18 research outputs found
Связь полиморфизма Q141K гена ABCG2 с эффективностью уратснижающей терапии у пациентов с подагрой (пилотное исследование)
Achieving the target serum uric acid (UA) level is a priority in the treatment of gout.Objective: to study the relationship of the ABCG2 gene polymorphism (rs2231142) with the efficacy of allopurinol and febuxostat in patients with gout.Patients and methods. The study included 82 patients with gout over 18 years of age with serum UA level >360 μmol/L who did not take uratelowering therapy.All patients were prescribed allopurinol 100 mg daily, followed by its titration until the target UA level was reached (<360 μmol/L or <300 μmol/L in patients with chronic tofus gout), up to a maximum of 900 mg/day, in patients with glomerular filtration rate <60 ml/min/1.73 m2 – up to 300 mg/day. Patients who did not reach the target UA level when using allopurinol were prescribed febuxostat 80 mg/day, which, if necessary, was increased to 120 mg/day. Monitoring of each patient was continued until the target serum UA level was reached.All patients underwent genotyping of the C>A polymorphism (rs2231142) of the ABCG2 gene. We compared the probability of achieving the target UA level, the mean values of a decrease in the serum UA level, and the mean doses of urate-lowering drugs in patients with different genotypes (CC, CA, AA) of the ABCG2 gene.Results and discussion. The target UA level in 45 (55%) of 82 patients was defined as <300 μmol/L, in the remaining 37 – as <360 μmol/L.In 26 patients, the dose of allopurinol did not exceed 300 mg/day. In 28 (34%) patients treated with allopurinol, the target UA level was achieved, in the remaining 54 (66%) patients, allopurinol was substituted by febuxostat, and in 22 (41%) of them the UA level decreased and was below the target.The CC genotype of the ABCG2 gene was detected in 51 (62%) patients, the CA genotype in 30 (37%) and the minor genotype AA in 1 (1%).The probability of achieving the target UA level during therapy with allopurinol in carriers of homozygous CC genotype and genotypes CA or AA did not differ: 17 (33%) and 11 (35%) cases, respectively, but patients with CA and AA genotypes required a significantly higher dose of allopurinol (365±102 mg/day) than patients with the CC genotype (290±85 mg/day), p=0.002. Of the 54 patients who took febuxostat and did not reach the target UA level, 30 (56%) had the CC genotype and 24 (44%) had the CA genotype, the probability of reaching the target UA level was also comparable (p=0.22).Conclusion. The probability of reaching the target serum UA level in patients with gout taking allopurinol is not associated with the C>A polymorphism of the ABCG2 gene, but the presence of CA and AA genotypes is identified with a higher dose of the drug. The C>A (rs2231142) polymorphism of the ABCG2 gene does not affect the ability to achieve the goal of therapy when using febuxostat in patients with allopurinol ineffectiveness.Приоритетной задачей лечения подагры является достижение целевого уровня МК в сыворотке крови.Цель исследования – изучение взаимосвязи полиморфизма (rs2231142) гена ABCG2 с эффективностью аллопуринола и фебуксостата у пациентов с подагрой.Пациенты и методы. В исследование включено 82 пациента с подагрой старше 18 лет с сывороточным уровнем МК >360 мкмоль/л, не принимавших уратснижающие препараты.Всем пациентам назначался аллопуринол в дозе 100 мг/сут с последующим ее титрованием до достижения целевого уровня МК (<360 мкмоль/л или <300 мкмоль/л у страдающих хронической тофусной подагрой), максимально – до 900 мг/сут, при скорости клубочковой фильтрации <60 мл/мин/1,73 м2 – до 300 мг/сут. Пациентам, не достигшим целевого уровня МК при использовании аллопуринола, назначался фебуксостат в дозе 80 мг/сут, которая при необходимости увеличивалась до 120 мг/сут. Наблюдение за каждым пациентом продолжали до достижения целевого уровня МК сыворотки.Всем пациентам проводилось генотипирование полиморфизма С>А (rs2231142) гена ABCG2. Сравнивали вероятность достижения целевого уровня МК, средние значения снижения сывороточного уровня МК, средние дозы уратснижающих препаратов у пациентов с разными генотипами (СС, СA, AA) гена ABCG2.