammation in response to cardiosurgery, using clinic investigation." Tissue kallikrein (TK), a serine protease and a key enzyme of the KKS, is responsible for cleaving low-molecular-weight kininogen into bradykinin and kallidin. [Extracted from the article]

Published

2023

118. Factor XII-Driven Inflammatory Reactions with Implications for Anaphylaxis

Author

Lysann Bender, Henri Weidmann, Stefan Rose-John, Thomas Renné, and Andy T. Long

Subjects

contact system, factor XII, kallikrein–kinin system, bradykinin, mast cells, heparin, Immunologic diseases. Allergy, RC581-607

Abstract

Anaphylaxis is a life-threatening allergic reaction. It is triggered by the release of pro-inflammatory cytokines and mediators from mast cells and basophils in response to immunologic or non-immunologic mechanisms. Mediators that are released upon mast cell activation include the highly sulfated polysaccharide and inorganic polymer heparin and polyphosphate (polyP), respectively. Heparin and polyP supply a negative surface for factor XII (FXII) activation, a serine protease that drives contact system-mediated coagulation and inflammation. Activation of the FXII substrate plasma kallikrein leads to further activation of zymogen FXII and triggers the pro-inflammatory kallikrein–kinin system that results in the release of the mediator bradykinin (BK). The severity of anaphylaxis is correlated with the intensity of contact system activation, the magnitude of mast cell activation, and BK formation. The main inhibitor of the complement system, C1 esterase inhibitor, potently interferes with FXII activity, indicating a meaningful cross-link between complement and kallikrein–kinin systems. Deficiency in a functional C1 esterase inhibitor leads to a severe swelling disorder called hereditary angioedema (HAE). The significance of FXII in these disorders highlights the importance of studying how these processes are integrated and can be therapeutically targeted. In this review, we focus on how FXII integrates with inflammation and the complement system to cause anaphylaxis and HAE as well as highlight current diagnosis and treatments of BK-related diseases.

Published

2017

119. The Effects of the Contact Activation System on Hemorrhage

Author

Fabrício Simão and Edward P. Feener

Subjects

kallikrein–kinin system, hemorrhage, hemostasis, factor XII, plasma kallikrein, contact activation system, Medicine (General), R5-920

Abstract

The contact activation system (CAS) exerts effects on coagulation via multiple mechanisms, which modulate both the intrinsic and extrinsic coagulation cascades as well as fibrinolysis and platelet activation. While the effects of the CAS on blood coagulation measured as activated partial thromboplastin time shortening are well documented, genetic mutations that result in deficiencies in the expression of either plasma prekallikrein (PPK) or factor XII (FXII) are not associated with spontaneous bleeding or increased bleeding risk during surgery. Deficiencies in these proteins are often undiagnosed for decades and detected later in life during routine coagulation assays without an apparent clinical phenotype. Increased interest in the CAS as a potentially safe target for antithrombotic therapies has emerged, in large part, from studies on animal models with provoked thrombosis, which have shown that deficiencies in PPK or FXII can reduce thrombus formation without increasing bleeding. Gene targeting and pharmacological studies in healthy animals have confirmed that PPK and FXII blockade does not cause coagulopathies. These findings support the conclusion that CAS is not required for hemostasis. However, while deficiencies in FXII and PPK do not significantly affect bleeding associated with peripheral wounds, recent reports have demonstrated that these proteins can promote hemorrhage in the retina and brain. Intravitreal injection of plasma kallikrein (PKal) induces retinal hemorrhage and intracerebral injection of PKal increases intracranial bleeding. PPK deficiency and PKal inhibition ameliorates hematoma formation following cerebrovascular injury in diabetic animals. Moreover, both PPK and FXII deficiency are protective against intracerebral hemorrhage caused by tissue plasminogen activator-mediated thrombolytic therapy in mice with thrombotic middle cerebral artery occlusion. Thus, while the CAS is not required for hemostasis, its inhibition may provide an opportunity to reduce hemorrhage in the retina and brain. Characterization of the mechanisms and potential clinical implications associated with the effects of the CAS on hemorrhage requires further consideration of the effects of PPK and FXII on hemorrhage beyond their putative effects on coagulation cascades. Here, we review the experimental and clinical evidence on the effects of the CAS on bleeding and hemostatic mechanisms.

Published

2017

120. Dysregulation of the kallikrein-kinin system in bronchoalveolar lavage fluid of patients with severe COVID-19

Author

Caroline P. Martens, Pierre Van Mol, Joost Wauters, Els Wauters, Tanja Gangnus, Bernard Noppen, Hanne Callewaert, Jean H.M. Feyen, Laurens Liesenborghs, Elisabeth Heylen, Sander Jansen, Leydi Carolina Velásquez Pereira, Sirima Kraisin, Ipek Guler, Matthias M. Engelen, Anna Ockerman, Anke Van Herck, Robin Vos, Christophe Vandenbriele, Philippe Meersseman, Greet Hermans, Alexander Wilmer, Kimberly Martinod, Bjoern B. Burckhardt, Marc Vanhove, Marc Jacquemin, Peter Verhamme, Johan Neyts, and Thomas Vanassche

Subjects

Kallikrein-Kinin System, ACE2, COAGULATION, Kinins, Research & Experimental Medicine, Bradykinin, General Biochemistry, Genetics and Molecular Biology, ACTIVATION, Medicine, General & Internal, General & Internal Medicine, Humans, Peroxidase, Science & Technology, Thromboinflammation, SARS-CoV-2, COVID-19, General Medicine, Extracellular traps, IN-VITRO, DNA, Medicine, Research & Experimental, Kallikreins, Angiotensin-Converting Enzyme 2, Bronchoalveolar Lavage Fluid, Tissue Kallikreins, Life Sciences & Biomedicine

Abstract

Summary Background Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) binds to the angiotensin-converting enzyme 2 (ACE2) receptor, a critical component of the kallikrein-kinin system. Its dysregulation may lead to increased vascular permeability and release of inflammatory chemokines. Interactions between the kallikrein-kinin and the coagulation system might further contribute to thromboembolic complications in COVID-19. Methods In this observational study, we measured plasma and tissue kallikrein hydrolytic activity, levels of kinin peptides, and myeloperoxidase (MPO)-DNA complexes as a biomarker for neutrophil extracellular traps (NETs), in bronchoalveolar lavage (BAL) fluid from patients with and without COVID-19. Findings In BAL fluid from patients with severe COVID-19 (n = 21, of which 19 were mechanically ventilated), we observed higher tissue kallikrein activity (18·2 pM [1·2-1535·0], median [range], n = 9 vs 3·8 [0·0-22·0], n = 11; p = 0·030), higher levels of the kinin peptide bradykinin-(1-5) (89·6 [0·0-2425·0], n = 21 vs 0·0 [0·0-374·0], n = 19, p = 0·001), and higher levels of MPO-DNA complexes (699·0 ng/mL [66·0-142621·0], n = 21 vs 70·5 [9·9-960·0], n = 19, p < 0·001) compared to patients without COVID-19. Interpretation Our observations support the hypothesis that dysregulation of the kallikrein-kinin system might occur in mechanically ventilated patients with severe pulmonary disease, which might help to explain the clinical presentation of patients with severe COVID-19 developing pulmonary oedema and thromboembolic complications. Therefore, targeting the kallikrein-kinin system should be further explored as a potential treatment option for patients with severe COVID-19. Funding Research Foundation-Flanders (G0G4720N, 1843418N), KU Leuven COVID research fund. Summary Background Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) binds to the angiotensin-converting enzyme 2 (ACE2) receptor, a critical component of the kallikrein-kinin system. Its dysregulation may lead to increased vascular permeability and release of inflammatory chemokines. Interactions between the kallikrein-kinin and the coagulation system might further contribute to thromboembolic complications in COVID-19. Methods In this observational study, we measured plasma and tissue kallikrein hydrolytic activity, levels of kinin peptides, and myeloperoxidase (MPO)-DNA complexes as a biomarker for neutrophil extracellular traps (NETs), in bronchoalveolar lavage (BAL) fluid from patients with and without COVID-19. Findings In BAL fluid from patients with severe COVID-19 (n = 21, of which 19 were mechanically ventilated), we observed higher tissue kallikrein activity (18·2 pM [1·2-1535·0], median [range], n = 9 vs 3·8 [0·0-22·0], n = 11; p = 0·030), higher levels of the kinin peptide bradykinin-(1-5) (89·6 [0·0-2425·0], n = 21 vs 0·0 [0·0-374·0], n = 19, p = 0·001), and higher levels of MPO-DNA complexes (699·0 ng/mL [66·0-142621·0], n = 21 vs 70·5 [9·9-960·0], n = 19, p < 0·001) compared to patients without COVID-19. Interpretation Our observations support the hypothesis that dysregulation of the kallikrein-kinin system might occur in mechanically ventilated patients with severe pulmonary disease, which might help to explain the clinical presentation of patients with severe COVID-19 developing pulmonary oedema and thromboembolic complications. Therefore, targeting the kallikrein-kinin system should be further explored as a potential treatment option for patients with severe COVID-19. Funding Research Foundation-Flanders (G0G4720N, 1843418N), KU Leuven COVID research fund. ispartof: Ebiomedicine vol:83 pages:104195- ispartof: location:Netherlands status: published

