Circulating albumin is expected to play a significant role in the trafficking of plasma free fatty acids (FFA) between tissues, such as FFA transfer from adipose tissue to the liver. However, it was not yet known how disrupting FFA binding to albumin in circulation would alter lipid metabolism and any resulting impacts upon control of glycemia. To improve understanding of metabolic control, we aimed to determine whether lack of serum albumin would decrease plasma FFA, hepatic lipid storage, whole body substrate oxidation, and glucose metabolism. Male and female homozygous albumin knockout mice and C57BL/6J wild type controls, each on a standard diet containing a moderate fat content, were studied at 6–8 weeks of age. Indirect calorimetry, glucose tolerance testing, insulin tolerance testing, exercise performance, plasma proteome, and tissue analyses were performed. In both sexes of albumin knockout mice compared to the wild type mice, significant reductions (p < 0.05) were observed for plasma FFA concentration, hepatic triacylglycerol and diacylglycerol content, blood glucose during the glucose tolerance test, and blood glucose during the insulin tolerance test. Albumin deficiency did not reduce whole body fat oxidation over a 24‐h period and did not alter exercise performance in an incremental treadmill test. The system‐level phenotypic changes in lipid and glucose metabolism were accompanied by reduced hepatic perilipin‐2 expression (p < 0.05), as well as increased expression of adiponectin (p < 0.05) and glucose transporter‐4 (p < 0.05) in adipose tissue. The results indicate an important role of albumin and plasma FFA concentration in lipid metabolism and glucoregulation.
We present a smartphone-based bacterial colony phenotyping instrument using a reflective elastic light scattering (ELS) pattern and the resolving power of the new instrument. The reflectance-type device can acquire ELS patterns of colonies on highly opaque media as well as optically dense colonies. The novel instrument was built using a smartphone interface and a 532 nm diode laser, and these essential optical components made it a cost-effective and portable device. When a coherent and collimated light source illuminated a bacterial colony, a reflective ELS pattern was created on the screen and captured by the smartphone camera. The collected patterns whose shapes were determined by the colony morphology were then processed and analyzed to extract distinctive features for bacterial identification. For validation purposes, the reflective ELS patterns of five bacteria grown on opaque growth media were measured with the proposed instrument and utilized for the classification. Cross-validation was performed to evaluate the classification, and the result showed an accuracy above 94% for differentiating colonies of E. coli, K. pneumoniae, L. innocua, S. enteritidis, and S. aureus.
Insulin resistance is a global health problem. It has been shown that free fatty acids (FFA) play a major role in insulin resistance. Albumin acts as main fatty acid binding protein in blood. To improve understanding of the role of FFA in insulin resistance, we aimed to determine whether lack of serum albumin and the associated suppression of plasma FFA concentration would improve insulin sensitivity in albumin knockout mice compared to wild type mice. Male and female homozygous albumin knockout mice and C57BL/6J wild‐type controls, each fed a chow diet, were studied at 6‐8 weeks of age. Glucose tolerance test, insulin tolerance test, tissue analyses, and plasma proteomics were performed. In both sexes of albumin knockout mice compared to wild‐type mice, we observed lower levels of hepatic diacylglycerol content, as well as lower blood glucose during glucose tolerance test and insulin tolerance test (P < 0.05). The level of mRNA measurement showed higher expression of adiponectin, lipoprotein lipase, diacylglycerol acyltransferase‐1 and ‐2, and glucose transporter‐4 in adipose tissue, as well as lower hepatic perilipin‐2 expression (P<0.05). In agreement with adipose mRNA level analysis, plasma proteomics indicated that circulating adiponectin concentration was higher in albumin knockout compared to wild‐type mice (P<0.05). The results indicate an important role of albumin and plasma FFA concentration in lipid and glucose metabolism. We suggest that the lower plasma FFA concentration in albumin knockout mice compared to wild‐type mice leads to less hepatic diacylglycerol accumulation, and the lower level of this lipotoxic compound may contribute to the enhanced insulin sensitivity.
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