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11. Small molecule insulin receptor activators potentiate insulin action in insulin-resistant cells.

Author

Li, Ming, Youngren, Jack F., Manchem, Vara Prasad, Kozlowski, Michael, Zhang, Bei B., Maddux, Betty A., Goldfine, Ira D., Li, M, Youngren, J F, Manchem, V P, Kozlowski, M, Zhang, B B, Maddux, B A, and Goldfine, I D

Subjects
MECHANISM of action for insulin, HYPERGLYCEMIA, TYPE 2 diabetes
Abstract

In type 2 diabetes, impaired insulin signaling leads to hyperglycemia and other metabolic abnormalities. To study a new class of antidiabetic agents, we compared two small, nonpeptide molecules that activate insulin receptor (IR) beta-subunit tyrosine kinase activity: Merck L7, a direct IR agonist, and Telik's TLK16998, an IR sensitizer. In rat hepatoma cells (HTCs) that overexpress the IR (HTC-IR), IR autophosphorylation was directly activated by L7 in the absence of insulin. TLK16998 did not directly activate IR autophosphorylation, but it enhanced IR autophosphorylation in the presence of insulin. Tyrosine phosphorylation of an endogenous 185-kDa IR substrate was also significantly enhanced by both Merck L7 alone and TLK16998 plus insulin. Adding TLK16998 to L7 produced synergistic effects, further indicating that these two compounds act on the IR through separate mechanisms. We next studied HTC-IR(Delta485-599) cells, which overexpress a mutant IR with a deletion in the alpha-subunit connecting domain that does not undergo autophosphorylation in response to insulin binding. L7 was able to directly activate autophosphorylation of the deletion mutant IR in these cells, whereas TLK16998 had no effect. Compounds were then tested in three other cell models of impaired IR function. Both TLK16998 and Merck L7 improved IR autophosphorylation in cells with diminished IR signaling due to either treatment with tumor necrosis factor-alpha or overexpression of membrane glycoprotein PC-1. However, in TPA (tetradecanoylphorbol acetate)-treated cells, TLK16998 but not Merck L7 was able to significantly reverse the impaired insulin-stimulated IR autophosphorylation. In summary, these two classes of IR activators selectively increased IR function in a variety of insulin-resistant cell lines. [ABSTRACT FROM AUTHOR]

Published
2001

12. Decreased insulin receptor tyrosine kinase activity and plasma cell membrane glycoprotein-1 overexpression in skeletal muscle from obese women with gestational diabetes mellitus (GDM): evidence for increased serine/threonine phosphorylation in pregnancy and GDM.

Author

Shao, Jianhua, Catalano, Patrick M., Yamashita, Hiroshi, Ruyter, Irene, Smith, Steven, Youngren, Jack, Friedman, Jacob E., Shao, J, Catalano, P M, Yamashita, H, Ruyter, I, Smith, S, Youngren, J, and Friedman, J E

Subjects
PROTEIN-tyrosine kinases, INSULIN receptors, GLYCOPROTEINS, GESTATIONAL diabetes, OBESITY, SECRETION
Abstract

