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1.
Am J Transplant ; 21(9): 2950-2963, 2021 09.
Artículo en Inglés | MEDLINE | ID: mdl-33428803

RESUMEN

Transplantation of islets in type 1 diabetes (T1D) is limited by poor islet engraftment into the liver, with two to three donor pancreases required per recipient. We aimed to condition the liver to enhance islet engraftment to improve long-term graft function. Diabetic mice received a non-curative islet transplant (n = 400 islets) via the hepatic portal vein (HPV) with fibroblast growth factor 7-loaded galactosylated poly(DL-lactide-co-glycolic acid) (FGF7-GAL-PLGA) particles; 26-µm diameter particles specifically targeted the liver, promoting hepatocyte proliferation in short-term experiments: in mice receiving 0.1-mg FGF7-GAL-PLGA particles (60-ng FGF7) vs vehicle, cell proliferation was induced specifically in the liver with greater efficacy and specificity than subcutaneous FGF7 (1.25 mg/kg ×2 doses; ~75-µg FGF7). Numbers of engrafted islets and vascularization were greater in liver sections of mice receiving islets and FGF7-GAL-PLGA particles vs mice receiving islets alone, 72 h posttransplant. More mice (six of eight) that received islets and FGF7-GAL-PLGA particles normalized blood glucose concentrations by 30-days posttransplant, versus zero of eight mice receiving islets alone with no evidence of increased proliferation of cells within the liver at this stage and normal liver function tests. This work shows that liver-targeted FGF7-GAL-PLGA particles achieve selective FGF7 delivery to the liver-promoting islet engraftment to help normalize blood glucose levels with a good safety profile.


Asunto(s)
Diabetes Mellitus Experimental , Diabetes Mellitus Tipo 1 , Trasplante de Islotes Pancreáticos , Islotes Pancreáticos , Animales , Glucemia , Factor 7 de Crecimiento de Fibroblastos , Supervivencia de Injerto , Ratones
2.
J Endocrinol ; 234(1): R67-R79, 2017 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-28455432

RESUMEN

Throughout the last decade, significant developments in cellular, molecular and mouse models have revealed major endocrine functions of the skeleton. More recent studies have evolved the interplay between bone-specific hormones, the skeleton, marrow adipose tissue, muscle and the brain. This review focuses on literature from the last decade, addressing the endocrine regulation of global energy metabolism via the skeleton. In addition, we will highlight several recent studies that further our knowledge of new endocrine functions of some organs; explore remaining unanswered questions; and, finally, we will discuss future directions for this more complex era of bone biology research.


Asunto(s)
Huesos/metabolismo , Sistema Endocrino/fisiología , Metabolismo Energético/fisiología , Homeostasis/fisiología , Tejido Adiposo/fisiología , Animales , Anorexia , Enfermedades Óseas , Médula Ósea , Diabetes Mellitus , Femenino , Humanos , Hepatopatías , Masculino , Ratones , Mieloma Múltiple , Obesidad , Osteocalcina , PPAR gamma , Enfermedades Pancreáticas
3.
PLoS Genet ; 7(12): e1002404, 2011 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-22216009

RESUMEN

There is much interest in the mechanisms that regulate adult tissue homeostasis and their relationship to processes governing foetal development. Mice deleted for the Wilms' tumour gene, Wt1, lack kidneys, gonads, and spleen and die at mid-gestation due to defective coronary vasculature. Wt1 is vital for maintaining the mesenchymal-epithelial balance in these tissues and is required for the epithelial-to-mesenchyme transition (EMT) that generates coronary vascular progenitors. Although Wt1 is only expressed in rare cell populations in adults including glomerular podocytes, 1% of bone marrow cells, and mesothelium, we hypothesised that this might be important for homeostasis of adult tissues; hence, we deleted the gene ubiquitously in young and adult mice. Within just a few days, the mice suffered glomerulosclerosis, atrophy of the exocrine pancreas and spleen, severe reduction in bone and fat, and failure of erythropoiesis. FACS and culture experiments showed that Wt1 has an intrinsic role in both haematopoietic and mesenchymal stem cell lineages and suggest that defects within these contribute to the phenotypes we observe. We propose that glomerulosclerosis arises in part through down regulation of nephrin, a known Wt1 target gene. Protein profiling in mutant serum showed that there was no systemic inflammatory or nutritional response in the mutant mice. However, there was a dramatic reduction in circulating IGF-1 levels, which is likely to contribute to the bone and fat phenotypes. The reduction of IGF-1 did not result from a decrease in circulating GH, and there is no apparent pathology of the pituitary and adrenal glands. These findings 1) suggest that Wt1 is a major regulator of the homeostasis of some adult tissues, through both local and systemic actions; 2) highlight the differences between foetal and adult tissue regulation; 3) point to the importance of adult mesenchyme in tissue turnover.


