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5. Adaptive Thermogenesis Driving Catch-Up Fat Is Associated With Increased Muscle Type 3 and Decreased Hepatic Type 1 Iodothyronine Deiodinase Activities: A Functional and Proteomic Study

Author

Julie Calonne, Anna Maria Salzano, Federica Cioffi, Theo J. Visser, Robin P. Peeters, Pieter de Lange, Assunta Lombardi, Elena Silvestri, Andrea Scaloni, Michele Ceccarelli, Rosalba Senese, Rosa Anna Busiello, Celia Di Munno, Abdul G. Dulloo, Jennifer L. Miles-Chan, Di Munno, C., Busiello, R. A., Calonne, J., Salzano, A. M., Miles-Chan, J., Scaloni, A., Ceccarelli, M., de Lange, P., Lombardi, A., Senese, R., Cioffi, F., Visser, T. J., Peeters, R. P., Dulloo, A. G., Silvestri, E., Di Munno, Celia, Busiello, Rosa Anna, Calonne, Julie, Salzano Anna, Maria, Miles-Chan, Jennifer, Scaloni, Andrea, Ceccarelli, Michele, de Lange, Pieter, Lombardi, Assunta, Senese, Rosalba, Cioffi, Federica, Visser Theo, J, Peeters Robin, P, Dulloo Abdul, G, Silvestri, Elena, and Internal Medicine

Subjects
Male, Proteomics, 0301 basic medicine, obesity, Endocrinology, Diabetes and Metabolism, Thyroid Gland, White adipose tissue, weight regain, Weight Gain, lcsh:Diseases of the endocrine glands. Clinical endocrinology, Mass Spectrometry, Rats, Sprague-Dawley, catch-up fat, 0302 clinical medicine, Endocrinology, Hyperinsulinemia, Insulin, Medicine, Original Research, thermogenesis, Muscle Fibers, Slow-Twitch, medicine.anatomical_structure, Adipose Tissue, Liver, Body Composition, caloric restriction, Muscle Contraction, thyroid hormone metabolism, medicine.medical_specialty, Adipose Tissue, White, Iodide Peroxidase, 03 medical and health sciences, thermogenesi, SDG 3 - Good Health and Well-being, Hyperinsulinism, Internal medicine, Animals, thrifty metabolism, Muscle, Skeletal, Soleus muscle, lcsh:RC648-665, business.industry, Skeletal muscle, medicine.disease, Rats, Kinetics, Glucose, 030104 developmental biology, Iodothyronine deiodinase, Lean body mass, Energy Metabolism, business, Thermogenesis, 030217 neurology & neurosurgery, Hormone
Abstract

Refeeding after caloric restriction induces weight regain and a disproportionate recovering of fat mass rather than lean mass (catch-up fat) that, in humans, associates with higher risks to develop chronic dysmetabolism. Studies in a well-established rat model of semistarvation-refeeding have reported that catch-up fat associates with hyperinsulinemia, glucose redistribution from skeletal muscle to white adipose tissue and suppressed adaptive thermogenesis sustaining a high efficiency for fat deposition. The skeletal muscle of catch-up fat animals exhibits reduced insulin-stimulated glucose utilization, mitochondrial dysfunction, delayed in vivo contraction-relaxation kinetics, increased proportion of slow fibers and altered local thyroid hormone metabolism, with suggestions of a role for iodothyronine deiodinases. To obtain novel insights into the skeletal muscle response during catch-up fat in this rat model, the functional proteomes of tibialis anterior and soleus muscles, harvested after 2 weeks of caloric restriction and 1 week of refeeding, were studied. Furthermore, to assess the implication of thyroid hormone metabolism in catch-up fat, circulatory thyroid hormones as well as liver type 1 (D1) and liver and skeletal muscle type 3 (D3) iodothyronine deiodinase activities were evaluated. The proteomic profiling of both skeletal muscles indicated catch-up fat-induced alterations, reflecting metabolic and contractile adjustments in soleus muscle and changes in glucose utilization and oxidative stress in tibialis anterior muscle. In response to caloric restriction, D3 activity increased in both liver and skeletal muscle, and persisted only in skeletal muscle upon refeeding. In parallel, liver D1 activity decreased during caloric restriction, and persisted during catch-up fat at a time-point when circulating levels of T4, T3 and rT3 were all restored to those of controls. Thus, during catch-up fat, a local hypothyroidism may occur in liver and skeletal muscle despite systemic euthyroidism. The resulting reduced tissue thyroid hormone bioavailability, likely D1- and D3-dependent in liver and skeletal muscle, respectively, may be part of the adaptive thermogenesis sustaining catch-up fat. These results open new perspectives in understanding the metabolic processes associated with the high efficiency of body fat recovery after caloric restriction, revealing new implications for iodothyronine deiodinases as putative biological brakes contributing in suppressed thermogenesis driving catch-up fat during weight regain. © Copyright © 2021 Di Munno, Busiello, Calonne, Salzano, Miles-Chan, Scaloni, Ceccarelli, de Lange, Lombardi, Senese, Cioffi, Visser, Peeters, Dulloo and Silvestri.