The cellular mechanisms for the insulin resistance of pregnancy and gestational diabetes mellitus (GDM) are unknown. The membrane protein plasma cell membrane glycoprotein-1 (PC-1) has been identified as an inhibitor of insulin receptor tyrosine kinase (IRTK) activity. We investigated insulin receptor function and PC-1 levels in muscle from three groups of obese subjects: women with GDM, pregnant women with normal glucose tolerance, and nonpregnant control subjects. Subjects (n = 6 for each group) were similar in age and degree of obesity (body fat >30%). IRTK activity, insulin receptor tyrosine phosphorylation, and protein levels of membrane glycoprotein PC-1 were determined in rectus abdominus muscle biopsies obtained at the time of either elective cesarean section or gynecological surgery. No significant differences were evident in basal insulin receptor tyrosine phosphorylation or IRTK activity in the three groups. After maximal insulin (10(-7) mol/l) stimulation, IRTK activity measured with the artificial substrate poly(Glu,Tyr) increased in all subjects but was lower in women with GDM by 25% (P < 0.05) and 39% (P < 0.001) compared with pregnant and nonpregnant control subjects, respectively. Similarly, insulin receptor tyrosine phosphorylation was significantly decreased in subjects with GDM (P < 0.05) compared with pregnant and nonpregnant control subjects. Treatment of the insulin receptors with alkaline phosphatase to dephosphorylate serine/threonine residues increased insulin-stimulated IRTK activity significantly in pregnant control and GDM subjects (P < 0.05), but these rates were still lower compared with nonpregnant control subjects (P < 0.05). PC-1 content in muscle from GDM subjects was increased by 63% compared with pregnant control subjects (P < 0.05) and by 206% compared with nonpregnant control subjects (P < 0.001). PC-1 content was negatively correlated with insulin receptor phosphorylation (r = -0.55, P < 0.05) and IRTK activity (r = -0.66, P < 0.05). These results indicate that pregnant control and GDM subjects had increased PC-1 content and suggest excessive phosphorylation of serine/threonine residues in muscle insulin receptors and that both may contribute to decreased IRTK activity. These changes worsen in women with GDM when controlling for obesity. These postreceptor defects in insulin signaling may contribute to the pathogenesis of GDM and the increased risk for type 2 diabetes later in life. [ABSTRACT FROM AUTHOR]

Published
2000
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15. Chromium supplementation in non-obese non-diabetic subjects is associated with a decline in insulin sensitivity

Author

Masharani Umesh, Gjerde Christine, McCoy Shelley, Maddux Betty A, Hessler Danielle, Goldfine Ira D, and Youngren Jack F

Subjects
Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Abstract Background The use of chromium supplements is widespread for the prevention and treatment of diabetes mellitus but there are conflicting reports on efficacy, possibly reflecting discrepant effects across different populations. In the present studies, we test the hypothesis that chromium supplementation raises serum chromium levels and correspondingly improves insulin sensitivity. Methods A double blind placebo-controlled randomized trial was conducted on 31 non-obese, normoglycemic subjects. After baseline studies, the subjects were randomized to placebo or chromium picolinate 500 μg twice a day. The primary endpoint was change in insulin sensitivity as measured by euglycemic hyperinsulinemic clamp. Pre-specified secondary endpoints included fasting lipids, blood pressure, weight, body composition measured by DXA scan. Results After 16 weeks of chromium picolinate therapy there was no significant change in insulin sensitivity between groups (p=0.83). There was, however, a strong association between serum chromium and change in insulin resistance (β = -0.83, p=0.01), where subjects with the highest serum chromium had a worsening of insulin sensitivity. This effect could not be explained by changes in physiological parameters such as body weight, truncal fat and serum lipids with chromium therapy. Conclusions Chromium therapy did not improve insulin sensitivity in non-obese normoglycemic individuals. Further, subjects who have high serum chromium levels paradoxically had a decline in insulin sensitivity. Caution therefore should be exercised in recommending the use of this supplement. Trial registration The study was registered on the NIH registry (clinicaltrials.gov) and the identifier is NCT00846248

Published
2012
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18. Copy Number Loss of 17q22 Is Associated with Enzalutamide Resistance and Poor Prognosis in Metastatic Castration-Resistant Prostate Cancer.

Author

Guan X, Sun D, Lu E, Urrutia JA, Reiter RE, Rettig M, Evans CP, Lara P Jr, Gleave M, Beer TM, Thomas GV, Huang J, Aggarwal RR, Quigley DA, Foye A, Chen WS, Youngren J, Weinstein AS, Stuart JM, Feng FY, Small EJ, Xia Z, and Alumkal JJ

