Clinical Importance of FNDC-5 and Selectin-E mRNA Expression Among Type 2 Diabetics with and without Obesity.

Background: Type 2 diabetes mellitus (T2DM) is growing illnesses associated with metabolic dysregulation such as obesity affecting a large population become leading causes of death worldwide. Fibronectin type III domain-containing protein 5 (FNDC-5) and selectin-E were suggested to have effects on metabolism and diabetes, therefore present study aimed to evaluate the clinical importance of FNDC-5 and selectin-E among the T2DM patients with and without obesity.
Methods: Study included cohort of 200 T2DM patients with and without obesity. We evaluated FNDC-5, selectin-E mRNA expression as well as vitamin-D, and vitamin-B12 levels in among the T2DM patients with and without obesity.
Results: Study observed significant difference in biochemical parameters included in study. T2DM patients with obesity had significantly higher fasting blood glucose levels (p<0.0001) and HbA1c (glycated hemoglobin) (p<0.0001) compared to those T2DM patients without obesity. T2DM patients with obesity also had higher systolic blood pressure (p=0.001), LDL (low density lipoprotein) (p=0.02), TG (triglycerides) (p=0.02) and cholesterol (p=0.01) compared to T2DM patients without obesity. The mRNA expression of FNDC-5 (p<0.0001) was lower in T2DM patients with obesity compared to T2DM patients without obesity. It was observed that the T2DM patients with vitamin-D deficiency had significantly lower FNDC-5 mRNA expression (p=0.03) when compared with those with sufficient vitamin-D level. T2DM patients with clinically normal vitamin-B12 level expressed 0.60 fold FNDC-5 mRNA expression while B12 deficient T2DM patients had 0.28 fold FNDC-5 mRNA expression (p=0.005). No as such significant association was was observed with selectin-E. A negative correlation of FNDC-5 mRNA expression with Post prandial glucose (mg/dl) (p=0.04) and TG (mg/dl) (p=0.02) was observed.
Conclusion: FNDC-5 down regulation was observed with T2DM with obesity, vitamin-D and vitamin-B12 deficiency suggesting obesity, vitamin-D and vitamin-B12 deficiency could be the factor for FNDC-5 down-regulation leading to worseness or progression of disease. We suggest that FNDC-5 down-regulation could be used as an indicator for T2DM worseness and development of other associated complications.

Introduction

T2DM and associated comorbidity like obesity is an epidemic health problem that has raised concern worldwide. The multifactorial causes of T2DM and obesity lead to health burden among all age groups. Prevention can be achieved by lifestyle and behavioral interventions. However, Because of complex and long-lasting hormonal, metabolic changes, the effectiveness is limited and these adaptations protect against weight loss and promote weight gain.

Obesity, excess body weight for height, but this simple definition belies an etiologically complex phenotype primarily associated with excess adiposity, or body fatness.1 Obesity significantly surges risk of chronic disease morbidity such as disability, depression, type 2 diabetes, cardiovascular disease.1

FNDC5 encodes irisin hormone has the capacity to trigger beneficial alterations in adipose tissue to improve muscle activity, it’s a thermogenic adipomyokine made when the precursor plasma membrane protein FNDC5 is cleaved.2 FNDC5 contributes to muscle-adipose tissue crosstalk by converting white to brown fat (browning of adipose tissue) in the metabolic energy process.3 FNDC5 regulates skeletal muscle, hepatic glucose uptake, and lipid metabolism, and has a protective effect against hyperlipidemia, hyperglycemia, and metabolic syndrome in obese people,4 and has lower expression in WAT than in muscle in humans.5 It has been linked to changes in glucose and lipid levels in obese and metabolic syndrome patients6 and weight loss happens due to decreased FNDC5 mRNA expression in skeletal muscle.7 Selectins are calcium-dependent transmembrane lectins that include three functionally distinct adhesion molecules expressed as E-selectin, P-selectin, and L-selectin where selectin-E plays an essential role in cell injury, vascular occlusion, and angiogenesis.8 TNF and IL-1 are induced by the expression of Selectin-E on endothelial cells,9 In both human and mouse endothelial cells, these cytokines induce transient transcription after exposure to E-selectin mRNA.10 Selectin-E ligands that are activated during rolling transduce signals that affect the function of the b2 integrin.11 Role of FNDC5 and selectin-E is novel and not well explored in T2DM patients with and without obesity. Therefore, Present study aimed to explore the role of FNDC-5, selectin-E mRNA expression in T2DM cases with and without obesity as well as their association with vitamin-D and B12 level.

