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2. Inflammatory protein signatures in individuals with obesity and metabolic syndrome

Author

Fayaz Ahmad Mir, Houari B. Abdesselem, Farhan Cyprian, Ahmad Iskandarani, Asmma Doudin, Tareq A. Samra, Meis Alkasem, Ibrahem Abdalhakam, Shahrad Taheri, and Abdul-Badi Abou-Samra

Subjects
Medicine, Science
Abstract

Abstract There is variability in the metabolic health status among individuals presenting with obesity; some may be metabolically healthy, while others may have developed the metabolic syndrome, a cluster including insulin resistance, hypertension, dyslipidemia, and increased risk of cardiovascular disease and type 2 diabetes. The mechanisms contributing to this metabolic heterogeneity are not fully understood. To address this question, plasma samples from 48 individuals with BMI ≥ 35 kg/m2 were examined (27 with and 21 without metabolic syndrome). Fasting plasma samples were subjected to Olink proteomics analysis for 184 cardiometabolic and inflammation-enriched proteins. Data analysis showed a clear differentiation between the two groups with distinct plasma protein expression profiles. Twenty-four proteins were differentially expressed (DEPs) between the two groups. Pathways related to immune cell migration, leukocyte chemotaxis, chemokine signaling, mucosal inflammatory response, tissue repair and remodeling were enriched in the group with metabolic syndrome. Functional analysis of DEPs revealed upregulation of 15 immunological pathways. The study identifies some of the pathways that are altered and reflect metabolic health in individuals with obesity. This provides valuable insights into some of the underlying mechanisms and can lead to identification of therapeutic targets to improve metabolic health in individuals with obesity.

Published
2023
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3. An integrated multi-omic approach demonstrates distinct molecular signatures between human obesity with and without metabolic complications: a case–control study

Author

Fayaz Ahmad Mir, Raghvendra Mall, Ehsan Ullah, Ahmad Iskandarani, Farhan Cyprian, Tareq A. Samra, Meis Alkasem, Ibrahem Abdalhakam, Faisal Farooq, Shahrad Taheri, and Abdul-Badi Abou-Samra

Subjects
microRNA, General Medicine, Multiomics, General Biochemistry, Genetics and Molecular Biology, metabolic syndrome
Abstract

Objectives To examine the hypothesis that obesity complicated by the metabolic syndrome, compared to uncomplicated obesity, has distinct molecular signatures and metabolic pathways. Methods We analyzed a cohort of 39 participants with obesity that included 21 with metabolic syndrome, age-matched to 18 without metabolic complications. We measured in whole blood samples 754 human microRNAs (miRNAs), 704 metabolites using unbiased mass spectrometry metabolomics, and 25,682 transcripts, which include both protein coding genes (PCGs) as well as non-coding transcripts. We then identified differentially expressed miRNAs, PCGs, and metabolites and integrated them using databases such as mirDIP (mapping between miRNA-PCG network), Human Metabolome Database (mapping between metabolite-PCG network) and tools like MetaboAnalyst (mapping between metabolite-metabolic pathway network) to determine dysregulated metabolic pathways in obesity with metabolic complications. Results We identified 8 significantly enriched metabolic pathways comprising 8 metabolites, 25 protein coding genes and 9 microRNAs which are each differentially expressed between the subjects with obesity and those with obesity and metabolic syndrome. By performing unsupervised hierarchical clustering on the enrichment matrix of the 8 metabolic pathways, we could approximately segregate the uncomplicated obesity strata from that of obesity with metabolic syndrome. Conclusions The data suggest that at least 8 metabolic pathways, along with their various dysregulated elements, identified via our integrative bioinformatics pipeline, can potentially differentiate those with obesity from those with obesity and metabolic complications.