Published

2022

121. Alterations in the kallikrein-kinin system predict death after heart transplant

Author

Nicholas P, Giangreco, Guillaume, Lebreton, Susan, Restaino, Maryjane, Farr, Emmanuel, Zorn, Paolo C, Colombo, Jignesh, Patel, Rajesh Kumar, Soni, Pascal, Leprince, Jon, Kobashigawa, Nicholas P, Tatonetti, and Barry M, Fine

Subjects

Proteomics, Multidisciplinary, Kallikrein-Kinin System, Kininogens, Heart Transplantation, Humans, Blood Coagulation

Abstract

Heart transplantation remains the definitive treatment for end stage heart failure. Because availability is limited, risk stratification of candidates is crucial for optimizing both organ allocations and transplant outcomes. Here we utilize proteomics prior to transplant to identify new biomarkers that predict post-transplant survival in a multi-institutional cohort. Microvesicles were isolated from serum samples and underwent proteomic analysis using mass spectrometry. Monte Carlo cross-validation (MCCV) was used to predict survival after transplant incorporating select recipient pre-transplant clinical characteristics and serum microvesicle proteomic data. We identified six protein markers with prediction performance above AUROC of 0.6, including Prothrombin (F2), anti-plasmin (SERPINF2), Factor IX, carboxypeptidase 2 (CPB2), HGF activator (HGFAC) and low molecular weight kininogen (LK). No clinical characteristics demonstrated an AUROC > 0.6. Putative biological functions and pathways were assessed using gene set enrichment analysis (GSEA). Differential expression analysis identified enriched pathways prior to transplant that were associated with post-transplant survival including activation of platelets and the coagulation pathway prior to transplant. Specifically, upregulation of coagulation cascade components of the kallikrein-kinin system (KKS) and downregulation of kininogen prior to transplant were associated with survival after transplant. Further prospective studies are warranted to determine if alterations in the KKS contributes to overall post-transplant survival.

Published

2022

122. The contact system in liver injury

Author

Chandini Rangaswamy, Hanna Englert, Thomas Renné, Sandra Konrath, and Reiner K. Mailer

Subjects

0301 basic medicine, Contact system, Kallikrein-Kinin System, Immunology, Inflammation, Review, Coagulation Factor XII, 030204 cardiovascular system & hematology, 03 medical and health sciences, Liver disease, 0302 clinical medicine, medicine, Humans, Immunology and Allergy, Thrombus, Blood Coagulation, Liver injury, Factor XII, Coagulation, business.industry, Thrombosis, medicine.disease, 030104 developmental biology, Liver, Hemostasis, Cancer research, medicine.symptom, business

Abstract

Coagulation is controlled by a delicate balance of prothrombotic and antithrombotic mechanisms, to prevent both excessive blood loss from injured vessels and pathologic thrombosis. The liver plays a pivotal role in hemostasis through the synthesis of plasma coagulation factors and their inhibitors that, in addition to thrombosis and hemostasis, orchestrates an array of inflammatory responses. As a result, impaired liver function has been linked with both hypercoagulability and bleeding disorders due to a pathologic balance of pro- and anticoagulant plasma factors. At sites of vascular injury, thrombus propagation that finally may occlude the blood vessel depends on negatively charged biopolymers, such as polyphosphates and extracellular DNA, that provide a physiological surface for contact activation of coagulation factor XII (FXII). FXII initiates the contact system that drives both the intrinsic pathway of coagulation, and formation of the inflammatory mediator bradykinin by the kallikrein–kinin system. Moreover, FXII facilitates receptor-mediated signalling, thereby promoting mitogenic activities, angiogenesis, and neutrophil stimulation with implications for liver diseases. Here, we summarize current knowledge on the FXII-driven contact system in liver diseases and review therapeutic approaches to target its activities during impaired liver function.

Published

2021

123. Angiotensin converting enzyme 2 (ACE2) - the major receptor for SARS-CoV-2 virus

Author

K. Zargaryan, K. Zajac, S. Frankowska, and J. B. Zawilska

Subjects

Pharmacology, Aldosterone, Angiotensin II receptor type 1, kallikrein-kinin system, biology, ace2, Pharmaceutical Science, Angiotensin-converting enzyme, Angiotensin II, Complement system, RS1-441, sars-cov-2, chemistry.chemical_compound, Pharmacy and materia medica, covid-19, chemistry, raa system, Angiotensin-converting enzyme 2, Renin–angiotensin system, biology.protein, Receptor, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), hormones, hormone substitutes, and hormone antagonists

Abstract

The renin-angiotensin-aldosterone system (RAS) plays a significant role in the regulation of the water and electrolyte balance. Renin from the kidneys converts angiotensinogen to angiotensin I. Angiotensin converting enzyme (ACE) catalyzes the conversion of angiotensin I to angiotensin II. The activation of AT1 receptors by angiotensin II causes vasoconstriction, an increase in aldosterone secretion, and an increase in the reabsorption of sodium ions in nephrons, leading to elevation of the blood pressure. Angiotensin II promotes oxidative stress, growth and proliferation of cells, stimulates coagulation, inhibits fibrinolysis, and intensifies inflammatory processes. The ACE-angiotensin II-AT1R pathway is balanced by angiotensin converting enzyme 2 (ACE2), which degrades angiotensin I to angiotensin (1-9) and angiotensin II to angiotensin (1-7). Angiotensin (1-7) and angiotensin (1-9) pathways exert protective effects by activating, respectively Mas and AT2 receptors. ACE and ACE2 also have intimate roles with the plasma kallikrein-kinin system (KKS), a hormonal pathway that modulates the intrinsic blood coagulation system, endothelial cell growth and angiogenesis, the complement pathway and RAS. The appearance in Wuhan, China, of the first cases of SARS-CoV-2 infections at the end of 2019 launched a series of intensive studies, which proved that the virus invades host cells using ACE2 as a specific receptor. This survey presents basic information on the structure and tissue distribution of ACE2 and the role this enzyme plays in pathogenesis of COVID-19. A particular emphasis is given to pathophysiological effects of the functional superiority of the ACE → angiotensin II → AT1 receptor axis over the pathway ACE2 → angiotensin II → angiotensin (1-7) → Mas receptor. Such disharmony is a consequence of SARS-CoV-2 induced ACE2-downregulation. In the era of the expanding COVID-19 pandemic, intensive research is conducted not only on vaccines and antiviral drugs, but also on compounds that can restore the functional balance between angiotensin II and angiotensin (1-7). © 2021 Polish Pharmaceutical Society. All rights reserved.

Published

2021

124. Targeted LC-MS/MS platform for the comprehensive determination of peptides in the kallikrein-kinin system

Author

Bjoern B. Burckhardt and Tanja Gangnus

Subjects

Bioanalysis, Kallikrein-Kinin System, Bradykinin, Endogeny, Pharmacology, 01 natural sciences, Biochemistry, Analytical Chemistry, Plasma, 03 medical and health sciences, chemistry.chemical_compound, Limit of Detection, Tandem Mass Spectrometry, In vivo, Lc ms ms, medicine, Humans, cardiovascular diseases, LC-MS/MS, Angioedema, 030304 developmental biology, 0303 health sciences, Kallidin, 010401 analytical chemistry, COVID-19, Kinin, Peptide Fragments, 0104 chemical sciences, chemistry, medicine.symptom, circulatory and respiratory physiology, Research Paper, Chromatography, Liquid

Abstract

The kallikrein-kinin system (KKS) is involved in many physiological and pathophysiological processes and is assumed to be connected to the development of clinical symptoms of angioedema or COVID-19, among other diseases. However, despite its diverse role in the regulation of physiological and pathophysiological functions, knowledge about the KKS in vivo remains limited. The short half-lives of kinins, their low abundance and structural similarities and the artificial generation of the kinin bradykinin greatly hinder reliable and accurate determination of kinin levels in plasma. To address these issues, a sensitive LC-MS/MS platform for the comprehensive and simultaneous determination of the four active kinins bradykinin, kallidin, des-Arg(9)-bradykinin and des-Arg(10)-kallidin and their major metabolites bradykinin 2-9, bradykinin 1-7 and bradykinin 1-5 was developed. This platform was validated according to the bioanalytical guideline of the US Food and Drug Administration regarding linearity, accuracy, precision, sensitivity, carry-over, recovery, parallelism, matrix effects and stability in plasma of healthy volunteers. The validated platform encompassed a broad calibration curve range from 2.0–15.3 pg/mL (depending on the kinin) up to 1000 pg/mL, covering the expected concentrations in disease states. No source-dependent matrix effects were identified, and suitable stability of the analytes in plasma was observed. The applicability of the developed platform was proven by the determination of endogenous levels in healthy volunteers, whose plasma kinin levels were successfully detected in the low pg/mL range. The established platform facilitates the investigation of kinin-mediated diseases (e.g. angioedema, COVID-19) and enables the assessment of the impact of altered enzyme activities on the formation or degradation of kinins. Graphical abstract