Результаты и обсуждение. Целевой уровень МК у 45 (55%) из 82 пациентов был определен как <300 мкмоль/л, у остальных 37 – как <360 мкмоль/л. У 26 больных доза аллопуринола не превышала 300 мг/сут. У 28 (34%) пациентов на фоне терапии аллопуринолом зарегистрирован целевой уровень МК, у остальных 54 (66%) пациентов аллопуринол был заменен на фебуксостат, при этом у 22 (41%) из них уровень МК снизился и не превышал целевой.Генотип СС гена ABCG2 выявлен у 51 (62%) пациента, генотип СА – у 30 (37%) и минорный генотип – АА у 1 (1%). Вероятность достижения целевого уровня МК на фоне терапии аллопуринолом у носителей гомозиготного генотипа СС и генотипов СА или АА не различалась: 17 (33%) и 11 (35%) случаев соответственно, но пациентам с генотипами СА и АА требовалась значимо большая доза аллопуринола (365±102 мг/сут), чем пациентам с генотипом СС (290±85 мг/сут), р=0,002. Из 54 пациентов, принимавших фебуксостат и не достигших целевого уровня МК, 30 (56%) имели генотип СС и 24 (44%) – генотип СА, вероятность достижения целевого уровня МК у них также была сопоставимой (p=0,22).Заключение. Вероятность достижения целевого уровня МК сыворотки крови у пациентов с подагрой, принимающих аллопуринол, не связана с полиморфизмом С>А гена ABCG2, но наличие генотипов СА и АА отождествляется с большей дозой препарата. Полиморфизм С>А (rs2231142) гена ABCG2 не влияет на возможность достижения цели терапии при применении фебуксостата у пациентов с неэффективностью аллопуринола
Combination delivery of two oxime-loaded lipid nanoparticles: Time-dependent additive action for prolonged rat brain protection
© 2018 Elsevier B.V. A novel approach for brain protection against poisoning by organophosphorus agents is developed based on the combination treatment of dual delivery of two oximes. Pralidoxime chloride (2-PAM) and a novel reactivator, 6-(5-(6,7-dimethoxy-3,4-dihydroisoquinolin-2(1H)-yl)pentyl)-3-hydroxy picolinaldehyde oxime (3-HPA), have been loaded in solid-lipid nanoparticles (SLNs) to offer distinct release profile and systemic half-life for both oximes. To increase the therapeutic time window of both oximes, SLNs with two different compartments were designed to load each respective drug. Oxime-loaded SLNs of hydrodynamic diameter between 100 and 160 nm and negative zeta potential (−30 to −25 mV) were stable for a period of 10 months at 4 °C. SLNs displayed longer circulation time in the bloodstream compared to free 3-HPA and free 2-PAM. Oxime-loaded SLNs were suitable for intravenous (iv) administration. Paraoxon-poisoned rats (0.8 × LD50) were treated with 3-HPA-loaded SLNs and 2-PAM+3-HPA-loaded SLNs at the dose of 3-HPA and 2-PAM of 5 mg/kg. Brain AChE reactivation up to 30% was slowly achieved in 5 h after administration of 3-HPA-SLNs. For combination therapy with two oximes, a time-dependent additivity and increased reactivation up to 35% were observed
MOLECULAR GENETIC TESTING OF ACCP-POSITIVE PATIENTS WITH RHEUMATOID ARTHRITIS AND HIGH INFLAMMATORY DISEASE ACTIVITY (A REMARCA STUDY)
Rheumatoid arthritis (RA) is a multifactorial disease, in which the interaction of the genetic component and environmental factors, determines not only the development of the disease, but also its pronounced clinical polymorphism. We assume that the high inflammatory activity of RA may be determined by the genes, the products of which trigger inflammatory processes.Objective: to investigate allele and genotype distribution of gene polymorphic variants in active anti-cyclic citrullinated peptide (aCCP)-positive patients with RA from the REMARCA program versus a control group of healthy blood donors.Subjects and methods. A molecular genetic study enrolled 146 aCCP-positive patients from the REMARCA program and a control group of 314 healthy blood donors without autoimmune diseases and their presence in the history, who were matched with the study group for gender and sex. The polymorphic variants of the genes PTPN22 (+1858C>T, rs2476601), TNFAIP3 (rs6920220, rs10499194), CTLA4 (+49A>G, rs231775), TNFА (-308A>G, rs1800629), IL6 (-174G>C, rs1800795), IL6R (+358A>C, rs8192284), IL10 (-592A>C, rs1800872, -892 C>T, rs1800871, -1082 A>G, rs1800896), and MCP1/CCL2 (+2518A>G, rs1024611) were genotyped by a real-time polymerase chain reaction assay.Results and discussion. The genotype and allele frequencies of polymorphic variants of the genes CTLA4 (+49A>G), IL-6R (+358A>C), and IL10 (592A>C) in the RA group significantly differed from those in the control group. When comparing with the control group, the minor alleles of the CTLA4 and IL10 genes were markers for the risk of