👤 Kerstin Brismar

Chronic hyperglycemia inflicts serious cellular damage by inducing oxidative stress through the excessive production of free radicals. This oxidative milieu may impair the cellular redox capacity and disrupt the insulin-like growth factor (IGF) system, thereby increasing the risk of cardiovascular complications. This study aimed to investigate plasma levels of components of the IGF system and antioxidant biomarkers in young adults with type 1 diabetes mellitus (T1DM) compared to age-matched healthy controls in Brazil. This study included 129 patients with T1DM (76 female, 53 male; mean age 26.97 ± 0.6 years) and 95 healthy controls (61 female, 34 male; mean age 27.35 ± 0.68 years). Young Brazilian adults with T1DM had significantly lower mean IGF-I and higher mean IGFBP-1 levels compared to healthy controls. The T1DM group showed a more atherogenic profile, characterized by a significantly elevated ApoB/ApoA1 ratio and increased oxidized LDL levels. However, a subset of patients with significantly better glycemic control exhibited serum IGF-I and IGFBP-1 levels within the normal range observed in controls, which may indicate the presence of residual functional beta-cell activity or reflect better glycemic control in this subgroup. Antioxidant components and oxidative stress biomarkers were significantly upregulated in the T1DM group compared to the control group, suggesting a compensatory adaptive response. No significant correlation was observed between biomarkers of oxidative stress and the IGF-system. Show less

Apolipoprotein CIII (apoCIII) is associated with triglyceride (TG)-rich particles like VLDL and exerts an inhibitory effect of lipoprotein lipase. Increased levels are related to cardiovascular diseases and diabetes and therefore apoCIII has been proposed as a useful biomarker. Even if several commercial assays for measuring apoCIII in human plasma/serum are available, data is scarce concerning their reliability and none is used clinically. In the present study a comparative investigation has been done. Two ELISA-based methods (Cusabio Biotech and Assay Pro) and one nephelometric assay (Siemens Healthcare) were investigated. Serum and plasma samples were obtained from healthy volunteers and from samples sent to the Laboratory of Clinical Chemistry, preferably with higher levels of TGs. The Cusabio Biotech assay did not yield any valid results. However, both the methods from Assay Pro and Siemens Healthcare showed good performance with similar dynamic ranges. The latter assay had lower CV and required less work. In healthy individuals, apoCIII levels were not affected by fasting, freezing or thawing, nor did we find any gender differences. Individuals with elevated levels of TG displayed higher apoCIII values. Females with oral intake of contraceptives had higher levels. In conclusion, the nephelometric assay showed the best performance with the lowest CV, was less labor intensive than an assay based on ELISA and could therefore be suitable for clinical use. Show less

The organ content of the mevalonate pathway lipids was investigated in liver-X-receptor (LXR) α, β and double knock-out mice. An extensive or moderate increase of total cholesterol in the double KO mice was found in all organs elicited by the increase of the esterified form. In LXRα and double KO mice, coenzyme Q (CoQ) was decreased in liver and increased in spleen, thymus and lung, while dolichol was increased in all organs investigated. This effect was confirmed using LXR- agonist GW 3965. Analysis of CoQ distribution in organelles showed that the modifications are present in all cellular compartments and that the increase of the lipid in mitochondria was the result of a net increase of CoQ without changing the number of mitochondria. It appears that LXR influences not only cellular cholesterol homeostasis but also the metabolism of CoQ and dolichol, in an indirect manner. Show less

Liver X receptor alpha (LXRA) and beta (LXRB) regulate glucose and lipid homeostasis in model systems but their importance in human physiology is poorly understood. This project aimed to determine whether common genetic variations in LXRA and LXRB associate with type 2 diabetes (T2D) and quantitative measures of glucose homeostasis, and, if so, reveal the underlying mechanisms. Eight common single nucleotide polymorphisms in LXRA and LXRB were analyzed for association with T2D in one French cohort (N = 988 cases and 941 controls), and for association with quantitative measures reflecting glucose homeostasis in two non-diabetic population-based samples comprising N = 697 and N = 1344 adults. Investigated quantitative phenotypes included fasting plasma glucose, serum insulin, and HOMAIR as measure of overall insulin resistance. An oral glucose tolerance test was performed in N = 1344 of adults. The two alleles of the proximal LXRB promoter, differing only at the SNP rs17373080, were cloned into reporter vectors and transiently transfected, whereupon allele-specific luciferase activity was measured. rs17373080 overlapped, according to in silico analysis, with a binding site for Nuclear factor 1 (NF1). Promoter alleles were tested for interaction with NF1 using direct DNA binding and transactivation assays. Genotypes at two LXRB promoter SNPs, rs35463555 and rs17373080, associated nominally with T2D (P values 0.047 and 0.026). No LXRA or LXRB SNP associated with quantitative measures reflecting glucose homeostasis. The rs17373080 C allele displayed higher basal transcription activity (P value < 0.05). The DNA-mobility shift assay indicated that oligonucleotides corresponding to either rs17373080 allele bound NF1 transcription factors in whole cell extracts to the same extent. Different NF1 family members showed different capacity to transactivate the LXRB gene promoter, but there was no difference between promoter alleles in NF1 induced transactivation activity. Variations in the LXRB gene promoter may be part of the aetiology of T2D. However, the association between LXRB rs35463555 and rs17373080, and T2D are preliminary and needs to be investigated in additional larger cohorts. Common genetic variation in LXRA is unlikely to affect the risk of developing T2D or quantitative phenotypes related to glucose homeostasis. Show less

Uptake of dietary coenzyme Q (CoQ) into organs is limited but there are some exceptions such as adrenal glands and ovaries. Under deficient conditions an optimal solution could be stimulation of the endogenous synthesis. In rodent exercise, cold exposure and a few substances elevate the CoQ levels to some extent. Investigations of the nuclear receptors PPARalpha, RXRalpha and LXRalpha&beta did not answer the question which nuclear receptor regulates CoQ biosynthesis and at present we cannot design a ligand for upregulation of the synthesis. Upon ultraviolet irradiation of CoQ a number of products are formed which influence the synthesis of the mevalonate pathway lipids. Among them epoxidated derivatives were identified. Upon chemical epoxidation of a series of polyisoprenoids it was found that none of the tested poly-cis polyisoprenols had any effect but some of the all-trans polyisoprenols stimulated CoQ synthesis and in some cases also inhibited cholesterol biosynthesis. Tocotrienol epoxides were proved to be very efficient, those having one epoxide in the side chain doubled or trebled the CoQ synthesis while those with two epoxides additionally also inhibited cholesterol synthesis by 50-90%. The elevation of CoQ synthesis was elicited by increased mRNA levels for biosynthetic enzymes while the inhibition point in the cholesterol synthesis was localized to oxidosqualene cyclase. Show less