Published

2021

125. Pathophysiology and underlying mechanisms in hereditary angioedema

Author

Alberto López Lera

Subjects

Kallikrein-Kinin System, Bradykinin, Inflammation, Disease, C1-inhibitor, chemistry.chemical_compound, immune system diseases, medicine, Humans, cardiovascular diseases, skin and connective tissue diseases, Kininogen, biology, business.industry, Angioedemas, Hereditary, food and beverages, General Medicine, medicine.disease, Pathophysiology, chemistry, Coagulation, Hereditary angioedema, Immunology, biology.protein, Medicine, medicine.symptom, business, Complement C1 Inhibitor Protein, Peptide Hydrolases

Abstract

This review aims to summarize the main pathophysiological events involved in the development of hereditary angioedema (OMIM#106100). Hereditary angioedema is a rare genetic disease inherited in an autosomal dominant manner and caused by a loss of control over the plasma contact system or kallikrein-kinin system, which results in unrestrained bradykinin generation or signaling. In patients with hereditary angioedema, BK binding to endothelial cells leads to recurrent episodes of swelling at subcutaneous or submucosal tissues that can be life threatening when affecting the upper respiratory tract. The disease can either present with hypocomplementemia owing to the presence of pathogenic variants in the gene encoding complement C1 inhibitor (hereditary angioedema with C1-inhibitor deficiency) or present with normocomplementemia and associate with elevated estrogen levels owing to gain-of-function variants in the genes encoding coagulation proteins involved in the kallikrein-kinin system (namely, coagulation FXII [FXII-associated hereditary angioedema], plasminogen [PLG-associated hereditary angioedema], and high-molecular-weight kininogen [KNG1-associated hereditary angioedema]). Moreover, in recent years, novel pathogenic variants have been described in the genes encoding angiopoietin 1 (ANGPT1-associated hereditary angioedema) and myoferlin (MYOF-associated hereditary angioedema), which further expand the pathophysiological picture of hereditary angioedema.

Published

2021

126. Impaired Kallikrein-Kinin System in COVID-19 Patients' Severity

Author

Enrique Alfaro, Elena Díaz-García, Sara García-Tovar, Ester Zamarrón, Alberto Mangas, Raúl Galera, Kapil Nanwani-Nanwani, Rebeca Pérez-de-Diego, Eduardo López-Collazo, Francisco García-Río, and Carolina Cubillos-Zapata

Subjects

Inflammation, Kallikrein-Kinin System, Lymphopenia, Immunology, COVID-19, Humans, Immunology and Allergy, Bradykinin

Abstract

COVID-19 has emerged as a devastating disease in the last 2 years. Many authors appointed to the importance of kallikrein-kinin system (KKS) in COVID-19 pathophysiology as it is involved in inflammation, vascular homeostasis, and coagulation. We aim to study the bradykinin cascade and its involvement in severity of patients with COVID-19. This is an observational cohort study involving 63 consecutive patients with severe COVID-19 pneumonia and 27 healthy subjects as control group. Clinical laboratory findings and plasma protein concentration of KKS peptides [bradykinin (BK), BK1-8], KKS proteins [high–molecular weight kininogen (HK)], and KKS enzymes [carboxypeptidase N subunit 1 (CPN1), kallikrein B1 (KLKB1), angiotensin converting enzyme 2 (ACE2), and C1 esterase inhibitor (C1INH)] were analyzed. We detected dysregulated KKS in patients with COVID-19, characterized by an accumulation of BK1-8 in combination with decreased levels of BK. Accumulated BK1-8 was related to severity of patients with COVID-19. A multivariate logistic regression model retained BK1-8, BK, and D-dimer as independent predictor factors to intensive care unit (ICU) admission. A Youden’s optimal cutoff value of −0.352 was found for the multivariate model score with an accuracy of 92.9%. Multivariate model score-high group presented an odds ratio for ICU admission of 260.0. BK1-8 was related to inflammation, coagulation, and lymphopenia. Our data suggest that BK1-8/BK plasma concentration in combination with D-dimer levels might be retained as independent predictors for ICU admission in patients with COVID-19. Moreover, we reported KKS dysregulation in patients with COVID-19, which was related to disease severity by means of inflammation, hypercoagulation, and lymphopenia.

Published

2022

127. A critical role for plasma kallikrein in the pathogenesis of autoantibody-induced arthritis.

Author

Aizhen Yang, Junsong Zhou, Bo Wang, Jihong Dai, Colman, Robert W., Wenchao Song, and Yi Wu

Abstract

The plasma kallikrein-kinin system (KKS) consists of serine proteases, prekallikrein (pKal) and factor XII (FXII), and a cofactor, high-MW kininogen (HK). Upon activation, activated pKal and FXII cleave HK to release bradykinin. Activation of this system has been noted in patients with rheumatoid arthritis, and its pathogenic role has been characterized in animal arthritic models. In this study, we generated 2 knockout mouse strains that lacked pKal and HK and determined the role of KKS in autoantibody-induced arthritis. In a K/BxN serum transfer-induced arthritis (STIA) model, mice that lacked HK, pKal, or bradykinin receptors displayed protective phenotypes in joint swelling, histologic changes in inflammation, and cytokine production; however, FXII-deficient mice developed normal arthritis. Inhibition of Kal ameliorated arthritis severity and incidence at early stage STIA and reduced the levels of major cytokines in joints. In addition to releasing bradykinin from HK, Kal directly activated monocytes to produce proinflammatory cytokines, up-regulated their C5aR and FcRIII expression, and released C5a. Immune complex increased pKal activity, which led to HK cleavage. The absence of HK is associated with a decrease in joint vasopermeability. Thus, we identify a critical role for Kal in autoantibody-induced arthritis with pleiotropic effects, which suggests that it is a new target for the inhibition of arthritis. [ABSTRACT FROM AUTHOR]

Published

2017

128. Chapter Two - G Protein-Coupled Kinin Receptors and Immunity Against Pathogens.

Author

Scharfstein, Julio, Ramos, Pablo I. P., and Barral-Netto, Manoel

Subjects

IMMUNOLOGY periodicals, G proteins, PATHOGENIC microorganisms, IMMUNOLOGISTS

Abstract

For decades, immunologists have considered the complement system as a paradigm of a proteolytic cascade that, acting cooperatively with the immune system, enhances host defense against infectious organisms. In recent years, advances made in thrombosis research disclosed a functional link between activated neutrophils, monocytes, and platelet-driven thrombogenesis. Forging a physical barrier, the fibrin scaffolds generated by synergism between the extrinsic and intrinsic (contact) pathways of coagulation entrap microbes within microvessels, limiting the systemic spread of infection while enhancing the clearance of pathogens by activated leukocytes. Insight from mice models of thrombosis linked fibrin formation via the intrinsic pathway to the autoactivation of factor XII (FXII) by negatively charged "contact" substances, such as platelet-derived polyphosphates and DNA from neutrophil extracellular traps. Following cleavage by FXIIa, activated plasma kallikrein (PK) initiates inflammation by liberating the nonapeptide bradykinin (BK) from an internal domain of high molecular weight kininogen (HK). Acting as a paracrine mediator, BK induces vasodilation and increases microvascular permeability via activation of endothelial B2R, a constitutively expressed subtype of kinin receptor. During infection, neutrophil-driven extravasation of plasma fuels inflammation via extravascular activation of the kallikrein-kinin system (KKS). Whether liberated by plasma-borne PK, tissue kallikrein, and/or microbial-derived proteases, the short-lived kinins activate immature dendritic cells via B2R, thus linking the infection-associated innate immunity/inflammation to the adaptive arm of immunity. As inflammation persists, a GPI-linked carboxypeptidase M removes the C-terminal arginine from the primary kinin, converting the B2R agonist into a high-affinity ligand for B1R, a GPCR subtype that is transcriptionally upregulated in injured/inflamed tissues. As reviewed here, lessons taken from studies of kinin receptor function in experimental infections have shed light on the complex proteolytic circuits that, acting at the endothelial interface, reciprocally couple immunity to the proinflammatory KKS. [ABSTRACT FROM AUTHOR]

Published

2017

129. Factor XII-Driven Inflammatory Reactions with Implications for Anaphylaxis.

Author

Bender, Lysann, Weidmann, Henri, Rose-John, Stefan, Renné, Thomas, and Long, Andy T.