Published
2023

4. Differences in protein expression, at the basal state and at 2 h of insulin infusion, in muscle biopsies from healthy Arab men with high or low insulin sensitivity measured by hyperinsulinemic euglycemic clamp

Author

Ilham Bettahi, Roopesh Krishnankutty, Morana Jaganjac, Noor Nabeel M. Suleiman, Manjunath Ramanjaneya, Jayakumar Jerobin, Shaimaa Hassoun, Meis Alkasem, Ibrahem Abdelhakam, Ahmad Iskandarani, Tareq A. Samra, Vidya Mohamed-Ali, and Abdul Badi Abou-Samra

Subjects
Endocrinology, Diabetes and Metabolism
Abstract

BackgroundSkeletal muscle is the main site for insulin-dependent glucose disposal. The hyperinsulinemic euglycemic clamp (HIEC) is the gold standard for the assessment of insulin sensitivity (IS). We have previously shown that insulin sensitivity, measured by HIEC, varied widely among a group of 60 young healthy men with normoglycemia. The aim of this study was to correlate the proteomic profile of skeletal muscles to insulin sensitivity.MethodsMuscle biopsies from 16 subjects having the highest (M ≥ 13; n = 8, HIS) and lowest (M ¾ 6, n = 8, LIS) IS were obtained at baseline and during insulin infusion after stabilization of the blood glucose level and glucose infusion rate at the end of the HIEC. The samples were processed using a quantitative proteomic analysis approach.ResultsAt baseline, 924 proteins were identified in the HIS and LIS groups. Among the 924 proteins detected in both groups, three were suppressed and three were increased significantly in the LIS subjects compared with the HIS subjects. Following insulin infusion, 835 proteins were detected in both groups. Among the 835 proteins, two showed differential responsiveness to insulin; ATP5F1 protein was decreased, and MYLK2 was higher in the LIS group compared with that in the HIS group. Our data suggest that alteration in mitochondrial proteins and an increased number of proteins involved in fast-twitch fiber correlate to insulin sensitivity in healthy young Arab men.ConclusionsThese results suggest a change in a small number of differentially expressed proteins. A possible reason for this small change could be our study cohorts representing a homogeneous and healthy population. Additionally, we show differences in protein levels from skeletal muscle in low and high insulin sensitivity groups. Therefore, these differences may represent early events for the development of insulin resistance, pre-diabetes, and type 2 diabetes.

Published
2023
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5. A multiomic approach to examine the molecular signatures differentiating people with obesity alone from those with obesity and metabolic complications

Author

Fayaz Mir, Raghvendra Mall, Ehsan Ullah, Ahmad Iskandarani, Farhan Cyprian, Tareq A. Samra, Meis Alkasem, Ibrahem Abdalhakam, Faisal Farooq, Shahrad Taheri, and Abdul-Badi Abou-Samra

Abstract

Motivation To examine the hypothesis that obesity with metabolic syndrome, compared to simple obesity, has distinct molecular signatures and metabolic pathways. Methods We analyzed a cohort of 39 patients with obesity that includes 21 subjects with metabolic syndrome, age-matched to 21 subjects with simple obesity. We measured in whole blood samples 754 human microRNAs (miRNAs), 704 metabolites using unbiased mass spectrometry metabolomics, and 25,682 transcripts, which include both protein coding genes (PCGs) as well as non-coding transcripts. We then identified differentially expressed miRNAs, PCGs, and metabolites and integrated them using databases such as mirDIP (mapping between miRNA-PCG network), Human Metabolome Database (mapping between metabolite-PCG network) and tools like MetaboAnalyst (mapping between metabolite-metabolic pathway network) to determine dysregulated metabolic pathways in obesity with metabolic complications. Results We identified 8 significantly enriched metabolic pathways comprising 8 metabolites, 25 protein coding genes and 9 microRNAs which are each differentially expressed between the subjects with obesity and those with obesity and metabolic syndrome. By performing unsupervised hierarchical clustering on the enrichment matrix of the 8 metabolic pathways, we could approximately segregate the simple obesity strata from that of obesity with metabolic syndrome. Conclusions The data suggest that at least 8 metabolic pathways, along with their various dysregulated elements, identified via our integrative bioinformatics pipeline, can potentially differentiate the patients with obesity from those with obesity and metabolic complications.