Subjects
Benzamides therapeutic use, Biopsy, DNA Copy Number Variations, Disease-Free Survival, Humans, Male, Nitriles therapeutic use, Phenylthiohydantoin therapeutic use, Prostate pathology, Prostatic Neoplasms, Castration-Resistant drug therapy, Prostatic Neoplasms, Castration-Resistant mortality, Prostatic Neoplasms, Castration-Resistant pathology, RNA-Seq, Survival Analysis, Benzamides pharmacology, Biomarkers, Tumor genetics, Chromosomes, Human, Pair 17 genetics, Drug Resistance, Neoplasm genetics, Nitriles pharmacology, Phenylthiohydantoin pharmacology, Prostatic Neoplasms, Castration-Resistant genetics
Abstract

Purpose: The purpose of this study was to measure genomic changes that emerge with enzalutamide treatment using analyses of whole-genome sequencing and RNA sequencing., Experimental Design: One hundred and one tumors from men with metastatic castration-resistant prostate cancer (mCRPC) who had not been treated with enzalutamide ( n = 64) or who had enzalutamide-resistant mCRPC ( n = 37) underwent whole genome sequencing. Ninety-nine of these tumors also underwent RNA sequencing. We analyzed the genomes and transcriptomes of these mCRPC tumors., Results: Copy number loss was more common than gain in enzalutamide-resistant tumors. Specially, we identified 124 protein-coding genes that were more commonly lost in enzalutamide-resistant samples. These 124 genes included eight putative tumor suppressors located at nine distinct genomic regions. We demonstrated that focal deletion of the 17q22 locus that includes RNF43 and SRSF1 was not present in any patient with enzalutamide-naïve mCRPC but was present in 16% (6/37) of patients with enzalutamide-resistant mCRPC. 17q22 loss was associated with lower RNF43 and SRSF1 expression and poor overall survival from time of biopsy [median overall survival of 19.3 months in 17q22 intact vs. 8.9 months in 17q22 loss, HR, 3.44 95% confidence interval (CI), 1.338-8.867, log-rank P = 0.006]. Finally, 17q22 loss was linked with activation of several targetable factors, including CDK1/2, Akt, and PLK1, demonstrating the potential therapeutic relevance of 17q22 loss in mCRPC., Conclusions: Copy number loss is common in enzalutamide-resistant tumors. Focal deletion of chromosome 17q22 defines a previously unappreciated molecular subset of enzalutamide-resistant mCRPC associated with poor clinical outcome., (©2020 American Association for Cancer Research.)

Published
2020
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19. Genomic Drivers of Poor Prognosis and Enzalutamide Resistance in Metastatic Castration-resistant Prostate Cancer.

Author

Chen WS, Aggarwal R, Zhang L, Zhao SG, Thomas GV, Beer TM, Quigley DA, Foye A, Playdle D, Huang J, Lloyd P, Lu E, Sun D, Guan X, Rettig M, Gleave M, Evans CP, Youngren J, True L, Lara P, Kothari V, Xia Z, Chi KN, Reiter RE, Maher CA, Feng FY, Small EJ, and Alumkal JJ

Subjects
Aged, Antineoplastic Agents administration & dosage, Antineoplastic Agents adverse effects, Benzamides, Biomarkers, Tumor blood, Humans, Male, Middle Aged, Neoplasm Staging, Nitriles, Outcome Assessment, Health Care, Phenylthiohydantoin administration & dosage, Phenylthiohydantoin adverse effects, Predictive Value of Tests, Prognosis, Prostate-Specific Antigen blood, Whole Genome Sequencing methods, Drug Resistance, Neoplasm genetics, Neoplasm Metastasis drug therapy, Phenylthiohydantoin analogs & derivatives, Prostate pathology, Prostatic Neoplasms, Castration-Resistant drug therapy, Prostatic Neoplasms, Castration-Resistant pathology
Abstract

