ABSTRACT
This study aimed to investigate the correlation between serum Sulfiredoxin-1 (Srx-1) levels and gestational diabetes mellitus (GDM).
A total of 40 patients diagnosed with GDM according to the American Diabetes Association Criteria and 40 age matched and gestational age-matched healthy pregnant women as a control group were included in this cross-sectional study. Serum Srx-1 levels and other demographic and laboratory variables were analyzed.
Fasting plasma glucose, first and second-hour plasma glucose levels, fasting insulin levels, homeostasis model assessment of insulin resistance (HOMA-IR), and Srx-1 levels were significantly different in patients with GDM than control (p<0.05). Plasma Srx-1 levels significantly correlated with fasting plasma glucose, first and second-hour plasma glucose levels, fasting insulin levels, and HOMA-IR of patients with GDM (p<0.05), whereas no correlation in the control group.
This is the first study demonstrating an association between serum Srx-1 levels and GDM. Our results suggest increased serum Srx-1 levels may be a novel predictive marker for GDM. More randomized-controlled trials are needed to evaluate Srx-1 as a marker for adverse fetal results; closer monitoring is warranted with high Srx-1 levels.
PRECIS: This is the first study to demonstrate an association between serum Srx-1 levels and gestational diabetes mellitus.
Introduction
Gestational diabetes mellitus (GDM) is defined as carbohydrate intolerance with an onset during pregnancy(1). GDM is associated with a higher risk of complications, such as pre-eclampsia, increased cesarean delivery, macrosomia, birth trauma, and neonatal hypoglycemia(2,3). The risk of type 2 DM increases and offspring of these women also have an increased risk of developing DM later in life(4).
Peroxiredoxins (Prxs) are a family of bifunctional proteins that are involved in chaperone and antioxidant activities controlling cytokine-induced peroxide levels, which are also involved in signal transduction(5,6). Reduced Peroxiredoxin reduces hydrogen peroxide and alkyl hydroxiperoxides therefore becomes oxidized and reduced back by thioredoxin(7). Murine knock-out models revealed that Prx1 inactivation reduces the lifespan by 15% and Prx 6 and Prx 3 knock-out models display no obvious pathology but a more sensitive phenotype to oxidative stress(8,9,10). Prxs are also involved in the circadian rhythm of many species(11,12).
Sulfiredoxin (Srx) is a redox protein discovered in 1994(13). The cysteine-sulfinic acid residues of certain Prxs are selectively reduced by Srx and play an important role in oxidative stress resistance, thereby affecting Prx in regulating downstream transcription factors and kinase pathways(14). Glutathionylation is an important post-translational modification of proteins. Many diseases, such as Parkinson’s disease and DM, correlated with increased glutathionylation of specific proteins(15,16). Srx is also involved in the deglutathionylation of proteins and is a potential target of treatment(16).
Hyperglycemia induces reactive oxygen species (ROS) and is responsible for many DM complications(17). Consequently, the organism produces antioxidants to compensate ROS, in the form of Prx and its function, are restored via Srx. Srx expression is significantly increased to protect Prxs in diabetic rats(18). In addition, Srx-1 protects podocytes from high glucose-induced injury by activating Nrf2/ARE signaling(19). As GDM similarly affects the fetus to type 2 DM, our hypothesis was that serum Srx-1 levels increased in hyperglycemic conditions such as GDM, which leads to ROS generation.
The literature revealed no previous report of human Srx-1 levels in women with GDM. This study aimed to investigate the correlation between SRx-1 levels and GDM.
Materials and Methods
A cross-sectional analysis of maternal plasma levels of Srx-1 between January 2019 and February 2020 was performed in 40 patients diagnosed with GDM according to the American Diabetes Association Criteria in their routine screening of 75 g oral glucose tolerance test (OGTT) between 24 and 28 gestational weeks. The control group was 40 gestational-age and age-matched healthy pregnant women with normal 75 g OGTT screening results. The inclusion criteria were singleton pregnancy and gestational age between 24 and 28 weeks. The exclusion criteria were patients with chronic diseases, DM history, hypertension history, multiple pregnancies, and maternal or fetal conditions that require preterm delivery, such as pre-eclampsia, preterm labor, or intrauterine growth retardation, and any fetal anomaly.
All patients were followed from the first trimester of pregnancy, and the crown-rump length at the first visit was the reference for the last menstrual period day. The study was approved by the local ethics committee in Health Sciences University Samsun Research and Training Hospital, the approval number SBUSEAH/KAEK 2019/2/12.
Serum Srx-1 concentration was measured using an enzyme immunoassay (catalog no: EH15392, Wuhan Fine Biological Technology Co., LTD., China) with a minimum detectable concentration of 0.313 ng/mL and intra- and inter-assay variation coefficients of <8% and 10%, respectively. Absorbance at 450 nm was measured using a Smart Microplate Reader 16.1 (USCN KIT INC.). The optical density was read on a standard automated plate at 450 nm (1420 Victor 3; Perkin Elmer, Waltham, MA). Insulin resistance is calculated using the homeostasis model assessment of insulin resistance (HOMA-IR). The HOMA-IR is calculated as follows: fasting glucose ´ (mmol) fasting insulin (lU/mL)/22.5.