Published
2023
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6. Characteristic MicroRNAs Linked to Dysregulated Metabolic Pathways in Qatari Adult Subjects With Obesity and Metabolic Syndrome

Author

Fayaz Ahmad Mir, Raghvendra Mall, Ahmad Iskandarani, Ehsan Ullah, Tareq A. Samra, Farhan Cyprian, Aijaz Parray, Meis Alkasem, Ibrahem Abdalhakam, Faisal Farooq, and Abdul-Badi Abou-Samra

Subjects
Adult, Glycated Hemoglobin, Metabolic Syndrome, metabolic disorder, obesity, HbA1c, Endocrinology, Diabetes and Metabolism, mirDIP, MicroRNAs, Creatinine, Humans, Obesity, network analysis, Biomarkers, Metabolic Networks and Pathways, miRNA
Abstract

BackgroundObesity-associated dysglycemia is associated with metabolic disorders. MicroRNAs (miRNAs) are known regulators of metabolic homeostasis. We aimed to assess the relationship of circulating miRNAs with clinical features in obese Qatari individuals.MethodsWe analyzed a dataset of 39 age-matched patients that includes 18 subjects with obesity only (OBO) and 21 subjects with obesity and metabolic syndrome (OBM). We measured 754 well-characterized human microRNAs (miRNAs) and identified differentially expressed miRNAs along with their significant associations with clinical markers in these patients.ResultsA total of 64 miRNAs were differentially expressed between metabolically healthy obese (OBO) versus metabolically unhealthy obese (OBM) patients. Thirteen out of 64 miRNAs significantly correlated with at least one clinical trait of the metabolic syndrome. Six out of the thirteen demonstrated significant association with HbA1c levels; miR-331-3p, miR-452-3p, and miR-485-5p were over-expressed, whereas miR-153-3p, miR-182-5p, and miR-433-3p were under-expressed in the OBM patients with elevated HbA1c levels. We also identified, miR-106b-3p, miR-652-3p, and miR-93-5p that showed a significant association with creatinine; miR-130b-5p, miR-363-3p, and miR-636 were significantly associated with cholesterol, whereas miR-130a-3p was significantly associated with LDL. Additionally, miR-652-3p’s differential expression correlated significantly with HDL and creatinine.ConclusionsMicroRNAs associated with metabolic syndrome in obese subjects may have a pathophysiologic role and can serve as markers for obese individuals predisposed to various metabolic diseases like diabetes.

Published
2022

7. Dysregulated Metabolic Pathways in Subjects with Obesity and Metabolic Syndrome

Author

Fayaz Ahmad Mir, Ehsan Ullah, Raghvendra Mall, Ahmad Iskandarani, Tareq A. Samra, Farhan Cyprian, Aijaz Parray, Meis Alkasem, Ibrahem Abdalhakam, Faisal Farooq, and Abdul-Badi Abou-Samra

Subjects
Metabolic Syndrome, Organic Chemistry, General Medicine, Catalysis, Computer Science Applications, Inorganic Chemistry, Humans, Obesity, Physical and Theoretical Chemistry, Insulin Resistance, Molecular Biology, Spectroscopy, Metabolic Networks and Pathways, Triglycerides, metabolomics, obesity, metabolic syndrome, inflammation, sphingomyelins
Abstract