Abstract

Anaphylaxis is a life-threatening allergic reaction. It is triggered by the release of proinflammatory cytokines and mediators from mast cells and basophils in response to immunologic or non-immunologic mechanisms. Mediators that are released upon mast cell activation include the highly sulfated polysaccharide and inorganic polymer heparin and polyphosphate (polyP), respectively. Heparin and polyP supply a negative surface for factor XII (FXII) activation, a serine protease that drives contact system-mediated coagulation and inflammation. Activation of the FXII substrate plasma kallikrein leads to further activation of zymogen FXII and triggers the pro-inflammatory kallikrein–kinin system that results in the release of the mediator bradykinin (BK). The severity of anaphylaxis is correlated with the intensity of contact system activation, the magnitude of mast cell activation, and BK formation. The main inhibitor of the complement system, C1 esterase inhibitor, potently interferes with FXII activity, indicating a meaningful crosslink between complement and kallikrein–kinin systems. Deficiency in a functional C1 esterase inhibitor leads to a severe swelling disorder called hereditary angioedema (HAE). The significance of FXII in these disorders highlights the importance of studying how these processes are integrated and can be therapeutically targeted. In this review, we focus on how FXII integrates with inflammation and the complement system to cause anaphylaxis and HAE as well as highlight current diagnosis and treatments of BK-related diseases. [ABSTRACT FROM AUTHOR]

Published

2017

130. Early metabolic markers identify potential targets for the prevention of type 2 diabetes.

Author

Peddinti, Gopal, Cobb, Jeff, Yengo, Loic, Froguel, Philippe, Kravić, Jasmina, Balkau, Beverley, Tuomi, Tiinamaija, Aittokallio, Tero, and Groop, Leif

Abstract

Aims/hypothesis: The aims of this study were to evaluate systematically the predictive power of comprehensive metabolomics profiles in predicting the future risk of type 2 diabetes, and to identify a panel of the most predictive metabolic markers. Methods: We applied an unbiased systems medicine approach to mine metabolite combinations that provide added value in predicting the future incidence of type 2 diabetes beyond known risk factors. We performed mass spectrometry-based targeted, as well as global untargeted, metabolomics, measuring a total of 568 metabolites, in a Finnish cohort of 543 non-diabetic individuals from the Botnia Prospective Study, which included 146 individuals who progressed to type 2 diabetes by the end of a 10 year follow-up period. Multivariate logistic regression was used to assess statistical associations, and regularised least-squares modelling was used to perform machine learning-based risk classification and marker selection. The predictive performance of the machine learning models and marker panels was evaluated using repeated nested cross-validation, and replicated in an independent French cohort of 1044 individuals including 231 participants who progressed to type 2 diabetes during a 9 year follow-up period in the DESIR (Data from an Epidemiological Study on the Insulin Resistance Syndrome) study. Results: Nine metabolites were negatively associated (potentially protective) and 25 were positively associated with progression to type 2 diabetes. Machine learning models based on the entire metabolome predicted progression to type 2 diabetes (area under the receiver operating characteristic curve, AUC = 0.77) significantly better than the reference model based on clinical risk factors alone (AUC = 0.68; DeLong's p = 0.0009). The panel of metabolic markers selected by the machine learning-based feature selection also significantly improved the predictive performance over the reference model (AUC = 0.78; p = 0.00019; integrated discrimination improvement, IDI = 66.7%). This approach identified novel predictive biomarkers, such as α-tocopherol, bradykinin hydroxyproline, X-12063 and X-13435, which showed added value in predicting progression to type 2 diabetes when combined with known biomarkers such as glucose, mannose and α-hydroxybutyrate and routinely used clinical risk factors. Conclusions/interpretation: This study provides a panel of novel metabolic markers for future efforts aimed at the prevention of type 2 diabetes. [ABSTRACT FROM AUTHOR]

Published

2017

131. Angioedema.

Author

LoVerde, Daniel, Files, Daniel Clark, and Krishnaswamy, Guha

Subjects

*ANGIONEUROTIC edema, *BRADYKININ receptors, *GENETIC disorders, *PATHOLOGICAL physiology, *KALLIKREIN

Abstract

Objectives: Angioedema is a potentially life-threatening occurrence that is encountered by critical care providers. The mechanistic understanding of angioedema syndromes has improved in recent years, and novel medications are available that improve outcomes from these syndromes. This clinically focused review will describe the underlying genetics, pathophysiology, classification and treatment of angioedema syndromes, with an emphasis on the novel pharmacologic agents that have recently become available for acute treatment.Data Sources: A MEDLINE search was conducted with the MeSH terms angioedema, acquired angioedema, hereditary angioedema type III, and angiotensin converting enzyme inhibitor-induced angioedema.Study Selection: Selected publications describing angioedema, clinical trials, diagnosis, management, and genetics were retrieved (reviews, guidelines, clinical trials, case series), and their bibliographies were also reviewed to identify relevant publications.Data Extraction: Data from the relevant publications were reviewed, summarized and the information synthesized.Data Synthesis: The data obtained were used to describe the current state of diagnosis and management of various angioedema syndromes.Conclusions: Angioedema is a life-threatening syndrome with multiple subtypes, each with a distinct pathophysiology. We present an evidence-based approach to the diagnosis and suggested management of various subtypes of angioedema. Securing the airway remains the most important intervention, followed by administration of both established and more novel pharmacologic interventions based on disease pathology. [ABSTRACT FROM AUTHOR]

Published

2017

132. СТАН АДАПТАЦІЙНИХ МЕХАНІЗМІВ ПРИ ПОЄДНАННІ ГІПЕРТОНІЧНОЇ ХВОРОБИ З ХРОНІЧНИМ ПАНКРЕАТИТОМ.

Author

МЕДВІДЬ, І. І., БАБІНЕЦЬ, Л. С., and ГЕРАСИМЕЦЬ, І. І.

Abstract

Copyright of Likarska Sprava is the property of J. Likarska Sprava and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

133. Early urinary biomarkers of diabetic nephropathy in type 1 diabetes mellitus show involvement of kallikrein-kinin system.

Author

Vitova, Lenka, Tuma, Zdenek, Moravec, Jiri, Kvapil, Milan, Matejovic, Martin, and Mares, Jan

Subjects

DIABETIC nephropathies, PROTEOMICS, URINE proteins, MULTIPLE correspondence analysis (Statistics), MASS spectrometry, PROTEIN metabolism, ALBUMINURIA, METABOLISM, RESEARCH evaluation, EARLY diagnosis, NEPHRONS, DIAGNOSIS

Abstract

Background: Additional urinary biomarkers for diabetic nephropathy (DN) are needed, providing early and reliable diagnosis and new insights into its mechanisms. Rigorous selection criteria and homogeneous study population may improve reproducibility of the proteomic approach.Methods: Long-term type 1 diabetes patients without metabolic comorbidities were included, 11 with sustained microalbuminuria (MA) and 14 without MA (nMA). Morning urine proteins were precipitated and resolved by 2D electrophoresis. Principal component analysis (PCA) and Projection to latent structures discriminatory analysis (PLS-DA) were adopted to assess general data validity, to pick protein fractions for identification with mass spectrometry (MS), and to test predictive value of the resulting model.Results: Proteins (n = 113) detected in more than 90% patients were considered representative. Unsupervised PCA showed excellent natural data clustering without outliers. Protein spots reaching Variable Importance in Projection score above 1 in PLS (n = 42) were subjected to MS, yielding 33 positive identifications. The PLS model rebuilt with these proteins achieved accurate classification of all patients (R2X = 0.553, R2Y = 0.953, Q2 = 0.947). Thus, multiple earlier recognized biomarkers of DN were confirmed and several putative new biomarkers suggested. Among them, the highest significance was met in kininogen-1. Its activation products detected in nMA patients exceeded by an order of magnitude the amount found in MA patients.Conclusions: Reducing metabolic complexity of the diseased and control groups by meticulous patients' selection allows to focus the biomarker search in DN. Suggested new biomarkers, particularly kininogen fragments, exhibit the highest degree of correlation with MA and substantiate validation in larger and more varied cohorts. [ABSTRACT FROM AUTHOR]

Published

2017

134. Kinin receptors: Key regulators of autoimmunity.

Author

Dutra, Rafael Cypriano

Subjects

*KININS, *AUTOIMMUNITY -- Molecular aspects, *PREVENTIVE medicine, *MULTIPLE sclerosis, *INFLAMMATORY bowel diseases, *IMMUNOLOGY

Abstract

The central function of the immune system is to protect the host from environmental agents such as microbes or chemicals, thereby preserving the integrity of the body, and preventing the onset of illness and infection. Moreover, the immune system is constantly challenged to discriminate self vs. non-self and mediate the correct response, a phenomenon called self-tolerance. The failure of mechanisms responsible for self-tolerance and induction of an immune response against components of the self, induces autoimmunity and culminates however, in several autoimmune diseases. The precise etiology of autoimmune diseases is not known, although the classic sign of an autoimmune disease is inflammation. In this context, kinins are a family of peptides involved in different physiological and pathological states, comprising inflammatory, vascular and pain processes, and are highly relevant as well as to a variety of diseases including hypertension, kidney diseases, Alzheimer's disease, cancer, obesity, epilepsy and traumatic injuries. These kinin effects are mediated by two related G-protein-coupled receptors named the bradykinin receptors (BKRs), B1 and B2. The kallikrein–kinin system (KKS) and their receptors appear to be involved in both the development and progression of autoimmune diseases, suggesting that modulators of BKRs, administered in monotherapy or in combination with existing therapies, may represent a potential new venue for an effective autoimmune disease treatment. This review article highlights historical and recent progress in understanding the role of BKRs as potential therapeutics for a number of autoimmune diseases, including multiple sclerosis, rheumatoid arthritis, type I diabetes mellitus, inflammatory bowel diseases, and others. [ABSTRACT FROM AUTHOR]

