Hannah C. Little scite author profile

In this study, we designed and synthesized a biodegradable dendronized polypeptide (denpol) platform for delivery of small interfering RNA (siRNA). The novel denpol architecture combines the multivalency of dendrimers and conformational flexibility of linear polymers for optimal siRNA binding. Multifunctional amino acids were incorporated onto the dendrons and the structure was tuned both systematically and combinatorially to select optimal vectors. By screening a focused library, we identified several denpols that can effectively deliver siRNA to NIH 3T3 cells in vitro and exhibit minimal toxicity. For comparison, the best-performing denpol showed significantly improved transfection efficiency over Lipofectamine in serum-containing media. Fluorescence intracellular trafficking studies indicated that amphiphilicity is important for cell uptake and that the buffering capacity of histidine facilitates endosomal membrane rupture and therefore enhances the transfection efficiency. The combination of high delivery efficiency in serum and low cytotoxicity suggests the denpol system as a promising new carrier for siRNA delivery.

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C1q/TNF-related protein 6 (CTRP6) links obesity to adipose tissue inflammation and insulin resistance

Lei

Seldin

Little

et al. 2017

Journal of Biological Chemistry

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Obesity is associated with chronic low-grade inflammation, and metabolic regulators linking obesity to inflammation have therefore received much attention. Secreted C1q/TNF-related proteins (CTRPs) are one such group of regulators that regulate glucose and fat metabolism in peripheral tissues and modulate inflammation in adipose tissue. We have previously shown that expression of CTRP6 is up-regulated in leptin-deficient mice and, conversely, down-regulated by the anti-diabetic drug rosiglitazone. Here, we provide evidence for a novel role of CTRP6 in modulating both inflammation and insulin sensitivity. We found that in obese and diabetic humans and mouse models, expression was markedly up-regulated in adipose tissue and that stromal vascular cells, such as macrophages, are a major CTRP6 source. Overexpressing mouse or human CTRP6 impaired glucose disposal in peripheral tissues in response to glucose and insulin challenge in wild-type mice. Conversely, gene deletion improved insulin action and increased metabolic rate and energy expenditure in diet-induced obese mice. Mechanistically, CTRP6 regulates local inflammation and glucose metabolism by targeting macrophages and adipocytes, respectively. In cultured macrophages, recombinant CTRP6 dose-dependently up-regulated the expression and production of TNF-α. Conversely, CTRP6 deficiency reduced circulating inflammatory cytokines and pro-inflammatory macrophages in adipose tissue. CTRP6-overexpressing mice or CTRP6-treated adipocytes had reduced insulin-stimulated Akt phosphorylation and glucose uptake. In contrast, loss of CTRP6 enhanced insulin-stimulated Akt activation in adipose tissue. Together, these results establish CTRP6 as a novel metabolic/immune regulator linking obesity to adipose tissue inflammation and insulin resistance.

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Loss of CTRP1 disrupts glucose and lipid homeostasis

Rodriguez

Lei

Petersen

et al. 2016

American Journal of Physiology-Endocrinology and Metabolism

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C1q/TNF-related protein 1 (CTRP1) is a conserved plasma protein of the C1q family with notable metabolic and cardiovascular functions. We have previously shown that CTRP1 infusion lowers blood glucose and that transgenic mice with elevated circulating CTRP1 are protected from diet-induced obesity and insulin resistance. Here, we used a genetic loss-of-function mouse model to address the requirement of CTRP1 for metabolic homeostasis. Despite similar body weight, food intake, and energy expenditure, Ctrp1 knockout (KO) mice fed a low-fat diet developed insulin resistance and hepatic steatosis. Impaired glucose metabolism in Ctrp1 KO mice was associated with increased hepatic gluconeogenic gene expression and decreased skeletal muscle glucose transporter glucose transporter 4 levels and AMP-activated protein kinase activation. Loss of CTRP1 enhanced the clearance of orally administered lipids but did not affect intestinal lipid absorption, hepatic VLDL-triglyceride export, or lipoprotein lipase activity. In contrast to triglycerides, hepatic cholesterol levels were reduced in Ctrp1 KO mice, paralleling the reduced expression of cholesterol synthesis genes. Contrary to expectations, when challenged with a high-fat diet to induce obesity, Ctrp1 KO mice had increased physical activity and reduced body weight, adiposity, and expression of lipid synthesis and fibrotic genes in adipose tissue; these phenotypes were linked to elevated FGF-21 levels. Due in part to increased hepatic AMP-activated protein kinase activation and reduced expression of lipid synthesis genes, Ctrp1 KO mice fed a high-fat diet also had reduced liver and serum triglyceride and cholesterol levels. Taken together, these results provide genetic evidence to establish the significance of CTRP1 to systemic energy metabolism in different metabolic and dietary contexts.