Background: Obesity coexists with variable features of metabolic syndrome, which is associated with dysregulated metabolic pathways. We assessed potential associations between serum metabolites and features of metabolic syndrome in Arabic subjects with obesity. Methods: We analyzed a dataset of 39 subjects with obesity only (OBO, n = 18) age-matched to subjects with obesity and metabolic syndrome (OBM, n = 21). We measured 1069 serum metabolites and correlated them to clinical features. Results: A total of 83 metabolites, mostly lipids, were significantly different (p < 0.05) between the two groups. Among lipids, 22 sphingomyelins were decreased in OBM compared to OBO. Among non-lipids, quinolinate, kynurenine, and tryptophan were also decreased in OBM compared to OBO. Sphingomyelin is negatively correlated with glucose, HbA1C, insulin, and triglycerides but positively correlated with HDL, LDL, and cholesterol. Differentially enriched pathways include lysine degradation, amino sugar and nucleotide sugar metabolism, arginine and proline metabolism, fructose and mannose metabolism, and galactose metabolism. Conclusions: Metabolites and pathways associated with chronic inflammation are differentially expressed in subjects with obesity and metabolic syndrome compared to subjects with obesity but without the clinical features of metabolic syndrome.

Published
2022

8. The metabolic footprint of compromised insulin sensitivity under fasting and hyperinsulinemic-euglycemic clamp conditions in an Arab population

Author

Anna Halama, Abdul-Badi Abou-Samra, Tareq A. Samra, Stephen L. Atkin, Shaimaa Hassoun, Ahmad Iskandarani, Ibrahem Abdalhakam, Ilham Bettahi, Meis Alkasem, Karsten Suhre, Noor Suleiman, and Michal Kulinski

Subjects
Adult, Blood Glucose, Male, 0301 basic medicine, medicine.medical_specialty, medicine.medical_treatment, lcsh:Medicine, 030209 endocrinology & metabolism, Asymptomatic, Article, Young Adult, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Insulin resistance, Hyperinsulinism, Internal medicine, Diabetes mellitus, Lipidomics, Humans, Insulin, Metabolomics, Medicine, lcsh:Science, Multidisciplinary, Fatty acid metabolism, business.industry, lcsh:R, Type 2 diabetes, Fasting, Metabolism, medicine.disease, Arabs, Metabolic pathway, 030104 developmental biology, Endocrinology, Diabetes Mellitus, Type 2, chemistry, Glucose Clamp Technique, Female, lcsh:Q, Insulin Resistance, Pre-diabetes, medicine.symptom, business, Metabolic Networks and Pathways
Abstract

Metabolic pathways that are corrupted at early stages of insulin resistance (IR) remain elusive. This study investigates changes in body metabolism in clinically healthy and otherwise asymptomatic subjects that may become apparent already under compromised insulin sensitivity (IS) and prior to IR. 47 clinically healthy Arab male subjects with a broad range of IS, determined by hyperinsulinemic-euglycemic clamp (HIEC), were investigated. Untargeted metabolomics and complex lipidomics were conducted on serum samples collected under fasting and HIEC conditions. Linear models were used to identify associations between metabolites concentrations and IS levels. Among 1896 identified metabolites, 551 showed significant differences between fasting and HIEC, reflecting the metabolic switch in energy utilization. At fasting, 336 metabolites, predominantly di- and tri-acylglycerols, showed significant differences between subjects with low and high levels of IS. Changes in amino acid, carbohydrate and fatty acid metabolism in response to insulin were impaired in subjects with low IS. Association of altered mannose and amino acids with IS was also replicated in an independent cohort of T2D patients. We identified metabolic phenotypes that characterize clinically healthy Arab subjects with low levels of IS at their fasting state. Our study is providing further insights into the metabolic pathways that precede IR.

