Relationship between adiponectin and blood pressure in obese Latino adolescent boys with a family history of type 2 diabetes

introduction Adipokines are associated with several pathological states including, metabolic syndrome, obesity, insulin resistance and type 2 diabetes. One of these adipokines, adiponectin is of particular interest as it has been shown to have numerous anti-inflammatory effects, However, the association between adiponectin and blood pressure remains inconclusive especially in the Latino adolescent with obesity. Purpose To investigate the relationship between plasma adiponectin and blood pressure in Latino adolescents’ boys with obesity and a with a family history of Type 2 diabetes. Methods Thirty two Latino adolescent males with obesity aged 14–17 years with a family history of type 2 diabetes underwent a frequently sampled glucose tolerance test (FSIVGTT) to measure insulin sensitivity. Body composition was assessed using dual energy x-ray absorptiometry. Obesity was defined as having a BMI percentile ≥95. Blood pressure was assessed using the Dinamap automated blood pressure monitor, and the average of three readings was used in the analysis. Fasting plasma adiponectin was determined using radioimmunoassay. Results There were moderate positive significant correlations for adiponectin and Systolic blood pressure(SBP) (rho = 0.436, p < 0.027) and Diastolic blood pressure(DBP) (rho = 0.41,p < 0.028). A multivariate liner regression showed that plasma adiponectin could significantly detect 19% of the variance in SBP (p = 0.017, and 33% for DBP (p = 0.017). In a simple linear regression adiponectin was not related to any of our variables (p < 0.05). Conclusion In conclusion, adiponectin was positively and significantly correlated to blood pressure in Latino adolescent with obesity. Future studies should investigate this relationship in a large sample of Latino adolescent youth.

Relationship between adiponectin and blood pressure in obese Latino adolescent boys with a family history of type 2 diabetes

Introduction
Pediatric obesity is one of the most pertinent health issues of the last century.In 2019, 340 million children aged 5-19 years are considered overweight/obese [1, 2] with a disproportionate impact in racial and ethnic minorities, particularly Latino youth [3].The 2011-2020 National Health and Nutrition Examination Survey (NHANES) shows an increased trend of obesity (95th percentile for age and gender) in Latino youth when compared to other ethnic groups of the same age from 21.8 to 27.0%; P for trend = 0.006 [4].Studies have also shown that the prevalence of obesity is significantly higher in Latino males.Furthermore, pediatric obesity is commonly associated with several non-communicable diseases such as type 2 diabetes [5], metabolic syndrome [6], fatty liver disease (7), cardiovascular disease [8], several cancers [9] and hypertension [9][10][11][12].
Low insulin sensitivity (S) is also a detector of high blood pressure (BP), particularly in minority youth [13].In adult and pediatric studies, hypertension has been associated with insulin resistance and hyperinsulinemia [12,13].In a meta-analysis by Wang and colleagues the relationship between insulin resistance and hypertension was investigated in 11 studies, involving 10,230 participants.The results of this analysis suggested that insulin resistance is independently associate with hypertension in the general population [14].
The prevalence of hypertension in children is threefold higher in obese children compared to non-obese children [12].A systemic review of 22 articles by Lona et al., concluded children with higher BP's and BMIs have increased cardiovascular biomarker central pulse wave velocity (cPWV) [15].A higher blood pressure (BP) is also associated with a higher body mass index (BMI) [16], both of which are higher in children from minority backgrounds compared with their white counterparts [17].In addition, changes in secretion of cytokines such as adiponectin have been linked to cardiovascular risk factors through the effects on insulin sensitivity.Furthermore, adiponectin, an adipose tissue-derived protein with insulin-sensitizing and antiatherogenic properties, has been associated with the regulation of BP in adults and adolescents [18,19].During puberty, adiponectin has been shown to decrease in boys [20] and is associated with Type 2 diabetes [21] and metabolic syndrome [22].Therefore, the aim of this study was to investigate the relationship between plasma adiponectin and blood pressure in Latino adolescent boys with obesity and a family history of Type 2 diabetes.