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Myonectin deletion promotes adipose fat storage and reduces liver steatosis

et al. 2019

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We recently described myonectin (also known as erythroferrone) as a novel skeletal muscle‐derived myokine with metabolic functions. Here, we use a genetic mouse model to determine myonectin's requirement for metabolic homeostasis. Female myonectin‐deficient mice had larger gonadal fat pads and developed mild insulin resistance when fed a high‐fat diet (HFD) and had reduced food intake during refeeding after an unfed period but were otherwise indistinguishable from wild‐type littermates. Male mice lacking myonectin, however, had reduced physical activity when fed ad libitum and in the postprandial state but not during the unfed period. When stressed with an HFD, myonectin‐knockout male mice had significantly elevated VLDL‐triglyceride (TG) and strikingly impaired lipid clearance from circulation following an oral lipid load. Fat distribution between adipose and liver was also altered in myonectin‐deficient male mice fed an HFD. Greater fat storage resulted in significantly enlarged adipocytes and was associated with increased postprandial lipoprotein lipase activity in adipose tissue. Parallel to this was a striking reduction in liver steatosis due to significantly reduced TG accumulation. Liver metabolite profiling revealed additional significant changes in bile acids and 1‐carbon metabolism pathways. Combined, our data affirm the physiologic importance of myonectin in regulating local and systemic lipid metabolism.—Little, H. C., Rodriguez, S., Lei, X., Tan, S. Y., Stewart, A. N., Sahagun, A., Sarver, D. C., Wong, G. W. Myonectindeletion promotes adipose fat storage and reduces liver steatosis. FASEB J. 33, 8666–8687 (2019). http://www.fasebj.org

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CTRP7 deletion attenuates obesity-linked glucose intolerance, adipose tissue inflammation, and hepatic stress

Petersen

Lei

Wolf

et al. 2017

American Journal of Physiology-Endocrinology and Metabolism

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Chronic low-grade inflammation and cellular stress are important contributors to obesity-linked metabolic dysfunction. Here, we uncover an immune-metabolic role for C1q/TNF-related protein 7 (CTRP7), a secretory protein of the C1q family with previously unknown function. In obese humans, circulating CTRP7 levels were markedly elevated and positively correlated with body mass index, glucose, insulin, insulin resistance index, hemoglobin A1c, and triglyceride levels. Expression of in liver was also significantly upregulated in obese humans and positively correlated with gluconeogenic genes. In mice, expression was differentially modulated in various tissues by fasting and refeeding and by diet-induced obesity. A genetic loss-of-function mouse model was used to determine the requirement of CTRP7 for metabolic homeostasis. When fed a control low-fat diet, male or female mice lacking CTRP7 were indistinguishable from wild-type littermates. In obese male mice consuming a high-fat diet, however, CTRP7 deficiency attenuated insulin resistance and enhanced glucose tolerance, effects that were independent of body weight, metabolic rate, and physical activity level. Improved glucose metabolism in CTRP7-deficient mice was associated with reduced adipose tissue inflammation, as well as decreased liver fibrosis and cellular oxidative and endoplasmic reticulum stress. These results provide a link between elevated CTRP7 levels and impaired glucose metabolism, frequently associated with obesity. Inhibiting CTRP7 action may confer beneficial metabolic outcomes in the setting of obesity and diabetes.