Published

2017

135. Stabilization of Short-Lived Peptides of the Kallikrein-Kinin System in Human Plasma to Facilitate Use as Promising Biomarkers

Author

Tanja Gangnus and Bjoern B. Burckhardt

Subjects

Kallikrein-Kinin System, Biochemistry (medical), Clinical Biochemistry, Bradykinin, Kallikrein kinin system, Pharmacology, Protease inhibitor (biology), Plasma, chemistry.chemical_compound, chemistry, Contact activation, Human plasma, medicine, Humans, Kallikreins, Peptides, Biomarkers, medicine.drug

Published

2021

136. SARS-CoV-2 receptor is co-expressed with elements of the kinin–kallikrein, renin–angiotensin and coagulation systems in alveolar cells

Author

William H. Velander, Adriano J. Ferruzzi, Licio A. Velloso, Munir S. Skaf, Carlos Poblete Jara, Eliana P. Araújo, and Davi Sidarta-Oliveira

Subjects

0301 basic medicine, Kallikrein-Kinin System, Immunology, Bradykinin, lcsh:Medicine, 030204 cardiovascular system & hematology, Peptidyl-Dipeptidase A, Article, Pathogenesis, Alveolar cells, Renin-Angiotensin System, 03 medical and health sciences, chemistry.chemical_compound, Betacoronavirus, 0302 clinical medicine, Renin–angiotensin system, medicine, Humans, Receptor, lcsh:Science, Blood Coagulation, Lung, Multidisciplinary, business.industry, SARS-CoV-2, Gene Expression Profiling, Serine Endopeptidases, lcsh:R, Kinin, Computational biology and bioinformatics, Pulmonary Alveoli, 030104 developmental biology, medicine.anatomical_structure, chemistry, Angiotensin-converting enzyme 2, lcsh:Q, Angiotensin-Converting Enzyme 2, business

Abstract

SARS-CoV-2, the pathogenic agent of COVID-19, employs angiotensin converting enzyme-2 (ACE2) as its cell entry receptor. Clinical data reveal that in severe COVID-19, SARS-CoV-2 infects the lung, leading to a frequently lethal triad of respiratory insufficiency, acute cardiovascular failure, and coagulopathy. Physiologically, ACE2 plays a role in the regulation of three systems that could potentially be involved in the pathogenesis of severe COVID-19: the kinin–kallikrein system, resulting in acute lung inflammatory edema; the renin–angiotensin system, promoting cardiovascular instability; and the coagulation system, leading to thromboembolism. Here we assembled a healthy human lung cell atlas meta-analysis with ~ 130,000 public single-cell transcriptomes and show that key elements of the bradykinin, angiotensin and coagulation systems are co-expressed with ACE2 in alveolar cells and associated with their differentiation dynamics, which could explain how changes in ACE2 promoted by SARS-CoV-2 cell entry result in the development of the three most severe clinical components of COVID-19.

Published

2020

137. Penicillin causes non-allergic anaphylaxis by activating the contact system

Author

Yixin Han, Rui Hou, Yun Qi, Ruijuan Qi, Qiaoling Fei, Xiaoyu Zhang, Runlan Cai, Yuan Gao, and Cheng Peng

Subjects

0301 basic medicine, Male, Receptor, Bradykinin B2, Kallikrein-Kinin System, lcsh:Medicine, Hypothermia, Pharmacology, Factor XIIa, Rats, Sprague-Dawley, chemistry.chemical_compound, Mice, 0302 clinical medicine, Icatibant, Medicine, lcsh:Science, Bradykinin Receptor Antagonists, Factor XII, Mice, Inbred BALB C, Multidisciplinary, Penicillin G, Receptor antagonist, Propranolol, Hypersensitivity reaction, Anaphylaxis, medicine.drug, medicine.drug_class, Bradykinin, beta-Lactams, Article, Capillary Permeability, 03 medical and health sciences, Cell death and immune response, Human Umbilical Vein Endothelial Cells, Animals, Humans, Blood Coagulation, business.industry, lcsh:R, medicine.disease, Coagulation system, Rats, Penicillin, Enzyme Activation, 030104 developmental biology, chemistry, Pertussis Toxin, lcsh:Q, business, 030217 neurology & neurosurgery

Abstract

Immediate hypersensitivity reaction (IHR) can be divided into allergic- and non-allergic-mediated, while “anaphylaxis” is reserved for severe IHR. Clinically, true penicillin allergy is rare and most reported penicillin allergy is “spurious”. Penicillin-initiated anaphylaxis is possible to occur in skin test- and specific IgE-negative patients. The contact system is a plasma protease cascade initiated by activation of factor XII (FXII). Many agents with negative ion surface can activate FXII to drive contact system. Our data showed that penicillin significantly induced hypothermia in propranolol- or pertussis toxin-pretreated mice. It also caused a rapid and reversible drop in rat blood pressure, which did not overlap with IgE-mediated hypotension. These effects could be countered by a bradykinin-B2 receptor antagonist icatibant, and consistently, penicillin indeed increased rat plasma bradykinin. Moreover, penicillin not only directly activated contact system FXII-dependently, but also promoted bradykinin release in plasma incubated-human umbilical vein endothelial cells. In fact, besides penicillin, other beta-lactams also activated the contact system in vitro. Since the autoactivation of FXII can be affected by multiple-factors, plasma from different healthy individuals showed vastly different amidolytic activity in response to penicillin, suggesting the necessity of determining the potency of penicillin to induce individual plasma FXII activation. These results clarify that penicillin-initiated non-allergic anaphylaxis is attributed to contact system activation, which might bring more effective diagnosis options for predicting penicillin-induced fatal risk and avoiding costly and inappropriate treatment clinically.

Published

2020

138. Exogenous pancreatic kininogenase protects against renal fibrosis in rat model of unilateral ureteral obstruction

Author

Can Li, Kang Luo, Yu-ji Jiang, Sheng Cui, Hai-lan Zheng, Hui-Ying Li, Jia-Chong Xu, Jian Jin, Yi Quan, Ying-shun Jin, Xiong-Hu Shen, Shang-Guo Piao, Yan-Ling Wu, Ji-zhe Jin, and Long-Ye Zhang

Subjects

Male, 0301 basic medicine, Kallikrein-Kinin System, Bradykinin, Pharmacology, Kidney, Protective Agents, urologic and male genital diseases, Article, Cell Line, Proinflammatory cytokine, Rats, Sprague-Dawley, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Fibrosis, Icatibant, medicine, Renal fibrosis, Animals, Humans, Pharmacology (medical), Pancreas, Inflammation, Cell Death, business.industry, General Medicine, medicine.disease, CTGF, Oxidative Stress, 030104 developmental biology, medicine.anatomical_structure, chemistry, Apoptosis, 030220 oncology & carcinogenesis, Kallikreins, business, Signal Transduction, Ureteral Obstruction

Abstract

Tissue kallikrein has protective function against various types of injury. In this study, we investigated whether exogenous pancreatic kininogenase (PK) conferred renoprotection in a rat model of unilateral ureteral obstruction (UUO) and H(2)O(2)-treated HK-2 cells in vitro. SD rats were subjected to UUO surgery, then PK (7.2 U/g per day, ip) was administered for 7 or 14 days. After the treatment, rats were euthanized; the obstructed kidneys were harvested for further examination. We found that PK administration significantly attenuated interstitial inflammation and fibrosis, and downregulated the expression of proinflammatory (MCP-1, TLR-2, and OPN) and profibrotic (TGF-β1 and CTGF) cytokines in obstructed kidney. UUO-induced oxidative stress, closely associated with excessive apoptotic cell death and autophagy via PI3K/AKT/FoxO1a signaling, which were abolished by PK administration. We further showed that PK administration increased the expression of bradykinin receptors 1 and 2 (B1R and B2R) mRNA and the production of NO and cAMP in kidney tissues. Coadministration with either B1R antagonist (des-Arg9-[Leu8]-bradykinin) or B2R antagonist (icatibant) abrogated the renoprotective effects of PK, and reduced the levels of NO and cAMP in obstructed kidney. In H(2)O(2)-treated HK-2 cells, addition of PK (6 pg/mL) significantly decreased ROS production, regulated the expression of oxidant and antioxidant enzymes, suppressed the expression of TGF-β1 and MCP-1, and inhibited cell apoptosis. Our data demonstrate that PK treatment protects against the progression of renal fibrosis in obstructed kidneys.