Asunto(s)
Glomerulonefritis/genética , Homeostasis/genética , Insuficiencia Multiorgánica/genética , Proteínas WT1/fisiología , Animales , Atrofia/genética , Atrofia/patología , Linaje de la Célula/genética , Transición Epitelial-Mesenquimal/genética , Femenino , Eliminación de Gen , Regulación de la Expresión Génica , Glomerulonefritis/patología , Gónadas/embriología , Gónadas/metabolismo , Gónadas/patología , Hematopoyesis/genética , Factor I del Crecimiento Similar a la Insulina/genética , Factor I del Crecimiento Similar a la Insulina/metabolismo , Glomérulos Renales/embriología , Glomérulos Renales/metabolismo , Glomérulos Renales/patología , Masculino , Proteínas de la Membrana/genética , Proteínas de la Membrana/metabolismo , Células Madre Mesenquimatosas/metabolismo , Ratones , Ratones Transgénicos , Insuficiencia Multiorgánica/patología , Páncreas Exocrino/embriología , Páncreas Exocrino/metabolismo , Páncreas Exocrino/patología , Podocitos/metabolismo , Podocitos/patología , Bazo/embriología , Bazo/metabolismo , Bazo/patología , Tamoxifeno/farmacología , Proteínas WT1/genética
4.
J Neurosci ; 27(39): 10487-96, 2007 Sep 26.
Artículo en Inglés | MEDLINE | ID: mdl-17898220

RESUMEN

Glucocorticoids are pivotal in the maintenance of memory and cognitive functions as well as other essential physiological processes including energy metabolism, stress responses, and cell proliferation. Normal aging in both rodents and humans is often characterized by elevated glucocorticoid levels that correlate with hippocampus-dependent memory impairments. 11Beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD1) amplifies local intracellular ("intracrine") glucocorticoid action; in the brain it is highly expressed in the hippocampus. We investigated whether the impact of 11beta-HSD1 deficiency in knock-out mice (congenic on C57BL/6J strain) on cognitive function with aging reflects direct CNS or indirect effects of altered peripheral insulin-glucose metabolism. Spatial learning and memory was enhanced in 12 month "middle-aged" and 24 month "aged" 11beta-HSD1(-/-) mice compared with age-matched congenic controls. These effects were not caused by alterations in other cognitive (working memory in a spontaneous alternation task) or affective domains (anxiety-related behaviors), to changes in plasma corticosterone or glucose levels, or to altered age-related pathologies in 11beta-HSD1(-/-) mice. Young 11beta-HSD1(-/-) mice showed significantly increased newborn cell proliferation in the dentate gyrus, but this was not maintained into aging. Long-term potentiation was significantly enhanced in subfield CA1 of hippocampal slices from aged 11beta-HSD1(-/-) mice. These data suggest that 11beta-HSD1 deficiency enhances synaptic potentiation in the aged hippocampus and this may underlie the better maintenance of learning and memory with aging, which occurs in the absence of increased neurogenesis.