Published
2020
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9. Dynamic Changes in Circulating Endocrine FGF19 Subfamily and Fetuin-A in Response to Intralipid and Insulin Infusions in Healthy and PCOS Women

Author

Myint M Aye, Stephen L. Atkin, Monica Skarulis, Kodappully Sivaraman Siveen, Tareq A. Samra, Thozhukat Sathyapalan, Meis Alkasem, Abdul-Badi Abou-Samra, Jayakumar Jerobin, Manjunath Ramanjaneya, Milin Bensila, and Ilham Bettahi

Subjects
Adult, 0301 basic medicine, FGF (fibroblast growth factor), medicine.medical_specialty, Fetuin A, FGF21, Adolescent, alpha-2-HS-Glycoprotein, Health Status, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, 030209 endocrinology & metabolism, Type 2 diabetes, Fibroblast growth factor, lcsh:Diseases of the endocrine glands. Clinical endocrinology, FGF19, PCOS (polycystic ovarian syndrome), Young Adult, 03 medical and health sciences, Endocrinology, 0302 clinical medicine, Insulin resistance, Internal medicine, medicine, Humans, Insulin, Endocrine system, Infusions, Intravenous, Exercise, Original Research, lcsh:RC648-665, business.industry, hyperinsulimic-euglycemic clamp, Lipid Metabolism, medicine.disease, Lipids, Polycystic ovary, Fibroblast Growth Factors, Fibroblast Growth Factor-23, 030104 developmental biology, Female, business, Biomarkers, Polycystic Ovary Syndrome, Hormone
Abstract

Background: The fibroblast growth factors (FGF) 19 subfamily, also referred to as endocrine FGFs, includes FGF19, FGF21, and FGF23 are metabolic hormones involved in the regulation of glucose and lipid metabolism. Fetuin-A is a hepatokine involved in the regulation of beta-cell function and insulin resistance. Endocrine FGFs and fetuin-A are dysregulated in metabolic disorders including obesity, type 2 diabetes, non-alcoholic fatty liver disease and polycystic ovary syndrome (PCOS). Our study was designed to examine the response of endocrine FGFs and fetuin-A to an acute intralipid, insulin infusion and exercise in PCOS and healthy women. Subjects and Measurements: Ten healthy and 11 PCOS subjects underwent 5-h saline infusions with a hyperinsulinemic-euglycemic clamp (HIEC) performed during the final 2 h. One week later, intralipid infusions were undertaken with a HIEC performed during the final 2 h. After an 8 week of exercise intervention the saline, intralipid, and HIEC were repeated. Plasma levels of endocrine FGFs and fetuin-A were measured. Results: Baseline fetuin-A was higher in PCOS women but FGF19, FGF21, and FGF23 did not differ and were unaffected by exercise. Insulin administration elevated FGF21 in control and PCOS, suppressed FGF19 in controls, and had no effects on FGF23 and fetuin-A. Intralipid infusion suppressed FGF19 and increased FGF21. Insulin with intralipid synergistically increased FGF21 and did not have effects on lipid-mediated suppression of FGF19 in both groups. Conclusion: Our study provides evidence for insulin and lipid regulation of endocrine FGFs in healthy and PCOS women, suggesting that FGF family members play a role in lipid and glucose metabolism. Clinical Trial Registration: www.isrctn.org, Identifier: ISRCTN42448814.

Published
2020
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10. 88-LB: Effects of Grape Skin Extract (GSE) on Glycemic Response to a Starch Challenge in Prediabetic Subjects

Author

Meis Alkasem, Ahmad Nabil Iskandarani, Kequan Zhou, Fayaz Mir, Ibrahem Abdalhakam, Monica Skarulis, Tareq A. Samra, Noor N. Suleiman, Abdul-Badi Abou-Samra, and Ramzi M. Mohammad

Subjects
medicine.medical_specialty, Meal, biology, business.industry, Endocrinology, Diabetes and Metabolism, Area under the curve, medicine.disease, Gastroenterology, Postprandial, Alpha-glucosidase, Diabetes mellitus, Internal medicine, Internal Medicine, medicine, biology.protein, Prediabetes, Family history, business, Glycemic
Abstract