Published
2021
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6. Atypical features of familial hemophagocytic lymphohistiocytosis

Author

Claudio Pignata, Marsilio Adriani, Mario Galgani, Luigi Racioppi, Franco Locatelli, Rita Clementi, Rosanna Busiello, Giorgia Fimiani, Matilde Valeria Ursini, Busiello, R., Adriani, M., Locatelli, F., Galgani, M., Fimiani, G., Clementi, R., Ursini, M. V., Racioppi, Luigi, and Pignata, Claudio

Subjects
Male, Pathology, medicine.medical_specialty, Histiocytosis, Non-Langerhans-Cell, Immunology, Mutation, Missense, Biology, Gene mutation, linfo-istiocitosi, Polymerase Chain Reaction, Biochemistry, Asymptomatic, Natural killer cell, Fraternal twin, medicine, Humans, Missense mutation, Immune Response, Hemophagocytic lymphohistiocytosis, Gene Amplification, DNA, Exons, Cell Biology, Hematology, Familial Hemophagocytic Lymphohistiocytosis, medicine.disease, Pedigree, medicine.anatomical_structure, Perforin, biology.protein, Female, medicine.symptom, K562 Cells, immunodeficiency
Abstract

Familial hemophagocytic lymphohistiocytosis (FHLH) is a rare, rapidly progressive disorder of early childhood characterized by uncontrolled activation of T cells and macrophages. Although perforin gene mutations have been described in a proportion of patients with FHLH, the genotype/phenotype correlation is still limited. Only a few patients with late onset clinical manifestations have been reported. The biochemical and immunologic alterations in the asymptomatic phase are not well known. We report on a family in which 2 fraternal twins both homozygous for a perforin mutation previously described as causative of the disease, markedly differed in phenotypic expression of FHLH. The twins also had a second novel heterozygous mutation. Natural killer (NK) activity was severely impaired in the patient and was normal in the asymptomatic fraternal twin. Our report highlights that FHLH may present after a long disease-free interval during which biochemical or immunologic alterations may be not evident, thus implying a role for interfering factors. (Blood. 2004;103:4610-4612)

Published
2004
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7. 3,5-Diiodo-L-thyronine rapidly enhances mitochondrial fatty acid oxidation rate and thermogenesis in rat skeletal muscle: AMP-activated protein kinase involvement

Author

E. Silvestri, Assunta Lombardi, Fernando Goglia, Rosa Anna Busiello, Maria João Moreno, P. de Lange, Antonia Lanni, Lombardi, A., DE LANGE, Pieter, Silvestri, E., Busiello, R., Lanni, Antonia, Goglia, F., and Moreno, M.

Subjects
Adenosine monophosphate, Male, medicine.medical_specialty, Adenosine 5′-monophosphate, Physiology, Endocrinology, Diabetes and Metabolism, Diiodothyronines, Mitochondrion, AMP-Activated Protein Kinases, chemistry.chemical_compound, AMP-activated protein kinase, Hypothyroidism, Physiology (medical), Internal medicine, medicine, Animals, Phosphorylation, Rats, Wistar, Muscle, Skeletal, Palmitoylcarnitine, chemistry.chemical_classification, biology, Fatty Acids, Acetyl-CoA carboxylase, Fatty acid, Skeletal muscle, Mitochondria, Rats, Thyroid hormone, Disease Models, Animal, medicine.anatomical_structure, Endocrinology, chemistry, Biochemistry, biology.protein, Thermogenesis, Oxidation-Reduction, Acetyl-CoA Carboxylase, Body Temperature Regulation
Abstract

Triiodothyronine regulates energy metabolism and thermogenesis. Among triiodothyronine derivatives, 3,5-diiodo-l-thyronine (T2) has been shown to exert marked effects on energy metabolism by acting mainly at the mitochondrial level. Here we investigated the capacity of T2to affect both skeletal muscle mitochondrial substrate oxidation and thermogenesis within 1 h after its injection into hypothyroid rats. Administration of T2induced an increase in mitochondrial oxidation when palmitoyl-CoA (+104%), palmitoylcarnitine (+80%), or succinate (+30%) was used as substrate, but it had no effect when pyruvate was used. T2was able to 1) activate the AMPK-ACC-malonyl-CoA metabolic signaling pathway known to direct lipid partitioning toward oxidation and 2) increase the importing of fatty acids into the mitochondrion. These results suggest that T2stimulates mitochondrial fatty acid oxidation by activating several metabolic pathways, such as the fatty acid import/β-oxidation cycle/FADH2-linked respiratory pathways, where fatty acids are imported. T2also enhanced skeletal muscle mitochondrial thermogenesis by activating pathways involved in the dissipation of the proton-motive force not associated with ATP synthesis (“proton leak”), the effect being dependent on the presence of free fatty acids inside mitochondria. We conclude that skeletal muscle is a target for T2, and we propose that, by activating processes able to enhance mitochondrial fatty acid oxidation and thermogenesis, T2could play a role in protecting skeletal muscle against excessive intramyocellular lipid storage, possibly allowing it to avoid functional disorders.