Background: Metastatic castration-resistant prostate cancer (mCRPC) is the lethal form of the disease. Several recent studies have identified genomic alterations in mCRPC, but the clinical implications of these genomic alterations have not been fully elucidated., Objective: To use whole-genome sequencing (WGS) to assess the association between key driver gene alterations and overall survival (OS), and to use whole-transcriptome RNA sequencing to identify genomic drivers of enzalutamide resistance., Design, Setting, and Participants: We performed survival analyses and gene set enrichment analysis (GSEA) on WGS and RNA sequencing results for a cohort of 101 mCRPC patients., Outcome Measurements and Statistical Analysis: OS was the clinical endpoint for all univariate and multivariable survival analyses. Candidate drivers of enzalutamide resistance were identified in an unbiased manner, and mutations of the top candidate were further assessed for enrichment among enzalutamide-resistant patients using Fisher's exact test., Results and Limitations: Harboring two DNA alterations in RB1 was independently predictive of poor OS (median 14.1 vs 42.0mo; p=0.007) for men with mCRPC. GSEA identified the Wnt/β-catenin pathway as the top differentially modulated pathway among enzalutamide-resistant patients. Furthermore, β-catenin mutations were exclusive to enzalutamide-resistant patients (p=0.01) and independently predictive of poor OS (median 13.6 vs 41.7mo; p=0.025)., Conclusions: The presence of two RB1 DNA alterations identified in our WGS analysis was independently associated with poor OS among men with mCRPC. The Wnt/β-catenin pathway plays an important role in enzalutamide resistance, with differential pathway expression and enrichment of β-catenin mutations in enzalutamide-resistant patients. Moreover, β-catenin mutations were predictive of poor OS in our cohort., Patient Summary: We observed a correlation between genomic findings for biopsy samples from metastases from men with metastatic castration-resistant prostate cancer (mCRPC) and clinical outcomes. This work sheds new light on clinically relevant genomic alterations in mCRPC and provides a roadmap for the development of new personalized treatment regimens in mCRPC., (Copyright © 2019 European Association of Urology. Published by Elsevier B.V. All rights reserved.)

Published
2019
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20. Clinical and Genomic Characterization of Treatment-Emergent Small-Cell Neuroendocrine Prostate Cancer: A Multi-institutional Prospective Study.

Author

Aggarwal R, Huang J, Alumkal JJ, Zhang L, Feng FY, Thomas GV, Weinstein AS, Friedl V, Zhang C, Witte ON, Lloyd P, Gleave M, Evans CP, Youngren J, Beer TM, Rettig M, Wong CK, True L, Foye A, Playdle D, Ryan CJ, Lara P, Chi KN, Uzunangelov V, Sokolov A, Newton Y, Beltran H, Demichelis F, Rubin MA, Stuart JM, and Small EJ

Subjects
Aged, Aged, 80 and over, Carcinoma, Neuroendocrine epidemiology, DNA Repair genetics, Humans, Male, Middle Aged, Prospective Studies, Prostatic Neoplasms, Castration-Resistant epidemiology, Carcinoma, Neuroendocrine genetics, Carcinoma, Neuroendocrine pathology, Prostatic Neoplasms, Castration-Resistant genetics, Prostatic Neoplasms, Castration-Resistant pathology
Abstract

Purpose The prevalence and features of treatment-emergent small-cell neuroendocrine prostate cancer (t-SCNC) are not well characterized in the era of modern androgen receptor (AR)-targeting therapy. We sought to characterize the clinical and genomic features of t-SCNC in a multi-institutional prospective study. Methods Patients with progressive, metastatic castration-resistant prostate cancer (mCRPC) underwent metastatic tumor biopsy and were followed for survival. Metastatic biopsy specimens underwent independent, blinded pathology review along with RNA/DNA sequencing. Results A total of 202 consecutive patients were enrolled. One hundred forty-eight (73%) had prior disease progression on abiraterone and/or enzalutamide. The biopsy evaluable rate was 79%. The overall incidence of t-SCNC detection was 17%. AR amplification and protein expression were present in 67% and 75%, respectively, of t-SCNC biopsy specimens. t-SCNC was detected at similar proportions in bone, node, and visceral organ biopsy specimens. Genomic alterations in the DNA repair pathway were nearly mutually exclusive with t-SCNC differentiation ( P = .035). Detection of t-SCNC was associated with shortened overall survival among patients with prior AR-targeting therapy for mCRPC (hazard ratio, 2.02; 95% CI, 1.07 to 3.82). Unsupervised hierarchical clustering of the transcriptome identified a small-cell-like cluster that further enriched for adverse survival outcomes (hazard ratio, 3.00; 95% CI, 1.25 to 7.19). A t-SCNC transcriptional signature was developed and validated in multiple external data sets with > 90% accuracy. Multiple transcriptional regulators of t-SCNC were identified, including the pancreatic neuroendocrine marker PDX1. Conclusion t-SCNC is present in nearly one fifth of patients with mCRPC and is associated with shortened survival. The near-mutual exclusivity with DNA repair alterations suggests t-SCNC may be a distinct subset of mCRPC. Transcriptional profiling facilitates the identification of t-SCNC and novel therapeutic targets.