Materials and Methods

Study Population and Sample Collection

Present research work included 200 T2DM patients with and without obesity (BMI) and 200 healthy controls. From the entire study participants 2 mL of peripheral blood samples were withdrawn in plain vial, 2mL in EDTA vials plain vials and 1 mL collected in fluoride vial.

Blood sample collected in fluoride vials (before and after meals) and EDTA vials were used for diagnosis of T2DM based on blood glucose and HbA1c level. Diagnostic criteria included, fasting blood glucose (> 126 mg/dL) and postprandial glucose (2hrs > 200 mg/dL) as well as glycated haemoglobin (HbA1C) were taken in consideration. Blood samples withdrawn in EDTA vials from all the participants were stored in −80°C for further processing such as total RNA extraction and blood sample of plain vials were centrifuged to separate the serum for biochemical investigations. This research study was ethically approved (12/9/176/JMI/IEC/2018) by the ethical committee board, Jamia Millia Islamia, New Delhi, India and all participants gave their written informed consent before the study began. Present study was conducted at Department of Biotechnology, Jamia Millia Islamia, New Delhi, India.

Total RNA Extraction, Complementary DNA Synthesis and Quantitative PCR for Expression Study

Total RNA was extracted using RNA extraction kit (GeneAid, Taiwan) and further extracted total RNA stored at −70°C. The quality and concentration of total RNA was checked by taking absorbance on 260/280 ratio using nanophotometer (NanoPhotometer p330, IMPLEN), further 100ng of total extracted RNA from each study participant was used to generate the cDNA library using kit (Verso, Thermo Scientific, USA) following manufacturer’s instructions. The expressions of FNDC-5 and Selectin-E mRNA were analyzed by quantitative real-time PCR using SYBR green dye using specific primer sequences. The program followed as: qRT-PCR for FNDC-5 (F; 5-CCAGTATGACATCATTGAAGCGT-3 and R; 5-TGCAGTTGTCCCTCTCCCT-3, 108bp) and Selectin-E (F; 5-AAGGCTTCATGTTGCAGGGA-3 and R; 5-ATTCATGTAGCCTCGCTCGG-3, 128bp), and β-actin (F; 5- AGCACAGAGCCTCGCCTTT −3 and R; 5- GAGCGCGGCGATATCATCA-3, 82bp) was performed for 40 cycles, initial denaturation was at 94°C for 35 second, annealing temperature for FNDC-5, Selectin-E, and β-actin was at 60°C for 35 seconds, extension at 72°C for 35 seconds and 20µL reaction volume was used. To confirm the target amplification, an additional step at 72°C for 10 minutes was performed to finish the reaction and a melting curve examination was performed between 35°C and 90°C. A control without cDNA was included in each experiment, and every reaction was done in duplicate. The FNDC-5 and selectin-E mRNA expression levels were calculated using the relative quantification by 2−(ΔΔCT) method.

Vitamin-D and B12 Level Assessment

Sored serum of T2DM cases and healthy controls in −80°C were thawed further vitamin-D and B12 levels were assessed by the electrochemiluminescence immunoassay (Cobas e411, Roche, Basel, Switzerland). Serum 25 (OH) D levels ≤20 ng/mL was considered as Vitamin-D deficiency, <30 ng/mL considered as insufficiency and 30ng/mL or above considered as sufficiency.12 Vitamin B12 deficiency was defined as <148 pmol/L in serum and above was considered as normal range.13

Statistical Analysis

Data analysis was performed using Graph Pad Prism software version 6.05 and SPSS 21.0. The Mann–Whitney U-test (2 groups), Kruskal–Wallis post hoc Dunn test (>2 groups) was used to analyze the significant differences among the groups. The relative cycle threshold (Ct) method was used to analyze the QRT-PCR results and the relative quantification method was used to calculate the FNDC-5 and Selectin-E mRNA expression levels using the 2–(ΔΔCt) method. Expression was defined as up- or down-regulated as a result of more than or less than one and all values were normalized relative to the control values, which were depicted as a value of 1. p< 0.05 was considered significant.

Population Demographics

Present study included 200 T2DM (65.5% males) cases and equal number of healthy subjects (62.5% males), Health data like hypertension, increased urination, weight loss, fatigue, wound healing, blue vision, loss of appetite, smoking status, alcoholism and obesity were also collected (Table 1).