Published
2009

8. Ancestral founder mutation of the nude (FOXN1) gene in congenital severe combined immunodeficiency associated with alopecia in southern Italy population

Author

Jorge Frank, Merryana Adriani, Claudio Pignata, Matilde Valeria Ursini, S. Telese, Francesca Fusco, Amalia Martinez-Mir, Angela M. Christiano, Rosanna Busiello, Eliana Matrecano, Adriani, M, MARTINEZ-MIR, A., Fusco, F., Busiello, R., Caestecker, FRANK JOZEF, Telese, S., Matrecano, E., Ursini, M. V., Christiano, A. M., and Pignata, C.

Subjects
Male, Heterozygote, Nonsense mutation, Population, Italy population, Biology, Forkhead transcription factors, Chromosome 17 (C17), DNA-binding proteins, Genetics, Humans, education, Genetics (clinical), education.field_of_study, Transition (genetics), Haplotype, Alopecia, Forkhead Transcription Factors, Founder Effect, Pedigree, Chromosome 17 (human), DNA-Binding Proteins, Genetics, Population, Italy, Mutation (genetic algorithm), Mutation, Microsatellite, Female, Severe Combined Immunodeficiency, Founder effect, Chromosomes, Human, Pair 17, Microsatellite Repeats, Transcription Factors
Abstract

4 páginas, 1 figura, 1 tabla., Genetic alterations of the FOXN1 transcription factor, selectively expressed in thymic epithelia and skin, are responsible in both mice and humans for the Nude/SCID phenotype. The first described human FOXN1 mutation was a C792T transition in exon 5 resulting in the nonsense mutation R255X, and was detected in two probands originated from a small community in southern Italy. In this community, four additional children affected with congenital alopecia died in early childhood because of severe infections. In this study, we report on the screening for this mutation in 30% of the village population. This analysis led us to identify 55 heterozygous carriers (6.52%) of the R255X mutation out of 843 inhabitants screened. A genealogical study revealed that these subjects, belonging to 39 families, were linked in an extended 7-generational pedigree comprising 483 individuals. Through the archival database a single ancestral couple, born at the beginning of the 19th century, was identified. To confirm the ancestral origin of the mutation we genotyped two microsatellite markers, D17S2187 and D17S1880, flanking the FOXN1 gene on chromosome 17. The three haplotypes identified, 3/R255X/3, 3/R255X/2 and 3/R255X/1, are consistent with a single ancestral origin for the mutation R255X., This work was supported by the Grants “Ministero della Salute - Roma and Regione Campania, Legge 502”, MIUR-PRIN 2002 and Telethon #E0934.

Published
2004

9. Allogeneic bone marrow transplantation restores IGF-I production and linear growth in a gamma-SCID patient with abnormal growth hormone receptor signaling

Author

V Esposito, Carmine Selleri, C Pignata, Bruno Rotoli, Rosanna Busiello, M Salerno, Merryana Adriani, E Cosentini, Salerno, Mariacarolina, Busiello, R., Esposito, V., Cosentini., E, Adriani, M., Selleri, C., Rotoli, B., and Pignata, Claudio

Subjects
Male, medicine.medical_specialty, Immunoglobulin gamma-Chains, medicine.medical_treatment, Growth, Short stature, Internal medicine, Humans, Regeneration, Transplantation, Homologous, Medicine, Insulin-Like Growth Factor I, Bone Marrow Transplantation, Transplantation, Severe combined immunodeficiency, Growth, Insulin-like growth factor I, Severe combined immunodeficiency, business.industry, Growth factor, Graft Survival, Infant, Hematopoietic stem cell, Receptors, Somatotropin, Hematology, medicine.disease, Abnormal Growth Hormone, Endocrinology, medicine.anatomical_structure, Immune System, Severe Combined Immunodeficiency, Bone marrow, medicine.symptom, Stem cell, business, Signal Transduction
Abstract

Severe combined immunodeficiency (SCID) is a heterogeneous group of disorders characterized by a severe defect of both T- and B-cell immunity, which generally require allogeneic bone marrow transplantation (BMT) within the first years of life. We previously reported a patient affected with an X-linked SCID due to L183S hemizygous missense gamma chain mutation, whose severe short stature was due to a peripheral growth hormone (GH) hyporesponsiveness associated to abnormal GH receptor (GH-R) signal transduction. In this study, we report the effect of BMT on the GH-R/insulin-like growth factor I (IGF-I) axis. After BMT, the patient showed a significant improvement in linear growth and normalization of basal- and GH-stimulated IGF-I values, which paralleled a fully competent immunological reconstitution. This suggests that cells derived from the hematopoietic stem cell may exert an unexpectedly significant role in producing IGF-I. This may also suggest that stem cell-based therapies may be useful for the correction of non-hematopoietic inherited disorders, such as those of GH-R/IGF-I axis.

Published
2004

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