Participants
Forty-three (N = 43) participants were recruited from the greater Los Angeles County area through medical clinics, advertisements, and local schools to participate in the study (Families United for Education and Research for Strong Adolescent Latinos, FUERSA).Participants were recruited to the study if they met the following study inclusion criteria: (1) male; (2) grades 9th through 12th (approximately 14-18 years of age); (3) with a BMI ≥95th percentile for age and sex; (4) of Latino ancestry (parents and grandparents descent as determined by self-report); (5) absence of diabetes using established guidelines; (6) absence of comorbid inflammatory disease, secondary hypertension or any condition that would predispose them to type 2 diabetes;7) have a positive family history of type 2 diabetes (1st degree which was determined by parental self-report).The study was conducted in accordance with the guidelines of the Helsinki Declaration.Written informed consent and assent were obtained from the parents and children prior to testing.The Institutional Review Board of the University of Southern California approved the study.

Anthropometric measures and body composition
Height was measured with a stadiometer to the nearest 0.1 cm.Body mass was measured without shoes and in a hospital gown to the nearest 0.05 kg using a beam medical scale.Body mass index (BMI) was calculated; age-and sex-specific BMI percentile were determined using Epi-Info 2000, Version 1.1 (CDC, Atlanta, GA).Obesity was defined as have a BMI ≥95th percentile for age and sex.A dual-energy X-ray absorptiometry (DEXA) scan (Hologic QDR 4500 W; Bedford, MA) was performed to estimate total fat mass (FM) and total lean tissue mass (LTM).

Blood pressure measurement
Resting systolic blood pressure (SBP) and diastolic blood pressure (DBP) were measured in the sitting position using a Dinamap automated blood pressure monitor (Critikon Inc., Tampa, FL) with the arm supported at heart level.After sitting quietly for 5 min, measurements were obtained on each child using an appropriately sized cuff placed on the right arm.Three readings of blood pressure were obtained, and the average was recorded, according to the recommendations of the American Heart Association [23].Systolic minus diastolic was used to calculate pulse pressure.

Blood sampling and analysis
A venous blood sample was taken after 12 h overnight of fasting for the following measurements, plasma glucose, and insulin as previously described [24,25].The insulin resistance index derived by frequently sampled intra venous glucose tolerance test (FSIVGT) was previously described [24,25].Fasting plasma adiponectin was measured in duplicate using radioimmunoassay (RIA) kits obtained from Linco Research (St.Charles, MO) following the manufacturer's protocol.The intra-and interassay coefficients of variation were less than 10%.

Statistical analyses
All data were checked for normality prior to statistical analysis using descriptive statistics, histograms with normal distribution curves, and the Anderson-Darling (AD) normality tests.Data are presented as means and standard deviation unless indicated otherwise.The correlation analyses in Table 1 and multivariate linear regression analyses were carried out to investigate whether plasma adiponectin could significantly detect SBP and DPB (see Tables 2 and 3).A simple liner regression was used to detect possible relationships to study variables.All analysis was conducted using SPSS (version 24 for Mac) with significance or with an alpha > set at 0.05.

Results
Thirty-two (N = 32) Latino adolescent males with obesity were consented into the study.Characteristics of participants are shown in Table 4.