Table 1

Population Descriptive of Study Participants

Variables	T2DM Cases (%)	Controls Subjects (%)
Total no.	200 (100)	200 (100)
Gender
Males	131 (65.5)	125 (62.5)
Females	69 (34.4)	75 (37.5)
Age (Years)
≤ 50	49 (24.5)	45 (22.5)
> 50	151 (75.5)	155 (77.5)
Smoking status (yes/no)	71 (35.5)/129 (64.5)	57 (28.5)/143 (71.5)
Alcoholism (yes/no)	85 (42.5)/115 (57.5)	76 (38)/124 (62)
Hypertension (yes/no)	102 (51)/98 (49)
Increased urination (yes/no)	67 (33.5)/133 (66.5)
Weight loss (yes/no)	50 (25)/150 (75)
Fatigue (yes/no)	65 (32.5)/135 (67.5)
Wound healing (yes/no)	53 (26.5)/147 (73.5)
Blur vision (yes/no)	42 (21)/158 (79)
Loss of appetite (yes/no)	59 (29.5)/141 (70.5)
Obesity (yes/no)	93 (46.5)/107 (53.5)

Evaluation of Biochemical Factors Among T2DM Cases and Healthy Controls

Biochemical parameters were compared between T2DM cases and healthy controls. Significant differences were observed in Fasting blood glucose (mg/dl), Post prandial glucose (mg/dl), HbA1c (%), Systolic blood pressure (mmHg), Diastolic blood pressure (mmHg), HDL (mg/dl), LDL (mg/dl), TG (mg/dl), Cholesterol (mg/dl), VLDL (mg/dl) between T2DM patients and healthy control (Table 2).

Table 2

Differences in Biochemical Parameters Among the T2DM Patients and Healthy Controls

Biochemical Parameters	Variables	Mean	SD	p-value
Fasting blood glucose (mg/dl)	T2DM	254.16	43.57	<0.0001
	Controls	90.22	7.10
Post prandial glucose (mg/dl)	T2DM	363.23	68.61	<0.0001
	Controls	135.00	13.01
HbA1c (%)	T2DM	7.34	0.83	<0.0001
	Controls	5.74	0.53
Systolic blood pressure (mmHg)	T2DM	150.55	14.33	<0.0001
	Controls	106.07	10.39
Diastolic blood pressure (mmHg)	T2DM	102.08	15.04	<0.0001
	Controls	75.85	10.91
HDL (mg/dl)	T2DM	41.37	12.02	<0.0001
	Controls	46.21	8.69
LDL (mg/dl)	T2DM	202.61	38.16	<0.0001
	Controls	106.42	19.92
TG (mg/dl)	T2DM	359.50	105.12	<0.0001
	Controls	140.98	5.52
Cholesterol (mg/dl)	T2DM	256.82	36.21	<0.0001
	Controls	152.63	18.82
VLDL (mg/dl)	T2DM	35.13	4.71	<0.0001
	Controls	25.01	3.04

Comparison of Biochemical Parameters of T2DM Patients with and without Obesity

Two groups were made such as T2DM patients with and without obesity based on BMI, Further, biochemical parameters were compared among the T2DM patients with and without obesity (Table 3). It was observed that the fasting blood glucose (p<0.0001) and HbA1c (p<0.0001) were high in T2DM patients with obesity compared to the non-obese T2DM patients. T2DM patients with obesity exhibited significantly higher systolic blood pressure compared to non-obese (p=0.001). Serum levels of LDL (p=0.02), TG (p=0.02) and cholesterol (p=0.01) were also significantly higher among the T2DM patients with obesity compared T2DM without obesity (Table 3).

Table 3

Differences in Biochemical Parameters Among the T2DM with and without Obesity

Biochemical Parameters	T2DM with Obesity	Mean	SD	p-value
Fasting blood glucose (mg/dl)	Yes	279	55.34	<0.0001
	No	245	26.11
Post prandial glucose (mg/dl)	Yes	365	71.41	0.45
	No	361	66.39
HbA1c (%)	Yes	7.71	0.81	<0.0001
	No	7.22	0.67
Systolic blood pressure (mmHg)	Yes	153	12.82	0.001
	No	145	14.60
Diastolic blood pressure (mmHg)	Yes	103	14.79	0.28
	No	101	15.26
HDL (mg/dl)	Yes	40.03	8.03	081
	No	42.54	14.56
LDL (mg/dl)	Yes	213	45.87	0.02
	No	193	27.03
TG (mg/dl)	Yes	378	107.24	0.02
	No	342	100.79
Cholesterol (mg/dl)	Yes	267	48.04	0.01
	No	247	16.76
VLDL (mg/dl)	Yes	35.27	5.42	0.69
	No	35.00	4.01

Comparison of FNDC-5 and Selectin-E mRNA Expression in T2DM Patients with and without Obesity

Present study observed overall fold change in FNDC-5 mRNA expression was 0.54 fold (SD±0.39) and selectin-E mRNA expression was 1.56 fold (SD±0.60) among the T2DM cases. FNDC-5 and selectin-5 mRNA was analyzed among two groups such as T2DM patients with and without obesity (Figure 1A and B). It was observed that FNDC-5 mRNA expression was lower in T2DM cases with obesity (0.28 fold) (p<0.0001) while selectin-E mRNA expression was higher in T2DM cases with obesity (1.64 fold) when compared without obesity (p=0.28).