Prediabetes is a condition leading to increased risk of diabetes and its complications and cardiovascular disease. Annually, ∼10% prediabetic subjects progress to T2D. We, and other investigators, reported that grape skin extract (GSE) impacts postprandial glycemia through alpha glucosidase inhibition. This study aims to examine the effect of GSE on glycemic response to a starch challenge in healthy prediabetic subjects. The study was approved by the IRB of Hamad Medical Corporation. Subjects were screened from a high-risk population based on family history and/or fasting glucose (5.7-7.3 mmol) and IGT confirmed with 75 gram OGTT. Subjects were randomized to GSE capsule 600 (N=4), 1200 (N=8), 1800 (N=15) or 2400 mg (N=14). Each received a meal of 35 gram (uncooked weight) rice with or without the assigned dose of GSE and blood glucose was measured at time 0, 15, 30, 60 and 120 minutes. Area under the curve (AUC) was calculated using the trapezoidal method and the subjects were classified into “responders” or “non-responders” if AUC after GSE was reduced by at least 1 SD. A total of 41 eligible subjects (83% male; age 29±8 years; BMI 23.2%±5.9, 34% Arab, 24% African, 17% Asian, 24% Indian) with prediabetes were enrolled. A total of 4 (9.7%)subjects decreased AUC by 2SD; 24% decreased by 1 SD and the remainder had no positive response to a single dose of GSE. There were no responders to 600 mg; 2 in 1200 mg; 4 in 1800 mg; and 3 in 2400 mg dose. There were no differences between the responders and non-responders in clinical or biochemical characteristics. In conclusion, 24% of prediabetic subjects had a positive response to GSE in a starch challenge test. The value of the test in characterizing prediabetic subjects who may benefit from GSE to reverse their prediabetic condition is currently under further investigation. In Qatar, the prevalence of diabetes is 17% and expected to increase. Studies to develop natural products to prevent diabetes are of great public health interest. Disclosure M. Alkasem: None. I. Abdalhakam: None. N.N. Suleiman: None. A.N. Iskandarani: None. T.A. Samra: None. F.A. Mir: None. R.M. Mohammad: None. A. Abou-Samra: None. K. Zhou: None. M.C. Skarulis: None. Funding Qatar National Research Fund

Published
2019
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11. Altered Responses to Cold Environment in Urocortin 1 and Corticotropin-Releasing Factor Deficient Mice

Author

Abdul B. Abou-Samra, Nabanita S. Datta, Tareq A. Samra, and Bayan Chaker

Subjects
medicine.medical_specialty, business.industry, Protein metabolism, Cold exposure, Thermoregulation, Acclimatization, Urocortin 1, chemistry.chemical_compound, Endocrinology, chemistry, Internal medicine, Deficient mouse, Medicine, business, Dexamethasone, medicine.drug
Abstract

We examined core body temperature (CBT) of urocortin 1 (UCN1) and corticotropin releasing factor (CRF) knockout (KO) mice exposed to 4°C for 2 h. UCN1KO mice showed higher average CBT during cold exposure as compared to WT. The CBT of male and female WT mice dropped significantly to 34.1 ± 2.4 and 34.9 ± 3.1 C at 4°C, respectively. In contrast, the CBT of male and female UCN1KO mice dropped only slightly after 2 h at 4°C to 36.8 ± 0.7 and 38.1 ± 0.5 C, respectively. WT female and male UCN1KO mice showed significant acclimatization to cold; however, female UCN1KO mice did not show such a significant acclimatization. CRFKO mice showed a dramatic decline in CBT from 38.2 ± 0.4 at 22°C to 26.1 ± 9.8 at 4°C for 2 h. The CRF/UCN1 double KO (dKO) mice dropped their CBT to 32.5 ± 4.0 after 2 h exposure to 4°C. Dexamethasone treatment prevented the decline in CBT of the CRFKO and the dKO mice. Taken together, the data suggest a novel role for UCN1 in thermoregulation. The role of CRF is likely secondary to adrenal glucocorticoids, which have an important regulatory role on carbohydrate, fat, and protein metabolism.