Discussion
To the best of our knowledge this is the first study to investigate the relationship between plasma adiponectin and blood pressure in Latino adolescent males with obesity with a family history of type 2 diabetes.Our results show a significant positive relationship between plasma adiponectin and blood pressure, with adiponectin significantly detecting blood pressure in obese Latino adolescent males.Furthermore, our results did not show a relation between adiponectin and other study variables.Many adult and pediatric studies have demonstrated a clear relationship between plasma adiponectin and most variables of the metabolic syndrome [26,27].Several physiological processes have been proposed to explain the relationship this relationship including (1) enhanced endothelial function and anti-inflammatory macrophage phenotypes, (2) increased nitric oxide production, and (3) in addition to suppressing sympathetic nervous system activity and reduce blood pressure by induce adiponectin secretion [19].However, the relationship between  plasma adiponectin and blood pressure is less definitive and can be quite contradictory.
A few studies in adults have also shown a significant relationship between adiponectin and blood pressure [28,30,31].In Pediatrics, data has shown an inverse relationship between adiponectin and blood pressure [32,34], these results are conflicting to those presented in this study, which found a positive relationship between these variables.Most of these pediatric studies investigated this relationship in non-obese, non-Latino [35,36], a small number were also in obese children [37,39], but none investigated this relationship in pediatric obese Latino males with a family history of type 2 diabetes.A report by Huang et al. showed an inverse relationship between SBP blood pressure but not DBP in a 68 non obese, nondiabetic females.The authors concluded that was independent of any other anthropometric and metabolic variable [36].
Shatat et al. also demonstrated in 41 obese and nonobese adolescents with and without the presence of Type 2 Diabetes that adiponectin levels were independently and inversely associated with 24-hr SBP and DBP [39].There results also showed no significant differences in adiponectin by gender, with the authors speculating the results could be attributed to the morbid obesity and its independent effect on reduced adiponectin levels.Because our participants were obese, fat distribution influenced adiponectin secretion.Shatat et al. study did have a similar sample size of 26 participants to the present study, their participants were male and females, some of their obese participants also were prehypertensive and hypertensive and included 10 black adolescent participants.Furthermore, pathological states such as metabolic syndrome and obesity have been shown to have an association with higher sympathetic nervous system activity.It may be possible that their results differed from ours for these reasons.Preliminary data of more than 100  male adolescents reported by Hunang et al., showed no relationship between adiponectin and BP [36].It is also possible that the relationship between adiponectin and BP may vary by race [40], thus explaining the differences in results from our study with that of Shat et al.African American [40,41] and Asian Indians have been shown to have lower adiponectin levels when compared to white [42].Zhou et al. investigated the relationship between plasma adiponectin and blood pressure in a very large sample 1300 of children aged 9 to 16 years also found no significant associations [43].In contrast, Mallamaci et al. found in a sample of 36 hypertensive and 31 normotensive adults found similar results to our study in that they too found a positive association between plasma adiponectin and blood pressure [44].These and our results suggest that the association between adiponectin and blood pressure may be placing these obese boys with a family history of type 2 diabetes at risk for said disease along with other metabolic and cardiovascular events [45,46] and an increased risk of future heart failure [47].
There are sever limitations to our study worth noting, firstly, the small sample size, we conducted many correlations in our analysis and also we did not find a correlation between age or height and blood pressure, this was probably due to our study being underpowered to detect correlations; 2) this is a cross -sectional study design, which is not an appropriate design to assess cause and effect between adiponectin and blood pressure.However, the strength of our study is (1) the homogeneous sample, (2) the precise techniques; (3) representative sample of the obese Latino adolescent community and (4) as gender differences were not observed in several studies, we chose to focus on males so as not to confound the analysis.
In conclusion, adiponectin and blood pressure are closely related in these adolescent males with obesity and a family history of type 2 diabetes.Future larger studies in the Latino adolescent population need to be conducted due to the biological importance of adiponectin.

Fig. 2
Fig. 2 Correlation between Diastolic Blood Pressure and Adiponectin

Fig. 1
Fig. 1 Correlation between Systolic Blood Pressure and Adiponectin

Table 1
Correlations between Adiponectin, anthropometric, body composition, insulin resistance, fasting glucose, CRP and blood pressure

Table 2
Multiple linear regression analysis for SBP fat mass, %fat, DI, and CRP (p > 0.05; see Table

Table 3
Multiple linear regression analysis for DPB