Published

2020

139. Kallikrein-kinin system and oxidative stress in cisplatin-induced ovarian toxicity

Author

Markus Berger, Jorge A. Guimarães, Laura Silveira Ayres, Bruna Gomes dos Santos, Isabel Cirne Lima de Oliveira Durli, Cristiana Palma Kuhl, Elizabeth Obino Cirne-Lima, Tuane Nerissa Alves Garcez, Paula Barros Terraciano, and Eduardo Pandolfi Passos

Subjects

Receptor, Bradykinin B2, Kallikrein-Kinin System, Bradykinin, Antineoplastic Agents, Inflammation, 010501 environmental sciences, Pharmacology, Nitric Oxide, Receptor, Bradykinin B1, Toxicology, medicine.disease_cause, 01 natural sciences, Proinflammatory cytokine, 03 medical and health sciences, chemistry.chemical_compound, medicine, Animals, Receptor, 030304 developmental biology, 0105 earth and related environmental sciences, Cisplatin, 0303 health sciences, Chemistry, Ovary, Kallikrein, Glutathione, Mice, Inbred C57BL, Oxidative Stress, Female, Kallikreins, medicine.symptom, Oxidative stress, medicine.drug

Abstract

Kallikrein-kinin system (KKS) is involved in vascular reactivity and inflammatory response to cytotoxic drugs. Since cisplatin is a widely used chemotherapy and its cytotoxic mechanism can trigger inflammation and oxidative damage, in this work we evaluated the role of KKS in an animal model of cisplatin-induced ovarian toxicity. Biomarkers of ovarian stem cells, activity of KKS, inflammation and oxidative damage were measured in ovarian tissue of C57BL/6 female mice treated with vehicle or cisplatin (2.5 mg/kg). Cisplatin group presented greater number of atretic follicles, and lower numbers of antral and total viable follicles. Ki67, DDX4 and OCT-4 markers were similar between groups. Cisplatin triggered plasma and ovarian tissue kallikrein generation; and increased expression of bradykinin receptors B1 and B2. Neutrophil and macrophage infiltration markers increased. Superoxide anion generation also increased, while reduced glutathione levels decreased. These results suggest that KKS is activated and contributes to ovarian injury during cisplatin treatment.

Published

2020

140. Carbon-Coated Stent and the Role of the Kallikrein-Kinin System in Peripheral Angioplasty

Author

Laura Andrade Rocha, Edwaldo Edner Joviliano, Julie Massayo Maeda Oda, Maurício Serra Ribeiro, Cesar Presto Campos, Carlos Eli Piccinato, and Renata Dellalibera-Joviliano

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Kininogen, High-Molecular-Weight, Percutaneous, Kallikrein-Kinin System, Physiology, medicine.medical_treatment, Tissue kallikrein, Urology, Peptidyl-Dipeptidase A, 030204 cardiovascular system & hematology, ESTUDOS PROSPECTIVOS, Peripheral Arterial Disease, 03 medical and health sciences, 0302 clinical medicine, Restenosis, Angioplasty, Occlusion, medicine, Humans, Prospective Studies, Prospective cohort study, Aged, business.industry, Stent, Kallikrein, Middle Aged, medicine.disease, Carbon, 030104 developmental biology, Female, Kallikreins, Stents, Cardiology and Cardiovascular Medicine, business

Abstract

Objective: The purpose of this study was to investigate the clinical evolution of patients treated with carbon-coated stent, as well as its patency and the inflammatory response triggered by this process through the quantification of serum elements of the kallikrein-kinin system (KKS). Methods: This was a single-center prospective study with 27 patients with peripheral artery disease (PAD) who required percutaneous transluminal angioplasty and stenting of the iliacofemoropopliteal segment using carbon-coated stent grafts (carbostents). The blood concentrations of the total and kininogen fractions were evaluated using immunoenzymatic methods. Plasma kallikrein levels were assessed by the colorimetric method and tissue kallikrein levels were evaluated by the spectrophotometric method. The activity of kininase II was measured by ­fluorometric analysis. Results: Of the 27 patients who completed the 6 months of the study (11 iliac territory, 16 femoropopliteal territory), only one experienced restenosis (3.7%) (femoropopliteal segment) and no patient had occlusion (96.3% of patency). In 1 year, four patients were lost to follow-up and all 23 patients evaluated maintained stent patency, except for the patient who had restenosis throughout the first 6 months. We report complete (100%) member salvage in 12 months of follow-up. The activity levels of high- and low-molecular-weight kininogens decreased significantly over time (before vs. 24 h, p < 0.01; before vs. 6 months, p < 0.001, and before vs. 24 h, p < 0.01; before vs. 6 months, p < 0.001; 24 h vs. 6 months, p < 0.001, respectively). Patients also had significantly lower levels of plasma and tissue kallikrein (before vs. 24 h, p < 0.001; before vs. 6 months, p < 0.001, and before vs. 24 h, p < 0.01; before vs. 6 months, p < 0.05, respectively). There was a significant increase in the enzymatic activity of kininase II at 24 h and after 6 months compared to the pre-treatment control (p < 0.001). Conclusion: Our early experience shows that the use of carbon-coated stents in PAD appears to be safe, with low rates of early restenosis (3.7% in the first 6 months and 5% in the 12 months of follow-up). We concluded that KKS was involved in the inflammatory response caused by the placement of carbon-coated stents.

Published

2020

141. Functional analysis of components of the kallikrein-kinin system in genetically altered rat models

Author

Maghsodi, Sara

Subjects

kallikrein-kinin system, rat models, Bradykinin, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit

Abstract

The kallikrein‐kinin system (KKS) in mammals consists of kininogens, kallikreins, kininases and kinins. One of the main products of this cascade is bradykinin (BK). The physiological activity of BK is multidirectional and, besides its cardioprotective functions, it has multiple pathophysiologic functions such as: induction of vasodilation, increase in vascular permeability and the consequent induction of angioedema. Two kinin receptors have been described; the inducible B1 receptor (B1R) and the constitutive B2 receptor (B2R). To clarify their vascular function, we generated transgenic rats overexpressing either B1R (B1R-TGR) or B2R (B2R-TGR) exclusively on the endothelium. We observed spontaneous edema formation together with a severe pancreatitis in about 10% of B2R-TGR. To clarify the contribution of second messenger systems as well as K+ and Ca2+ channels to the signaling mechanisms involved in B1R and B2R mediated vasorelaxation, the reactivity of aorta rings was first investigated. Our data suggest that prostaglandins are not involved in the B1R and B2R agonist-induced vasorelaxation. However, the present data provide strong evidence that NO-mediated stimulation of K+ channels is involved both in B1R- and B2R induced vasorelaxation. It is evident that, in particular, the large conductance Ca2+ sensitive K+ channels are involved. In addition, we also found the involvement of transient receptor potential channels, specifically TRPC4, in vasorelaxation induced by kinins in both B1R and B2R transgenic aorta. Since it has been shown that ACE-inhibitors such as enalapril (ENA) induce edema in patients, we tested the chronic treatment of ENA in B2R-TGR animals, which may be a model for spontaneous angioedema. In addition, the acute effect of the B2R antagonist Hoe140 was tested in B2R-TGR with spontaneous edema. Our data revealed that ENA significantly increased extravasations in some tissues like testis, stomach, heart, lung and kidney compared to the control group. Furthermore, we observed that acute treatment of edemic B2R-TGR with the B2R antagonist Hoe140 significantly decreased extravasations in the heart. Since carboxypeptidase M (CPM) generates the agonists of B1R, we generated CPM knock-out rats (CPM-KO). Besides kinins, CPM also metabolizes other proteins, peptides and several chemokines, in particular CXCL12. In the bone marrow, CXCL12 affects the development and regulation of hematopoietic stem cells and their mobilization. Using FACS, we observed a significant reduction of B‐cells in CPM‐KO blood compared to controls, and the percentage of non‐classical monocytes decreased and CD8+ T cells increased in CPM‐KO spleen. In CPM‐KO bone marrow, the percentage of T cells, CD8+T cells and classical monocytes increased., Das Kallikrein‐Kinin‐System (KKS) besteht aus Kininogenen, Kallikreinen, Kininasen und Kininen. Eines der Hauptprodukte dieser Kaskade ist Bradykinin (BK). BK hat neben seinen kardioprotektiven Funktionen mehrere pathophysiologische Funktionen wie: Induktion der Vasodilatation, Erhöhung der Gefäßpermeabilität und folglich Induktion von Angioödemen. Zwei Kinin-Rezeptoren wurden beschrieben; der induzierbare B1-Rezeptor (B1R) und der konstitutive B2-Rezeptor (B2R). Um ihre vaskuläre Funktion zu klären, haben wir transgene Ratten erzeugt, die entweder den B1R (B1R-TGR) oder B2R (B2R-TGR) ausschließlich auf dem Endothel überexprimieren. Bei etwa 10% der B2R-TGR beobachteten wir eine spontane Ödem Bildung zusammen mit einer schweren Pankreatitis. Zur Klärung der Beteiligung von Second-MessengerSystemen, K+- und Ca2+-Kanälen an den Signalmechanismen der B1R- und B2R-vermittelten Vasorelaxation, wurde zunächst die Reaktivität von Aortenringen untersucht. Unsere Daten legen nahe, dass Prostaglandine nicht an der durch B1R- und B2R-Agonisten induzierten Gefäßrelaxation beteiligt sind. Unsere Daten liefern jedoch starke Beweise dafür, dass die NOvermittelte Stimulation von K+-Kanälen sowohl an der B1R- als auch an der B2R-induzierten Vasorelaxation beteiligt ist. Es ist offensichtlich, dass besonders Ca2+-regulierte K+-Kanäle beteiligt sind. Darüber hinaus fanden wir auch die Beteiligung von transient receptor potential channels, insbesondere TRPC4, an der durch Kinine induzierten Vasorelaxation sowohl in der transgenen B1R- als auch in der B2R-transgenen Aorta. Da gezeigt wurde, dass ACE-Hemmer wie Enalapril (ENA) bei Patienten Ödeme induzieren, wurde die chronische Behandlung von ENA an B2R-TGR-Tieren getestet, die ein Modell für spontane Angioödeme sein können. Außerdem wurde die akute Wirkung des B2R-Antagonisten Hoe140 in B2R-TGR mit Spontanödem getestet. Unsere Daten zeigten, dass ENA die Permeabilität in einigen Geweben wie Hoden, Magen, Herz, Lunge und Niere im Vergleich zur Kontrollgruppe signifikant erhöhte. Weiter beobachteten wir, dass die akute Behandlung von ödemischem B2R-TGR mit dem B2R-Antagonisten Hoe140 die Extravasation im Herzen signifikant verringerte. Da Carboxypeptidase M (CPM) die Agonisten für B1R generiert, haben wir CPM Knockout Ratten (CPM-KO) generiert. Neben Kininen metabolisiert CPM weitere Proteine, Peptide und verschiedene Chemokine, insbesondere CXCL12. Im Knochenmark beeinflusst CXCL12 die Entwicklung und Regulation von hämatopoetischen Stammzellen und deren Mobilisierung. Mit FACS beobachteten wir eine signifikante Reduktion von B-Zellen im CPM-KO Blut im Vergleich zu Kontrollen und der Anteil nicht-klassischer Monozyten nahm ab und CD8+ T-Zellen stiegen an in der CPM-KO Milz. Im CPM-KO Knochenmark stieg der Prozentsatz an T-Zellen, CD8+ T-Zellen und klassischen Monozyten.