Published
2013
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12. Parathyroid hormone induces bone formation in phosphorylation-deficient PTHR1 knockin mice

Author

Nabanita S. Datta, Tareq A. Samra, and Abdul B. Abou-Samra

Subjects
Male, Aging, medicine.medical_specialty, Bone density, Anabolism, Physiology, Endocrinology, Diabetes and Metabolism, media_common.quotation_subject, Primary Cell Culture, Parathyroid hormone, Stimulation, Mice, Bone Density, Osteogenesis, Physiology (medical), Internal medicine, medicine, Animals, Femur, Gene Knock-In Techniques, Phosphorylation, Receptor, Internalization, Receptor, Parathyroid Hormone, Type 1, media_common, Bone mineral, Osteoblasts, Chemistry, Body Weight, Skull, Articles, X-Ray Microtomography, Mice, Mutant Strains, Endocrinology, Parathyroid Hormone, Female
Abstract

Activation of G protein-coupled receptors by agonists leads to receptor phosphorylation, internalization of ligand receptor complexes, and desensitization of hormonal response. The role of parathyroid hormone (PTH) receptor 1, PTHR1, is well characterized and known to regulate cellular responsiveness in vitro. However, the role of PTHR1 phosphorylation in bone formation is yet to be investigated. We have previously demonstrated that impaired internalization and sustained cAMP stimulation of phosphorylation-deficient (PD) PTHR1 leads to exaggerated cAMP response to subcutaneous PTH infusion in a PD knockin mouse model. To understand the physiological role of receptor internalization on PTH bone anabolic action, we examined bone parameters of wild-type (WT) and PD knockin female and male mice following PTH treatment. We found a decrease in total and diaphyseal bone mineral density in female but not in male PD mice compared with WT controls at 3–6 mo of age. This effect was attenuated at older age groups. PTH administration displayed increased bone volume and trabecular thickness in the vertebrae and distal femora of both WT and PD animals. These results suggest that PTHR1 phosphorylation does not play a major role in the anabolic action of PTH.

Published
2012
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13. Role of PTH1R internalization in osteoblasts and bone mass using a phosphorylation-deficient knock-in mouse model

Author

Nabanita S. Datta, Abdul B. Abou-Samra, Tareq A. Samra, Tanuka Datta, and Chandrika D Mahalingam

Subjects
Male, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, media_common.quotation_subject, Down-Regulation, Parathyroid hormone, Biology, Bone and Bones, Article, Mice, Endocrinology, Cyclin D1, Internal medicine, medicine, Animals, Gene Knock-In Techniques, Phosphorylation, Protein kinase A, Internalization, Receptor, Receptor, Parathyroid Hormone, Type 1, media_common, Osteoblasts, Kinase, Osteoblast, Adaptation, Physiological, Mice, Mutant Strains, Calcium, Dietary, Phenotype, medicine.anatomical_structure, Female, Mitogen-Activated Protein Kinases
Abstract

Phosphorylation, internalization, and desensitization of G protein-coupled receptors, such as the parathyroid hormone (PTH) and PTH-related peptide (PTHrP) receptor (PTH1R), are well characterized and known to regulate the cellular responsiveness in vitro. However, the role of PTH1R receptor phosphorylation in bone formation and osteoblast functions has not yet been elucidated. In previous studies, we demonstrated impaired internalization and sustained cAMP stimulation of a phosphorylation-deficient (pd) PTH1R in vitro, and exaggerated cAMP and calcemic responses to s.c. PTH infusion in pdPTH1R knock-in mouse model. In this study, we examined the impact of impaired PTH1R phosphorylation on the skeletal phenotype of mice maintained on normal, low, and high calcium diets. The low calcium diet moderately reduced (P1/S phase cyclin, in vitro. In contrast to WT osteoblasts, down-regulation of cyclin D1 was sustained for longer periods of time in osteoblasts isolated from the pd mice. Our results suggest that adaptive responses of intracellular signaling pathways in the pd mice may be important for maintaining bone homeostasis.

Published
2010
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