Asunto(s)
11-beta-Hidroxiesteroide Deshidrogenasa de Tipo 1/fisiología , Hipocampo/fisiología , Potenciación a Largo Plazo/fisiología , Aprendizaje por Laberinto/fisiología , Memoria/fisiología , Factores de Edad , Envejecimiento/fisiología , Animales , Cognición/fisiología , Ratones , Ratones Endogámicos C57BL , Ratones Noqueados
5.
Endocrinology ; 147(6): 2879-85, 2006 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-16543369

RESUMEN

11Beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD1) increases intracellular glucocorticoid action by converting inactive to active glucocorticoids (cortisol, corticosterone) within cells. It is highly expressed in glucocorticoid target tissues including liver and lung, and at modest levels in adipose tissue and brain. A selective increase in adipose 11beta-HSD1 expression occurs in obese humans and rodents and is likely to be of pathogenic importance in the metabolic syndrome. Here we have used 5' rapid amplificaiton of cDNA ends (RACE) to identify a novel promoter, P1, of the gene encoding 11beta-HSD1. P1 is located 23 kb 5' to the previously described promoter, P2. Both promoters are active in liver, lung, adipose tissue, and brain. However, P1 (encoding exon 1A) predominates in lung and P2 (encoding exon 1B) predominates in liver, adipose tissue, and brain. Adipose tissue of obese leptin-deficient C57BL/6J-Lepob mice showed higher expression only of the P2-associated exon 1B-containing 11beta-HSD1 mRNA variant. In contrast to P2, which is CAAAT/enhancer binding protein (C/EBP)-alpha inducible in transiently transfected cells, the P1 promoter was unaffected by C/EBPalpha in transfected cells. Consistent with these findings, mice lacking C/EBPalpha had normal 11beta-HSD1 mRNA levels in lung but showed a dramatic reduction in levels of 11beta-HSD1 mRNA in liver and brown adipose tissue. These results therefore demonstrate tissue-specific differential regulation of 11beta-HSD1 mRNA through alternate promoter usage and suggest that increased adipose 11beta-HSD1 expression in obesity is due to a selective increase in activity of the C/EBPalpha-regulated P2 promoter.


Asunto(s)
11-beta-Hidroxiesteroide Deshidrogenasa de Tipo 1/genética , Proteína alfa Potenciadora de Unión a CCAAT/fisiología , Pulmón/enzimología , Regiones Promotoras Genéticas , Tejido Adiposo/metabolismo , Animales , Secuencia de Bases , Masculino , Ratones , Ratones Endogámicos C57BL , Datos de Secuencia Molecular , Especificidad de Órganos , Reacción en Cadena de la Polimerasa , Transcripción Genética
6.
Recent Prog Horm Res ; 59: 359-93, 2004.
Artículo en Inglés | MEDLINE | ID: mdl-14749510

RESUMEN

The highly prevalent metabolic syndrome (insulin resistance, type 2 diabetes, dyslipidemia, hypertension, along with abdominal obesity) resembles Cushing's syndrome. However, in simple obesity, plasma cortisol levels are not elevated. 11beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD1), at least in mature adipocytes and hepatocytes, converts inactive circulating 11-keto steroids into active glucocorticoids, amplifying local glucocorticoid action. 11beta-HSD1 is elevated in adipose tissue in obese humans and rodents, suggesting that adipose tissue glucocorticoid excess may explain the conundrum. Indeed, transgenic mice overexpressing 11beta-HSD1 in adipose tissue faithfully replicate the metabolic syndrome. Conversely, 11beta-HSD1(-/-) mice resist the metabolic consequences of stress and high-fat feeding via insulin sensitisation and other advantageous effects in the liver and adipose tissue. Adipose 11beta-HSD1 deficiency contributes to a protective metabolic phenotype, supporting its role as a therapeutic target for the metabolic syndrome.


Asunto(s)
11-beta-Hidroxiesteroide Deshidrogenasas/metabolismo , Tejido Adiposo/enzimología , Glucocorticoides/fisiología , 11-beta-Hidroxiesteroide Deshidrogenasas/genética , Glándulas Suprarrenales/fisiopatología , Animales , Humanos , Hipotálamo/fisiopatología , Hígado/enzimología , Síndrome Metabólico/tratamiento farmacológico , Síndrome Metabólico/fisiopatología , Ratones , Ratones Noqueados , Ratones Transgénicos , Obesidad/fisiopatología , Hipófisis/fisiopatología
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