S the amount of free versus bound leptin in serum and plays a part in modulating availability and biological function of leptin [50]. In humans, an increasing BMI was associated with a lower concentration of soluble leptin receptor, whereas fasting increased its concentration [51]. Lewandowski et al [52] JC-1 site reported a significantly higher level of soluble leptin receptor in women with type 1 diabetic pregnancy than women with normal pregnancy. However, there is no published study on the association between soluble leptin receptor and GDM. Interestingly, there is evidence, although still limited, implicating that the association between adipokines and GDM may be independent of adiposity measures. For example, Williams et al [15] have shown a significantly inverse association between adiponectin levels in early pregnancy and subsequent risk of GDM after controlling for prepregnancy BMI. Similar results were reported by Lain et al [20] and LaCroix et al [31]. For leptin, Qiu et al [14] found a linear association between leptin levels in early pregnancy and GDM risk independent of prepregnancy BMI and other confounders; each 10 ng/mL increase in the leptin concentration was associated with a 20 higher in GDM risk. These results indicate that there could be other pathways linking adipokines to the development of GDM, although BMI is not an accurate measure of adiposity [53]. Future studies using objective measures of adiposity (e.g., dual-energy X-ray absorptiometry) may help clarify the adipokines-GDM relations independent of adiposity. Few studies have investigated the interaction between adiposity measures and adipokines among pregnancy women. No significant interaction between BMI and adiponectin in association with risk of developing GDM was found in a nested case-control study among US pregnant women [20]. Similarly, non-significantMetabolism. Author manuscript; available in PMC 2016 June 01.Author Manuscript Author Manuscript Author Manuscript Author ManuscriptBao et al.Pageinteractions of adiposity measures and adiponectin levels in relation to T2DM risk were observed in some [54], although not all [55], studies conducted in the general population. There are several critical data gaps that require additional research. First, the trajectories and dynamic associations of adipokines with subsequent risk of GDM remain unclear. Unlike diabetes among Fruquintinib site non-pregnant individuals, the dynamic patterns of adipokine levels in women with GDM are influenced not only by GDM status, but also by the profound and yet time-dependent metabolic challenges related to pregnancy. Pregnancy is normally associated with progressive insulin resistance, and there is a two-thirds decrease in insulin sensitivity in late pregnancy [39]. In parallel with the changes in insulin sensitivity, adipokines exhibit different dynamic patterns during normal pregnancy [56]. For instance, adiponectin levels progressively decline [57] while leptin levels progressively increase during pregnancy [58]. Longitudinal studies with blood samples collected at multiple time points before the onset of GDM (e.g., before pregnancy or during early pregnancy) would provide insights to improve understanding of the roles of adipokines in the pathogenesis of GDM. No such study was identified in our systematic review. Second, the causal relation between adipokines and GDM warrants further investigation. During the past decades, Mendelian randomization analysis simultaneously considering the triangl.S the amount of free versus bound leptin in serum and plays a part in modulating availability and biological function of leptin [50]. In humans, an increasing BMI was associated with a lower concentration of soluble leptin receptor, whereas fasting increased its concentration [51]. Lewandowski et al [52] reported a significantly higher level of soluble leptin receptor in women with type 1 diabetic pregnancy than women with normal pregnancy. However, there is no published study on the association between soluble leptin receptor and GDM. Interestingly, there is evidence, although still limited, implicating that the association between adipokines and GDM may be independent of adiposity measures. For example, Williams et al [15] have shown a significantly inverse association between adiponectin levels in early pregnancy and subsequent risk of GDM after controlling for prepregnancy BMI. Similar results were reported by Lain et al [20] and LaCroix et al [31]. For leptin, Qiu et al [14] found a linear association between leptin levels in early pregnancy and GDM risk independent of prepregnancy BMI and other confounders; each 10 ng/mL increase in the leptin concentration was associated with a 20 higher in GDM risk. These results indicate that there could be other pathways linking adipokines to the development of GDM, although BMI is not an accurate measure of adiposity [53]. Future studies using objective measures of adiposity (e.g., dual-energy X-ray absorptiometry) may help clarify the adipokines-GDM relations independent of adiposity. Few studies have investigated the interaction between adiposity measures and adipokines among pregnancy women. No significant interaction between BMI and adiponectin in association with risk of developing GDM was found in a nested case-control study among US pregnant women [20]. Similarly, non-significantMetabolism. Author manuscript; available in PMC 2016 June 01.Author Manuscript Author Manuscript Author Manuscript Author ManuscriptBao et al.Pageinteractions of adiposity measures and adiponectin levels in relation to T2DM risk were observed in some [54], although not all [55], studies conducted in the general population. There are several critical data gaps that require additional research. First, the trajectories and dynamic associations of adipokines with subsequent risk of GDM remain unclear. Unlike diabetes among non-pregnant individuals, the dynamic patterns of adipokine levels in women with GDM are influenced not only by GDM status, but also by the profound and yet time-dependent metabolic challenges related to pregnancy. Pregnancy is normally associated with progressive insulin resistance, and there is a two-thirds decrease in insulin sensitivity in late pregnancy [39]. In parallel with the changes in insulin sensitivity, adipokines exhibit different dynamic patterns during normal pregnancy [56]. For instance, adiponectin levels progressively decline [57] while leptin levels progressively increase during pregnancy [58]. Longitudinal studies with blood samples collected at multiple time points before the onset of GDM (e.g., before pregnancy or during early pregnancy) would provide insights to improve understanding of the roles of adipokines in the pathogenesis of GDM. No such study was identified in our systematic review. Second, the causal relation between adipokines and GDM warrants further investigation. During the past decades, Mendelian randomization analysis simultaneously considering the triangl.