Published

2022

142. Patent Issued for Polymorphs of N-[(3-fluoro-4-methoxypyridin-2-yl)methyl]-3-(methoxymethyl)-1-({4-[(2-oxopyridin-1-yl)methyl]phenyl}methyl)pyrazole-4-carboxamide and salts thereof (USPTO 11739068).

Published

2023

143. Clinic-biochemistry basis application of biocontrol magneticlaser therapy of chronic abacterial prostatitis

Author

M. I. Kogan, Z. I. Mikashinovich, А. V. Shangichev, I. I. Belousov, and Е. А. Chernogubova

Subjects

chronic abacterial prostatitis, kallikrein-kinin system, oxide of nitrogen, biocontrol magneticlaser therapy, Medicine (General), R5-920

Abstract

Purpose: Determination of effectivity on the basis of estimation the activity KKS and NS in dynamics standard and biocontrol magneticlaser therapy patients with CAP/CPPS IIIA.Materials and Methods: 1st group - 42 patients with standard therapy and 2nd group – patients with biocontrol MLT.Results: In the blood of patients 2nd group the activity of α1-PI (рв

Published

2010

144. Cardioprotective effect of ornitho-kinin in an anesthetized, open-chest chicken model of acute coronary occlusion

Author

B.C. Prezoto, G.K. Couto, L.V. Rossoni, G.H.M. Schoorlemmer, B.A. Carillo, and R.R. Campos

Subjects

Chicken, Infarct size, Kallikrein-kinin system, Ornitho-kinin, Factor XII, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The generation of bradykinin (BK; Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg) in blood and kallidin (Lys-BK) in tissues by the action of the kallikrein-kinin system has received little attention in non-mammalian vertebrates. In mammals, kallidin can be generated by the coronary endothelium and myocytes in response to ischemia, mediating cardioprotective events. The plasma of birds lacks two key components of the kallikrein-kinin system: the low molecular weight kininogen and a prekallikrein activator analogous to mammalian factor XII, but treatment with bovine plasma kallikrein generates ornitho-kinin [Thr6,Leu8]-BK. The possible cardioprotective effect of ornitho-kinin infusion was investigated in an anesthetized, open-chest chicken model of acute coronary occlusion. A branch of the left main coronary artery was reversibly ligated to produce ischemia followed by reperfusion, after which the degree of myocardial necrosis (infarct size as a percent of area at risk) was assessed by tetrazolium staining. The iv injection of a low dose of ornitho-kinin (4 µg/kg) reduced mean arterial pressure from 88 ± 12 to 42 ± 7 mmHg and increased heart rate from 335 ± 38 to 402 ± 45 bpm (N = 5). The size of the infarct was reduced by pretreatment with ornitho-kinin (500 µg/kg infused over a period of 5 min) from 35 ± 3 to 10 ± 2% of the area at risk. These results suggest that the physiological role of the kallikrein-kinin system is preserved in this animal model in spite of the absence of two key components, i.e., low molecular weight kininogen and factor XII.

Published

2009

145. COVID-19 and Lung Mast Cells: The Kallikrein-Kinin Activation Pathway

Author

Seigo Nagashima, Anderson Azevedo Dutra, Mayara Pezzini Arantes, Rafaela Chiuco Zeni, Carolline Konzen Klein, Flávia Centenaro de Oliveira, Giulia Werner Piper, Isadora Drews Brenny, Marcos Roberto Curcio Pereira, Rebecca Benicio Stocco, Ana Paula Camargo Martins, Eduardo Morais de Castro, Caroline Busatta Vaz de Paula, Andréa Novaes Moreno Amaral, Cleber Machado-Souza, Cristina Pellegrino Baena, and Lucia Noronha

Subjects

Adult, Male, QH301-705.5, Kallikrein-Kinin System, Catalysis, Inorganic Chemistry, Capillary Permeability, mast cells (MCs), Humans, Mast Cells, Biology (General), Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Lung, Spectroscopy, Aged, COVID-19, kallikrein–kinin system (KKS), vascular hyperpermeability, edema, inflammation, SARS-CoV-2, Organic Chemistry, Caspase 1, General Medicine, Middle Aged, Interleukin-33, humanities, Computer Science Applications, Chemistry, Female, Angiotensin-Converting Enzyme 2, Autopsy

Abstract

Mast cells (MCs) have relevant participation in inflammatory and vascular hyperpermeability events, responsible for the action of the kallikrein–kinin system (KKS), that affect patients inflicted by the severe form of COVID-19. Given a higher number of activated MCs present in COVID-19 patients and their association with vascular hyperpermeability events, we investigated the factors that lead to the activation and degranulation of these cells and their harmful effects on the alveolar septum environment provided by the action of its mediators. Therefore, the pyroptotic processes throughout caspase-1 (CASP-1) and alarmin interleukin-33 (IL-33) secretion were investigated, along with the immunoexpression of angiotensin-converting enzyme 2 (ACE2), bradykinin receptor B1 (B1R) and bradykinin receptor B2 (B2R) on post-mortem lung samples from 24 patients affected by COVID-19. The results were compared to 10 patients affected by H1N1pdm09 and 11 control patients. As a result of the inflammatory processes induced by SARS-CoV-2, the activation by immunoglobulin E (IgE) and degranulation of tryptase, as well as Toluidine Blue metachromatic (TB)-stained MCs of the interstitial and perivascular regions of the same groups were also counted. An increased immunoexpression of the tissue biomarkers CASP-1, IL-33, ACE2, B1R and B2R was observed in the alveolar septum of the COVID-19 patients, associated with a higher density of IgE+ MCs, tryptase+ MCs and TB-stained MCs, in addition to the presence of intra-alveolar edema. These findings suggest the direct correlation of MCs with vascular hyperpermeability, edema and diffuse alveolar damage (DAD) events that affect patients with a severe form of this disease. The role of KKS activation in events involving the exacerbated increase in vascular permeability and its direct link with the conditions that precede intra-alveolar edema, and the consequent DAD, is evidenced. Therapy with drugs that inhibit the activation/degranulation of MCs can prevent the worsening of the prognosis and provide a better outcome for the patient.