aCCP-positive RA with a high inflammatory activity (OR=1.4 [1.1; 1.9], p=0.02 and OR=1.9 [1.4; 2.5]; p=0.0001, respectively). At the same time, the minor C allele of the IL6R gene served as a marker of protection (OR=0.7 [0.5; 0.9]; p=0.03). Logistic regression analysis revealed that there was a statistically significant correlation of the high inflammatory activity indices SDAI, CDAI, and DAS28 with the minor homozygous GG genotype of the CTLA4 gene (OR=2.5 [1.1; 6.0]; p=0.03, OR=2.6 [1.1–6.4], p=0.03 and OR=3.4 [1.3–8.8]; p=0.01, respectively). In addition, the inflammatory activity indices SDAI and CDAI rather than DAS28-ESR were associated with at least one minor A allele (the AA/AC genotypes) of the IL10 gene (OR=2.4 [1.2; 5.1], p=0.02 and OR=2.2 [1.1; 4.7]; p=0.03, respectively). The levels of ESR and CRP were not associated with the examined polymorphisms.Conclusion. The findings may suggest that there is a relationship of the polymorphisms of the genes CTLA4 (+49A>G, rs231775), IL6R (+358A>C, rs8192284), and IL10 (-592A>C, rs1800872) to high inflammatory activity in the group of aCCP-positive patients from the REMARCA study
The rs7574865 polymorphism of the <i>STAT4</i> gene and risk of early rheumatoid arthritis development (the REMARKA study)
The aim of the study was investigation of association of the rs7574865 polymorphism of STAT4 gene (Signal Transducer and Activator of Transcription 4, a family of signal transduction and transcription activation molecules 4) with very early rheumatoid arthritis (RA) in Russian patients, and the study of the relationship of "phenotype – genotype", particularly of positivity for antibodies to cyclic citrullinated peptides (ACCP), their concentration, the presence of erosive joint damage at inclusion in patients the study with the STAT4 gene polymorphism. Material and methods. The study was conducted in the framework of the program REMARKA (Russian study of Methotrexate and biological drugs in Early active Arthritis). 85 patients with very early RA with a duration of symptoms no more than 6 months, not receiving disease modifying anti-rheumatic drugs (DMARD) and biologicals were included. Results and discussion. The analysis of the distribution of genotypes and alleles of STAT4 rs7574865 polymorphism showed that the frequencies of g/G, G/T and T/T genotypes differ at the level of the prominent tendency to statistical significance between patients with RA and the control group (p=0.05). The frequency of minor allele T in RA is significantly higher than that in the control group, and this allele is associated with a predisposition to RA [odds ratio (OR) 1.7; 95% confidence interval (CI) 1.1–2.8; p=0.03]. In the study of the "genotype – phenotype" relationship, STAT4 gene polymorphism correlated with erosive joint damage (r2=0.289; p=0.008). In carriers of the homozygous genotype TT, the number of erosions at inclusion in the study was significantly higher compared with carriers of genotypes GG/GT (median 5.50 [0.754; 7.5] and 0.00 [0.00; 2.00], respectively; p=0.003). The risk of erosion is also associated with the polymorphism of the STAT4 gene (OR 8.6; 95% CI 1.0–204.9; p=0.03). A difference of the ACCP level depending on STAT4 gene polymorphism was revealed: carriers of at least one minor allele T (G/T+T/T) had significantly higher concentration of ACCP than that in carriers of homozygous GG genotype: 248.97±151.00 and 179.51±147.01 U/ml, respectively; p=0.048).Conclusion. The study showed that in Russian patients with very early RA, the STAT4 gene rs7574865 polymorphism is associated with both predisposition to the disease and prognostically unfavorable manifestations (phenotypes) of the disease, namely, with the development of erosion in the early stages of the disease and an increase of the ACCP level
Combination delivery of two oxime-loaded lipid nanoparticles: Time-dependent additive action for prolonged rat brain protection