Written informed consent for study participation and blood sample collection was obtained from all participants, according to the principles outlined by the Declaration of Helsinki (2013).
Results
The demographic, clinical, and laboratory characteristics of patients in GDM and control groups are demonstrated in Table 1. Fasting plasma glucose, first and second-hour plasma glucose levels, fasting insulin levels, HOMA-IR, and Srx-1 levels were significantly different in patients with GDM than that of the control group (p<0.05).
Plasma Srx-1 levels significantly correlated with fasting plasma glucose, first and second-hour plasma glucose levels, fasting insulin levels, and HOMA-IR in patients with GDM, whereas no correlation in the control group was observed (Table 2).
The median Srx-1 level in GDM group was higher than in the control group (474.6±109 pg/mL vs. 316.7±48 pg/mL, respectively, p<0.01) (Figure 1). The receiver operating characteristic curve for blood Srx-1 concentrations in the GDM group is demonstrated in Figure 2. The area under the curve was 0.938 (95% confidence interval: 0.89-0.986). The optimal cut-off value was 362 pg/mL and ratios above this value were 80.5% sensitivity, 82.5% specificity, 77.5% positive predictive value, and 82.5% negative predictive value (p=0.0001).
Discussion
The present study showed that serum Srx levels were significantly higher in patients with GDM than in healthy pregnant women. In addition, fasting plasma glucose, first and second-hour blood glucose levels, and HOMA-IR results correlated with Srx-1 levels.
ROS formation in diabetes by glucose oxidation, nonenzymatic glycation of proteins, and lipid peroxidation lead to cellular protein damage and higher insulin resistance due to oxidative stress(20). Contrarily, ROS are produced, with a negative effect on insulin signaling, leading to insulin resistance, which is the pathophysiology for type 2 DM in response to insulin(21). Antioxidant administrations improved insulin resistance, which also suggests the involvement of ROS in insulin resistance progression(22). Increased glucocorticoids and insulin-like growth factor in the placenta in GDM increases ROS due to increased glucose utilization and mitochondrial activity, similar to DM(23).
Insulin resistance in pregnancy is a natural process that aims increased glucose transportation to the fetus. This natural process exaggerates if insulin secretion is not increased to compensate for insulin resistance, leading to GDM development, particularly with pancreatic beta-cell dysfunction(24,25).
According to considerable evidence, Prxs act as antioxidants in eukaryotic cells and silence Srx, leading to Prxs hyperoxidation(18,26). Congenital deficiency leads to neurodegenerative diseases and tumors, such as thyroid, breast, and lung cancer(15,16,27,28).
Srx, as an antioxidant enzyme, was not extensively studied in-vivo. Thus, Srx was not previously studied in GDM either. In-vitro studies demonstrated that Srx-1 alleviates podocyte injury caused by ROS generated in diabetic nephropathy and cardiopathy(18,19). Before the study, hyperglycemic GDM condition, which generates ROS, was hypothesized to increase serum Srx-1 levels. The 2-hour OGTT revealed blood glucose level fluctuation that is significantly associated with beta-cell dysfunction, oxidative stress, and inflammation(29). Our study revealed that the first-hour blood glucose levels in patients with GDM (164.4±14.5 in GDM vs. 125±13.2 in controls) significantly correlates with Srx-1 levels (474.6 in GDM±109 vs. 316.7±48 in controls). These results suggest that increased serum Srx-1 levels are used as a novel predictive marker for GDM.
Conclusion
This is the first study to demonstrate an association between serum Srx-1 levels and GDM. More randomized-controlled trials are needed to evaluate Srx-1 as a marker of adverse fetal results; then, closer monitoring is warranted with high Srx-1 levels.
Statistical Analysis
The Statistical Package for the Social Sciences version 20 (SPSS Inc., Chicago, IL) was used for the statistical analyses. Data are presented as mean ± standard deviation. The categorical variables were expressed as percentages and the continuous variables were expressed as median (minimum and maximum). Correlations were assessed using Pearson and Spearman’s correlation coefficient and a p-value <0.05 is considered statistically significant.
Study Limitations
As the design of this study, obstetric outcomes were not evaluated between patients with high and low Srx levels, which is a limitation. In addition, the study had a small sample size and postpartum levels of Srx were not measured. Ergo, associations with obstetric outcomes and Srx-1 levels were not made. Nevertheless, elevated levels of Srx-1 are also associated with adverse gestational conditions, such as pre-eclampsia, intrauterine growth retardation, or placental implantation defects, with elevated ROS, which is beyond the scope of our preliminary study and requires further research(30).