Published
2018
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21. DNA Repair Gene Alterations and PARP Inhibitor Response in Patients With Metastatic Castration-Resistant Prostate Cancer.

Author

Lu E, Thomas GV, Chen Y, Wyatt AW, Lloyd P, Youngren J, Quigley D, Bergan R, Bailey S, Beer TM, Feng FY, Small EJ, and Alumkal JJ

Subjects
Aged, BRCA2 Protein genetics, Humans, Male, Middle Aged, Mutation, Poly(ADP-ribose) Polymerase Inhibitors therapeutic use, Prognosis, Prostatic Neoplasms, Castration-Resistant genetics, Prostatic Neoplasms, Castration-Resistant pathology, Retrospective Studies, Treatment Outcome, Biomarkers, Tumor genetics, DNA Repair genetics, Drug Resistance, Neoplasm genetics, Poly(ADP-ribose) Polymerase Inhibitors pharmacology, Prostatic Neoplasms, Castration-Resistant drug therapy
Abstract

Background: PARP inhibition is a promising therapeutic strategy for the treatment of men with metastatic castration-resistant prostate cancer whose tumors harbor homologous recombination DNA repair gene alterations. However, questions remain for many practicing clinicians about which patients are ideally suited for PARP inhibitor treatment. This report details our institutional experience using PARP inhibitor therapy in patients whose tumors harbored specific DNA repair gene alterations. Patients and Methods: We performed a retrospective chart review to identify patients at Oregon Health & Science University who were treated with PARP inhibition. We identified 8 patients and determined the impact of the specific DNA repair gene alterations on tumor response and time on treatment with PARP inhibition. Results: A number of DNA repair gene alterations were identified. Three patients had pathogenic BRCA2 mutations and one had a BRCA2 mutation of uncertain significance. Conversely, the 4 other patients' tumors harbored alterations in other DNA repair genes, none of which were clearly pathogenic. A statistically significant difference in benefit was seen between patients whose tumors harbored BRCA2 gene alterations and those whose tumors did not, as measured by >50% decline in prostate-specific antigen levels (100% vs 0%; P =.03) and duration on therapy (31.4 vs 6.4 weeks; P =.03). Conclusions: Our results demonstrate that not all DNA repair alterations are equally predictive of PARP inhibitor response. Importantly, all responding patients had tumors harboring BRCA2 DNA repair alterations, including one without a known pathogenic mutation. Conversely, among the 4 nonresponders, several DNA repair alterations in genes other than BRCA2 were identified that were not clearly pathogenic. This demonstrates the need to carefully examine the functional relevance of the DNA repair alterations identified, especially in genes other than BRCA2 , when considering patients for PARP inhibitor treatment., (Copyright © 2018 by the National Comprehensive Cancer Network.)

Published
2018
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22. Concordance of Circulating Tumor DNA and Matched Metastatic Tissue Biopsy in Prostate Cancer.