© 2018 Elsevier B.V. A novel approach for brain protection against poisoning by organophosphorus agents is developed based on the combination treatment of dual delivery of two oximes. Pralidoxime chloride (2-PAM) and a novel reactivator, 6-(5-(6,7-dimethoxy-3,4-dihydroisoquinolin-2(1H)-yl)pentyl)-3-hydroxy picolinaldehyde oxime (3-HPA), have been loaded in solid-lipid nanoparticles (SLNs) to offer distinct release profile and systemic half-life for both oximes. To increase the therapeutic time window of both oximes, SLNs with two different compartments were designed to load each respective drug. Oxime-loaded SLNs of hydrodynamic diameter between 100 and 160 nm and negative zeta potential (−30 to −25 mV) were stable for a period of 10 months at 4 °C. SLNs displayed longer circulation time in the bloodstream compared to free 3-HPA and free 2-PAM. Oxime-loaded SLNs were suitable for intravenous (iv) administration. Paraoxon-poisoned rats (0.8 × LD50) were treated with 3-HPA-loaded SLNs and 2-PAM+3-HPA-loaded SLNs at the dose of 3-HPA and 2-PAM of 5 mg/kg. Brain AChE reactivation up to 30% was slowly achieved in 5 h after administration of 3-HPA-SLNs. For combination therapy with two oximes, a time-dependent additivity and increased reactivation up to 35% were observed
INVESTIGATION OF CANDIDATE GENE POLYMORPHISMS IN AN IMMUNE RESPONSE AS MARKERS FOR THE RISK OF DEVELOPING RHEUMATOID ARTHRITIS AND PRODUCING AUTOANTIBODIES
Objective: to investigate the distribution of the genotypes and alleles of the PTPN22, TNFAIP3, CTLA4, TNFA, IL6, IL6R, IL10, MCP1, and ICAM1 genes in patients with rheumatoid arthritis (RA) and in the control group of healthy individuals, to estimate their significance as molecular genetic markers for predisposition to RA; and to analyze the correlation between the gene polymorphisms included in the study and the production of anti-cyclic citrullinated peptide antibodies (ACCPA) and IgM rheumatoid factor (RF).Subjects and methods. The investigation was conducted within the framework of the «Early arthritis: Diagnosis, outcome, criteria, active treatment program». The prospective follow-up study included 122 patients with RA fulfilling the 1987 American College of Rheumatology (ACR) criteria; with disease duration of ≤ 2 years. 73 (59.8%) patients were included during the first 6 months after the onset of the disease. 74 (60.7%) and 81 (66.5%) patients were found to be positive for ACCPA and IgM RF, respectively. 314 healthy blood donors served as a control group. A real-time polymerase chain reaction was used in the patients and control individuals to study the distribution of the polymorphic variants of PTPN22 (+1858 C >T, rs2476601), TNFAIP3 (rs675520, rs6920220, rs10499194), CTLA4 (+49A>G, rs231775 ), TNFА (-308A>G, rs1800629), IL6 (-174G>C, rs1800795), IL6R (+358A>C, rs8192284), IL10 (-592A>C, rs1800872, -1082 A>G, rs1800896), MCP1/CCL2 (+2518A>G, rs1024611), and ICAM1 (721G>A, rs1799969) genes. Results and discussion. This analysis revealed an association of PTPN22 (+1858 C >T, rs2476601) and TNFAIP3 (rs675520, rs10499194) polymorphisms with the risk of RA (odds ratio (OR), 1.5; 95% confidence interval (CI), 1.0–2.3; p = 0.05; OR, 1.5; 95% CI, 1.1–2.0; p = 0.02; OR, 0.5; 95% CI, 0.4–0.8; p = 0.01, respectively. Further, there was a tendency towards a positive association of TNFAIP3 (rs6920220) and IL6R (rs8192284) polymorphisms with a predisposition to RA (p = 0.056). IL6 (rs1800795), IL10 (rs1800872, rs1800896), MCP1/CCL2 (rs1024611), and ICAM1 (rs1799969) polymorphisms were not associated with the risk of RA. An analysis of the findings after patient stratification by ACCPA and IgM RF (a binary variable) showed that none of the polymorphisms in question was associated with RF state. At the same time, PTPN22 (rs2476601), TNFAIP3 (rs675520), TNFAIP3 (rs10499194), and TNFА (rs1800629) polymorphisms were found to be significantly related to ACCPA state (a binary variable). The level of ACCPA as a quantitative variable was statistically significantly associated with CTLA4 (rs231775) and TNFА (rs1800629) polymorphisms in a dose-dependent fashion (р = 0.025 and р = 0.015, respectively). There was a marked tendency towards an association of ACCPA levels and IL6R gene polymorphism (p = 0.07). IL6 (rs1800795), IL10 (rs1800872, rs1800896), MCP1/CCL2 (rs1024611), and ICAM1 (rs1799969) polymorphisms were not correlated with ACCPA state (binary and quantitative variables).Conclusion. The findings suggest that a number of genes are implicated in the pathogenesis of RA and that they are involved in the development of ACCPA-positive and ACCPA-negative RA subtypes. No relationship was found between the production of IgM RF and the polymorphisms of the genes under study. The findings suggest that there appears to be different mechanisms for the formation of autoantibodies (ACCPA and IgM RF) in RA