Elena Cáceres scite author profile

BackgroundInsulin producing beta cell and glucagon producing alpha cells are colocalized in pancreatic islets in an arrangement that facilitates the coordinated release of the two principal hormones that regulate glucose homeostasis and prevent both hypoglycemia and diabetes. However, this intricate organization has also complicated the determination of the cellular source(s) of the expression of genes that are detected in the islet. This reflects a significant gap in our understanding of mouse islet physiology, which reduces the effectiveness by which mice model human islet disease.ResultsTo overcome this challenge, we generated a bitransgenic reporter mouse that faithfully labels all beta and alpha cells in mouse islets to enable FACS-based purification and the generation of comprehensive transcriptomes of both populations. This facilitates systematic comparison across thousands of genes between the two major endocrine cell types of the islets of Langerhans whose principal hormones are of cardinal importance for glucose homeostasis. Our data leveraged against similar data for human beta cells reveal a core common beta cell transcriptome of 9900+ genes. Against the backdrop of overall similar beta cell transcriptomes, we describe marked differences in the repertoire of receptors and long non-coding RNAs between mouse and human beta cells.ConclusionsThe comprehensive mouse alpha and beta cell transcriptomes complemented by the comparison of the global (dis)similarities between mouse and human beta cells represent invaluable resources to boost the accuracy by which rodent models offer guidance in finding cures for human diabetes.Electronic supplementary materialThe online version of this article (doi:10.1186/1471-2164-15-620) contains supplementary material, which is available to authorized users.

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Urocortin3 mediates somatostatin-dependent negative feedback control of insulin secretion

Meulen

Donaldson

Cáceres

et al. 2015

Nat Med

225

217

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The peptide hormone Urocortin3 (Ucn3) is abundantly expressed by mature beta cells, yet its physiological role is unknown. Here we demonstrate that Ucn3 is stored and co–released with insulin and potentiates glucose–stimulated somatostatin secretion via cognate receptor on delta cells. Further, we found that islets lacking endogenous Ucn3 demonstrate fewer delta cells, reduced somatostatin content, impaired somatostatin secretion and exaggerated insulin release, and that these defects are rectified by synthetic Ucn3 in vitro. Our observations indicate that the paracrine actions of Ucn3 activate a negative feedback loop that promotes somatostatin release to ensure the timely reduction of insulin secretion upon normalization of plasma glucose. Moreover, Ucn3 is markedly depleted from beta cells in mouse and macaque diabetes models and in human diabetic islets. This suggests that Ucn3 is a key contributor to stable glycemic control whose reduction during diabetes aggravates glycemic volatility and contributes to the pathophysiology of this disease.

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Virgin Beta Cells Persist throughout Life at a Neogenic Niche within Pancreatic Islets

et al. 2017

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Self-Incompatibility in Olive: A New Hypothesis on the S-Locus Genes Controlling Pollen-Pistil Interaction

Collani¹,

Galla²,

Ramina³

et al. 2012

Acta Hortic.

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Aerobic interval exercise improves renal functionality and affects mineral metabolism in obese Zucker rats

Martínez

Kapravelou

López-Chaves

et al. 2019

American Journal of Physiology-Renal Physiology

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Obesity, metabolic syndrome, and renal injury are considered risk factors for type 2 diabetes, as well as kidney disease. Functional and structural changes in the kidney as consequence of obesity and metabolic syndrome may lead to impaired mineral metabolism in what is known as chronic kidney disease-mineral and bone disorder. Lifestyle interventions such as physical activity are good strategies to manage these pathologies and therefore, prevent the loss of kidney functionality and related complications in mineral metabolism. In this study, we have used 40 male Zucker rats that were randomly allocated into four different experimental groups, two of them (an obese and a lean one) performed an aerobic interval training protocol, and the other two groups were sedentary. At the end of the experimental period (8 wk), urine, plasma, and femur were collected for biochemical and mineral composition analysis, whereas the kidney was processed for histological studies. The obese rats exhibited albuminuria, glomerulosclerosis, and hypertrophy in glomeruli and renal tubule in some areas, together with alterations in mineral content of plasma but not of femur. The training protocol prevented the generation of albuminuria and glomerulosclerosis, showing a significant action on plasma and bone mineral levels. Therefore, the specific training protocol used in this study was able to prevent the development of diabetic nephropathy and affected the metabolism of certain minerals.

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Elena Cáceres

The transcriptional landscape of mouse beta cells compared to human beta cells reveals notable species differences in long non-coding RNA and protein-coding gene expression

Urocortin3 mediates somatostatin-dependent negative feedback control of insulin secretion

Virgin Beta Cells Persist throughout Life at a Neogenic Niche within Pancreatic Islets

Self-Incompatibility in Olive: A New Hypothesis on the S-Locus Genes Controlling Pollen-Pistil Interaction

Aerobic interval exercise improves renal functionality and affects mineral metabolism in obese Zucker rats

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