Author

Wyatt AW, Annala M, Aggarwal R, Beja K, Feng F, Youngren J, Foye A, Lloyd P, Nykter M, Beer TM, Alumkal JJ, Thomas GV, Reiter RE, Rettig MB, Evans CP, Gao AC, Chi KN, Small EJ, and Gleave ME

Subjects
Adenomatous Polyposis Coli Protein genetics, BRCA2 Protein genetics, Biomarkers, Tumor blood, Biomarkers, Tumor genetics, Class Ia Phosphatidylinositol 3-Kinase, Cyclin-Dependent Kinase Inhibitor p27 genetics, DNA Copy Number Variations, Humans, Liquid Biopsy, Male, Mutation, Neoplasm Metastasis, Nuclear Proteins genetics, PTEN Phosphohydrolase genetics, Phosphatidylinositol 3-Kinases genetics, Receptors, Androgen genetics, Repressor Proteins genetics, Retinoblastoma Binding Proteins genetics, Tumor Suppressor Protein p53 genetics, Ubiquitin-Protein Ligases genetics, Wnt Signaling Pathway genetics, Circulating Tumor DNA blood, Prostatic Neoplasms, Castration-Resistant genetics, Prostatic Neoplasms, Castration-Resistant pathology
Abstract

Background: Real-time knowledge of the somatic genome can influence management of patients with metastatic castration-resistant prostate cancer (mCRPC). While routine metastatic tissue biopsy is challenging in mCRPC, plasma circulating tumor DNA (ctDNA) has emerged as a minimally invasive tool to sample the tumor genome. However, no systematic comparisons of matched "liquid" and "solid" biopsies have been performed that would enable ctDNA profiling to replace the need for direct tissue sampling., Methods: We performed targeted sequencing across 72 clinically relevant genes in 45 plasma cell-free DNA (cfDNA) samples collected at time of metastatic tissue biopsy. We compared ctDNA alterations with exome sequencing data generated from matched tissue and quantified the concordance of mutations and copy number alterations using the Fisher exact test and Pearson correlations., Results: Seventy-five point six percent of cfDNA samples had a ctDNA proportion greater than 2% of total cfDNA. In these patients, all somatic mutations identified in matched metastatic tissue biopsies were concurrently present in ctDNA. Furthermore, the hierarchy of variant allele fractions for shared mutations was remarkably similar between ctDNA and tissue. Copy number profiles between matched liquid and solid biopsy were highly correlated, and individual copy number calls in clinically actionable genes were 88.9% concordant. Detected alterations included AR amplifications in 22 (64.7%) samples, SPOP mutations in three (8.8%) samples, and inactivating alterations in tumor suppressors TP53 , PTEN , RB1 , APC , CDKN1B , BRCA2 , and PIK3R1 . In several patients, ctDNA sequencing revealed robust changes not present in paired solid biopsy, including clinically relevant alterations in the AR, WNT, and PI3K pathways., Conclusions: Our study shows that, in the majority of patients, a ctDNA assay is sufficient to identify all driver DNA alterations present in matched metastatic tissue and supports development of DNA biomarkers to guide mCRPC patient management based on ctDNA alone., (© The Author 2017. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published
2017
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23. Real-Time Transferrin-Based PET Detects MYC-Positive Prostate Cancer.

Author

Aggarwal R, Behr SC, Paris PL, Truillet C, Parker MFL, Huynh LT, Wei J, Hann B, Youngren J, Huang J, Premasekharan G, Ranatunga N, Chang E, Gao KT, Ryan CJ, Small EJ, and Evans MJ

Subjects
Humans, Male, Genes, myc genetics, Positron-Emission Tomography methods, Prostatic Neoplasms genetics, Transferrin metabolism
Abstract