Published

2021

146. Interactions amongst inflammation, renin-angiotensin-aldosterone and kallikrein-kinin systems: suggestive approaches for COVID-19 therapy

Author

Oliveira, Lilian Caroline Gonçalves, Cruz, Nayara Azinheira Nobrega, Ricelli, Bruna, Tedesco-Silva, Helio, Medina-Pestana, José Osmar, and Casarini, Dulce Elena

Subjects

Inflammation, RC955-962, COVID-19, Review, Toxicology, SARS-associated coronavirus, Coronavirus, Infectious Diseases, QL1-991, Arctic medicine. Tropical medicine, RA1190-1270, Renin-angiotensin-aldosterone system, Toxicology. Poisons, Kallikrein-kinin system, Animal Science and Zoology, Parasitology, Zoology

Abstract

Coronavirus disease 2019 (COVID-19) is a rapid-spread infectious disease caused by the SARS-CoV-2 virus, which can culminate in the renin-angiotensin-aldosterone (RAAS) and kallikrein-kinin (KKS) systems imbalance, and in serious consequences for infected patients. This scoping review of published research exploring the RAAS and KKS was undertaken in order to trace the history of the discovery of both systems and their multiple interactions, discuss some aspects of the viral-cell interaction, including inflammation and the system imbalance triggered by SARS-CoV-2 infection, and their consequent disorders. Furthermore, we correlate the effects of continued use of the RAAS blockers in chronic diseases therapies with the virulence and physiopathology of COVID-19. We also approach the RAAS and KKS-related proposed potential therapies for treatment of COVID-19. In this way, we reinforce the importance of exploring both systems and the application of their components or their blockers in the treatment of coronavirus disease.

Published

2021

147. SARS-CoV-2 Exacerbates COVID-19 Pathology Through Activation of the Complement and Kinin Systems

Author

Anne G. Savitt, Samantha Manimala, Tiara White, Marina Fandaros, Wei Yin, Huiquan Duan, Xin Xu, Brian V. Geisbrecht, David A. Rubenstein, Allen P. Kaplan, Ellinor I. Peerschke, and Berhane Ghebrehiwet

Subjects

Sars-CoV-2, Kallikrein-Kinin System, High-molecular-weight kininogen, Immunology, Kinin–kallikrein system, Bradykinin, Hemolysis, law.invention, Mitochondrial Proteins, Classical complement pathway, chemistry.chemical_compound, law, post COVID “long-haulers”, Humans, Immunology and Allergy, complement, Receptor, Antigens, Viral, Original Research, Viral Structural Proteins, Chemistry, kinin-kallikrein system, COVID-19, Complement System Proteins, RC581-607, Kinin, Recombinant Proteins, Complement system, Cell biology, Recombinant DNA, bradykinin, Immunologic diseases. Allergy, Carrier Proteins

Abstract

Infection with SARS-CoV-2 triggers the simultaneous activation of innate inflammatory pathways including the complement system and the kallikrein-kinin system (KKS) generating in the process potent vasoactive peptides that contribute to severe acute respiratory syndrome (SARS) and multi-organ failure. The genome of SARS-CoV-2 encodes four major structural proteins – the spike (S) protein, nucleocapsid (N) protein, membrane (M) protein, and the envelope (E) protein. However, the role of these proteins in either binding to or activation of the complement system and/or the KKS is still incompletely understood. In these studies, we used: solid phase ELISA, hemolytic assay and surface plasmon resonance (SPR) techniques to examine if recombinant proteins corresponding to S1, N, M and E: (a) bind to C1q, gC1qR, FXII and high molecular weight kininogen (HK), and (b) activate complement and/or the KKS. Our data show that the viral proteins: (a) bind C1q and activate the classical pathway of complement, (b) bind FXII and HK, and activate the KKS in normal human plasma to generate bradykinin and (c) bind to gC1qR, the receptor for the globular heads of C1q (gC1q) which in turn could serve as a platform for the activation of both the complement system and KKS. Collectively, our data indicate that the SARS-CoV-2 viral particle can independently activate major innate inflammatory pathways for maximal damage and efficiency. Therefore, if efficient therapeutic modalities for the treatment of COVID-19 are to be designed, a strategy that includes blockade of the four major structural proteins may provide the best option.

Published

2021

148. A site on factor XII required for productive interactions with polyphosphate.

Author

Shamanaev A, Litvak M, Cheng Q, Ponczek M, Dickeson SK, Smith SA, Morrissey JH, and Gailani D

Subjects

Humans, Animals, Mice, Prekallikrein metabolism, Polyphosphates, HEK293 Cells, Factor XI metabolism, Factor XIIa metabolism, Factor XII metabolism, Thrombosis

Abstract

Background: During plasma contact activation, factor XII (FXII) binds to surfaces through its heavy chain and undergoes conversion to the protease FXIIa. FXIIa activates prekallikrein and factor XI (FXI). Recently, we showed that the FXII first epidermal growth factor-1 (EGF1) domain is required for normal activity when polyphosphate is used as a surface., Objectives: The aim of this study was to identify amino acids in the FXII EGF1 domain required for polyphosphate-dependent FXII functions., Methods: FXII with alanine substitutions for basic residues in the EGF1 domain were expressed in HEK293 fibroblasts. Wild-type FXII (FXII-WT) and FXII containing the EGF1 domain from the related protein Pro-HGFA (FXII-EGF1) were positive and negative controls. Proteins were tested for their capacity to be activated, and to activate prekallikrein and FXI, with or without polyphosphate, and to replace FXII-WT in plasma clotting assays and a mouse thrombosis model., Results: FXII and all FXII variants were activated similarly by kallikrein in the absence of polyphosphate. However, FXII with alanine replacing Lys 73 , Lys 74 , and Lys 76 (FXII-Ala 73,74,76 ) or Lys 76 , His 78 , and Lys 81 (FXII-Ala 76,78,81 ) were activated poorly in the presence of polyphosphate. Both have <5% of normal FXII activity in silica-triggered plasma clotting assays and have reduced binding affinity for polyphosphate. Activated FXIIa-Ala 73,74,76 displayed profound defects in surface-dependent FXI activation in purified and plasma systems. FXIIa-Ala 73,74,76 reconstituted FXII-deficient mice poorly in an arterial thrombosis model., Conclusion: FXII Lys 73 , Lys 74 , Lys 76 , and Lys 81 form a binding site for polyanionic substances such as polyphosphate that is required for surface-dependent FXII function., Competing Interests: Declaration of competing interests D.G. receives consultant fees from pharmaceutical companies with an interest in the inhibition of contact activation and the kallikrein-kinin system for therapeutic purposes. All other authors have no conflicts to report., (Copyright © 2023 International Society on Thrombosis and Haemostasis. Published by Elsevier Inc. All rights reserved.)

Published

2023

149. The Role of the Kallikrein-Kinin System in Chronic Subdural Hematoma

Author

Fujisawa, Hirosuke, Ito, Haruhide, Yamashita, Junkoh, Saito, Kenichi, Higashi, Sotaro, Nakamura, Norio, editor, Hashimoto, Takuo, editor, and Yasue, Masaharu, editor

Published

1993

150. Involvement of skeletal renin-angiotensin system and kallikrein-kinin system in bone deteriorations of type 1 diabetic mice with estrogen deficiency.

Author

Zhang, Yan, Wang, Liang, Liu, Jin-Xin, Wang, Xin-Luan, Shi, Qi, and Wang, Yong-Jun

Subjects

*ANIMAL experimentation, *CALCIUM, *DIABETES, *ESTROGEN, *METABOLISM, *MICE, *OSTEOPOROSIS, *OVARIECTOMY, *PARATHYROID hormone, *RENIN-angiotensin system

Abstract

Aims: This study was aimed to investigate the involvement of skeletal renin-angiotensin system (RAS) and kallikrein-kinin system (KKS) in bone deteriorations of mice in response to the combination treatment of estrogen deficiency and hyperglycemia.Methods: The female C57BL/6J mice were sham-operated or ovariectomized with vehicle or streptozotocin (STZ) treatment. Two weeks later, the biochemistries in serum and urine were determined by standard colorimetric methods or ELISA. The H&E and TRAP staining were performed at the tibial proximal metaphysis. The polymerase chain reaction and immunoblotting were applied for molecular analysis on mRNA and protein expression.Results: The mice after treating with ovariectomy and STZ showed the decreased level of serum Ca and the increased level of serum PTH and urine Ca. The H&E staining showed trabecular bone abnormalities as demonstrated by the loss, disconnection and separation of trabecular bone network as well as the loss of chondrocytes and appearance of chondrocyte cluster at growth plate of tibia. The significant increase of matured osteoclast number was shown in group with double treatments. The combination treatment significantly up-regulated mRNA expression of AGT, ACE, renin receptor, MMP-9 and CAII, and protein expression of renin, and decreased the ratio of OPG/RANKL and the expression of bradykinin receptors in bone tissue.Conclusion: Ovariectomy combined with STZ induction produced more detrimental actions on bone through the activation of local bone RAS and the down-regulation of bradykinin receptors, as compared to the respective single treatment. [ABSTRACT FROM AUTHOR]

Published

2016