Figure 1

mRNA expression (A) FNDC-5 expression in T2DM patients with and without obesity (B) Selectin-E expression in T2DM patients with and without obesity.

Comparison of FNDC-5 and Selectin-E Among Vitamin-D Sufficient, Insufficient and Deficient Patients with T2DM

T2DM patients were divided in 3 groups namely based on serum vitamin-D levels such as vitamin-D deficient, insufficient and sufficient. The mRNA expression levels of FNDC-5 and selectin-E were compared among the patients of each group (Figure 2A and B). It was observed that the T2DM cases with vitamin-D deficiency had low FNDC-5 mRNA expression (0.28 fold) compared to insufficient (0.56 fold, p=0.03) and sufficient (0.67 fold, p<0.0001) vitamin-D level. T2DM cases with vitamin-D deficiency had low selectin-E mRNA expression (1.44 fold) compared to insufficient (1.66 fold) and sufficient (1.60 fold) serum vitamin-D level.

Figure 2

Comparison of mRNA expression (A) FNDC-5 among T2DM patients with serum Vitamin D level deficient, insufficient, and sufficient. (B) Selectin-E among T2DM patients with serum Vitamin-D level deficient, insufficient, and sufficient.

Comparison of FNDC-5 and Selectin-E with Respect to Vitamin B12 Status

T2DM patients were divided in 2 groups based on their serum Vitamin B12 levels. It was observed that the T2DM cases with normal B12 level had 0.60 fold FNDC-5 mRNA expression while B12 deficient T2DM had 0.28 fold FNDC-5 mRNA expression (Figure 3A), (p=0.005). T2DM cases with B12 normal level had 1.52 fold selectin-E mRNA expression while B12 deficient T2DM cases had 1.69 fold mRNA expression (Figure 3B) (p=0.20).

Figure 3

Comparison of mRNA expression of (A) FNDC-5 in T2DM patients with normal and deficient Vitamin B12. (B) Selectin-E in T2DM patients with normal and deficient serum Vitamin B12 level.

Prognostic Importance of FNDC-5, Selectin-E mRNA Expression and T2DM with and without Obesity

Prognostic importance of FNDC-5 and selectin-E were analyzed with T2DM cases with and without obesity (Figure 4, Table 4). It was observed that AUC for FNDC-5 was 0.75 and at the 0.30-fold cutoff, sensitivity, specificity was 70% and 60% (p<0.0001) suggested that the expression of FNDC-5 ≤ 0.30-fold may be an indicator of T2DM in patients with obesity. Similarly, AUC for selectin-E was 0.54 and at the 1.35-fold cutoff, sensitivity, specificity was 61% and 46% (p=0.28).

Figure 4

ROC curve for FNDC5 and Selectin-E among the T2DM patients with obesity vs without obesity.

Table 4

ROC Curve to Presenting the AUC for FNDC-5 and Selectin-E Among the T2DM with Obesity Vs Without Obesity

Gene Name	AUC (95% CI)	Sensitivity	Specificity	Cut-Off (Fold Change)	p value
FNDC-5	0.75 (0.68–0.81)	70%	60%	0.30 fold	<0.0001
Selectin-E	0.54 (0.46–0.62)	61%	46%	1.35 fold	0.28

Correlation of FNDC5 and Selectin-E with Biochemical Parameters Among the T2DM Patients with and without Obesity

Correlation analysis for FNDC5 and selectin-E with biochemical parameters were done and observed that the FNDC-5 mRNA expression was found to have significant negative correlation with Post prandial glucose (mg/dl) (p=0.04) and TG (mg/dl) (p=0.02) (Table 5).