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Loss of CTRP4 alters adiposity and food intake behaviors in obese mice

Sarver

Stewart

Rodriguez

et al. 2020

American Journal of Physiology-Endocrinology and Metabolism

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Central and peripheral mechanisms are both required for proper control of energy homeostasis. Among circulating plasma proteins, C1q/TNF-related proteins (CTRPs) recently emerged as important regulators of sugar and fat metabolism. CTRP4, expressed in brain and adipose tissue, is unique among the family members in having two tandem globular C1q domains. We previously showed that central administration of recombinant CTRP4 suppresses food intake, suggesting a central nervous system role in regulating ingestive physiology. Whether this effect is pharmacologic or physiologic remains unclear. We used a loss-of-function knockout (KO) mouse model to clarify the physiologic role of CTRP4. Under basal conditions, CTRP4 deficiency increased serum cholesterol levels and impaired glucose tolerance in male but not female mice fed a control low-fat diet. When challenged with a high-fat diet, male and female KO mice responded differently to weight gain and had different food intake patterns. On an obesogenic diet, male KO mice had similar weight gain as wildtype littermates. When fed ad libitum, KO male mice had greater meal number, shorter intermeal interval and reduced satiety ratio. Female KO mice, in contrast, had lower body weight and adiposity. In the refeeding period following food deprivation, female KO mice had significantly higher food intake due to longer meal duration and reduced satiety ratio. Collectively, our data provide genetic evidence for a sex-dependent physiologic role of CTRP4 in modulating food intake patterns and systemic energy metabolism.

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Multiplex Quantification Identifies Novel Exercise-regulated Myokines/Cytokines in Plasma and in Glycolytic and Oxidative Skeletal Muscle

Little

Tan

Cali

et al. 2018

Molecular & Cellular Proteomics

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Partial deficiency of CTRP12 alters hepatic lipid metabolism

Tan

Little

Lei

et al. 2016

Physiological Genomics

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Secreted hormones play pivotal roles in tissue cross talk to maintain physiologic blood glucose and lipid levels. We previously showed that C1q/TNF-related protein 12 (CTRP12) is a novel secreted protein involved in regulating glucose metabolism whose circulating levels are reduced in obese and insulin-resistant mouse models. Its role in lipid metabolism, however, is unknown. Using a novel heterozygous mouse model, we show that the loss of a single copy of the Ctrp12 gene (also known as Fam132a and adipolin) affects whole body lipid metabolism. In Ctrp12 (+/-) male mice fed a control low-fat diet, hepatic fat oxidation was upregulated while hepatic VLDL-triglyceride secretion was reduced relative to wild-type (WT) littermates. When challenged with a high-fat diet, Ctrp12 (+/-) male mice had impaired lipid clearance in response to acute lipid gavage, reduced hepatic triglyceride secretion, and greater steatosis with higher liver triglyceride and cholesterol levels. Unlike male mice, Ctrp12 (+/-) female mice fed a control low-fat diet were indistinguishable from WT littermates. When obesity was induced by high-fat feeding, Ctrp12 (+/-) female mice developed mild insulin resistance with impaired insulin tolerance. In contrast to male mice, hepatic triglyceride secretion was increased in Ctrp12 (+/-) female mice fed a high-fat diet. Thus, in different dietary and metabolic contexts, loss of a single Ctrp12 allele affects glucose and lipid metabolism in a sex-dependent manner, highlighting the importance of genetic and environmental determinants of metabolic phenotypes.

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Hannah C. Little

Multifunctional Dendronized Peptide Polymer Platform for Safe and Effective siRNA Delivery

C1q/TNF-related protein 6 (CTRP6) links obesity to adipose tissue inflammation and insulin resistance

Loss of CTRP1 disrupts glucose and lipid homeostasis

Myonectin deletion promotes adipose fat storage and reduces liver steatosis

CTRP7 deletion attenuates obesity-linked glucose intolerance, adipose tissue inflammation, and hepatic stress

Loss of CTRP4 alters adiposity and food intake behaviors in obese mice

Multiplex Quantification Identifies Novel Exercise-regulated Myokines/Cytokines in Plasma and in Glycolytic and Oxidative Skeletal Muscle

Partial deficiency of CTRP12 alters hepatic lipid metabolism

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