Table 5

Correlation Analysis of FNDC-5 and Selection-E with Biochemical Parameters

Biochemical Parameters	Correlation Coefficient (r) for FNDC-5	p value	Correlation Coefficient (r) Selectin-E	p value
Fasting blood glucose (mg/dl)	−0.04	0.51	0.01	0.85
Post prandial glucose (mg/dl)	−0.13	0.04	−0.04	0.49
HbA1c (%)	0.01	0.81	0.04	0.51
Systolic blood pressure (mmHg)	−0.01	0.87	−0.007	0.92
Diastolic blood pressure (mmHg)	0.07	0.30	0.09	0.18
HDL (mg/dl)	−0.02	0.77	−0.08	0.21
LDL (mg/dl)	−0.11	0.10	−0.06	0.33
TG (mg/dl)	−0.16	0.02	−0.05	0.46
Cholesterol (mg/dl)	−0.13	0.06	−0.01	0.82
VLDL (mg/dl)	−0.11	0.11	−0.01	0.87

Discussion

Obesity, insulin resistance, dyslipidemia, hyperglycemia, and hypertension are among the medical conditions that make up the metabolic syndrome.14 Metabolic syndrome affects about one-fourth of the adult population in both developed and developing countries, which causes diabetes, cardiovascular disease, and all-cause mortality, as well as significant financial costs associated with hospitalization and long-term prescription drug use for blood glucose, lipids, and blood pressure management.15 Obesity and diabetes, unfortunately, have been steadily increasing in recent years and have become a major public health concern worldwide.16 The biochemical parameters of T2DM patients with and without obesity showed significant differences. It has been observed higher fasting blood glucose, HbA1c, systolic blood pressure, LDL, TG, cholesterol among the T2DM patients with obesity. Overall mRNA expression of FNDC-5 (0.54-fold±0.39) and selectin-E (0.98-fold±0.67) was significantly decreased. It was found that the T2DM patients with obesity had lower FNDC-5 mRNA expression compared to T2DM cases without obesity. Vitamin-D deficient T2DM patients had lower mRNA level of FNDC-5 and selectin-E compared to patients with insufficient and sufficient serum vitamin-D level. It was also observed that the T2DM cases with normal B12 deficient had lower FNDC-5 mRNA expression when compared with T2DM patients with those having normal B12 level in serum.

The expression of FNDC5 necessary for a healthy metabolic status in humans.17 Dysregulation of FNDC5 can cause a systemic metabolism imbalance, which can lead to metabolic disorders.18 Furthermore, studies using cell cultures and animal models revealed that FNDC5 is involved in insulin resistance and adipose tissue inflammation, suggesting that FNDC5 could be useful in averting inflammation and insulin resistance in obesity and diabetes.19 A research study in animal model of chronic heart failure, and ischemic cardiomyopathy reported reduced FNDC5 mRNA expression in skeletal muscle.20 Duan et al reported that streptozotocin-induced diabetic mice, treated with recombinant FNDC-5 (irisin) exhibited significantly reduced blood glucose levels.21 It has been observed that patients with T2DM have lower levels of FNDC-5 expression.4 Moreno-Navarrete et al reported that FNDC5 gene expression was significantly lower in obese individuals.22 In both T1DM and T2DM, FNDC5 mRNA expression was found to be lower in animal models.23

Overall, more than 1.1-fold selectin-E expression was observed among the T2DM cases compared to control. It was found that the T2DM patients with obesity had lower selectin-E mRNA expression compared to those without obesity Based on vitamin-D level, deficient and insufficient T2DM patients had lower selectin-E mRNA expression when compared with those with sufficient levels of serum vitamin-D. Serum B12 deficient T2DM patients B12 deficient had lower selectin-E mRNA expression when compared with their counterparts with normal B12 levels Selectin-E upregulation has been known to play an active role in the high glucose condition, suggesting a new mechanism by which diabetes accelerates arterial disease.24 Increased selectin-E expression has also been implicated as a factor in the development of diabetes-related comorbidities.25 Elevated E-selectin levels have been described as a key marker of endothelial dysfunction in T2DM patients,26 which increases the risk of diabetes-related micro- and macrovascular complications.27 Scientists have also reported that selectin-E gene expression is comparatively higher in obese T2DM patients.28 It was also found that the FNDC-5 mRNA expression was more down-regulated among the obese T2DM cases and as per ROC curve analysis it shows a more decreased in expression (≤0.30 fold). This can be used as a predictor of the development of obesity in T2DM cases.

Conclusion

This present study suggested that T2DM patients with obesity had higher fasting blood glucose, HbA1c, Systolic blood pressure, LDL, TG and cholesterol. Significantly reduction in expression of FNDC-5 mRNA expression was found in T2DM cases with obesity. Vitamin-D and B12 level greatly affect the expression of FNDC-5 mRNA expression among the T2DM with obesity. ROC analysis suggested that the FNDC-5 mRNA down-regulation could be used as an indicator for development of obesity among the T2DM patients.