Noninvasive biomarkers that detect the activity of important oncogenic drivers could significantly improve cancer diagnosis and management of treatment. The goal of this study was to determine whether 68 Ga-citrate (which avidly binds to circulating transferrin) can detect MYC-positive prostate cancer tumors, as the transferrin receptor is a direct MYC target gene. PET imaging paired with 68 Ga-citrate and molecular analysis of preclinical models, human cell-free DNA (cfDNA), and clinical biopsies were conducted to determine whether 68 Ga-citrate can detect MYC-positive prostate cancer. Importantly, 68 Ga-citrate detected human prostate cancer models in a MYC-dependent fashion. In patients with castration-resistant prostate cancer, analysis of cfDNA revealed that all patients with 68 Ga-citrate avid tumors had a gain of at least one MYC copy number. Moreover, biopsy of two PET avid metastases showed molecular or histologic features characteristic of MYC hyperactivity. These data demonstrate that 68 Ga-citrate targets prostate cancer tumors with MYC hyperactivity. A larger prospective study is ongoing to demonstrate the specificity of 68 Ga-citrate for tumors with hyperactive MYC. Implications: Noninvasive measurement of MYC activity with quantitative imaging modalities could substantially increase our understanding of the role of MYC signaling in clinical settings for which invasive techniques are challenging to implement or do not characterize the biology of all tumors in a patient. Moreover, measuring MYC activity noninvasively opens the opportunity to study changes in MYC signaling in patients under targeted therapeutic conditions thought to indirectly inhibit MYC. Mol Cancer Res; 15(9); 1221-9. ©2017 AACR ., (©2017 American Association for Cancer Research.)

Published
2017
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24. Analysis of Circulating Cell-Free DNA Identifies Multiclonal Heterogeneity of BRCA2 Reversion Mutations Associated with Resistance to PARP Inhibitors.

Author

Quigley D, Alumkal JJ, Wyatt AW, Kothari V, Foye A, Lloyd P, Aggarwal R, Kim W, Lu E, Schwartzman J, Beja K, Annala M, Das R, Diolaiti M, Pritchard C, Thomas G, Tomlins S, Knudsen K, Lord CJ, Ryan C, Youngren J, Beer TM, Ashworth A, Small EJ, and Feng FY

Subjects
DNA Copy Number Variations, Germ-Line Mutation, Humans, Male, Phthalazines therapeutic use, Piperazines therapeutic use, Prostatic Neoplasms drug therapy, Prostatic Neoplasms pathology, Exome Sequencing, Antineoplastic Agents therapeutic use, BRCA2 Protein genetics, Cell-Free Nucleic Acids genetics, Drug Resistance, Neoplasm genetics, Poly(ADP-ribose) Polymerase Inhibitors therapeutic use, Prostatic Neoplasms genetics
Abstract

Approximately 20% of metastatic prostate cancers harbor mutations in genes required for DNA repair by homologous recombination repair (HRR) such as BRCA2 HRR defects confer synthetic lethality to PARP inhibitors (PARPi) such as olaparib and talazoparib. In ovarian or breast cancers, olaparib resistance has been associated with HRR restoration, including by BRCA2 mutation reversion. Whether similar mechanisms operate in prostate cancer, and could be detected in liquid biopsies, is unclear. Here, we identify BRCA2 reversion mutations associated with olaparib and talazoparib resistance in patients with prostate cancer. Analysis of circulating cell-free DNA (cfDNA) reveals reversion mutation heterogeneity not discernable from a single solid-tumor biopsy and potentially allows monitoring for the emergence of PARPi resistance. Significance: The mechanisms of clinical resistance to PARPi in DNA repair-deficient prostate cancer have not been described. Here, we show BRCA2 reversion mutations in patients with prostate cancer with metastatic disease who developed resistance to talazoparib and olaparib. Furthermore, we show that PARPi resistance is highly multiclonal and that cfDNA allows monitoring for PARPi resistance. Cancer Discov; 7(9); 999-1005. ©2017 AACR. See related commentary by Domchek, p. 937 See related article by Kondrashova et al., p. 984 See related article by Goodall et al., p. 1006 This article is highlighted in the In This Issue feature, p. 920 ., (©2017 American Association for Cancer Research.)

Published
2017
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25. CT-Guided Bone Biopsies in Metastatic Castration-Resistant Prostate Cancer: Factors Predictive of Maximum Tumor Yield.

Author

Holmes MG, Foss E, Joseph G, Foye A, Beckett B, Motamedi D, Youngren J, Thomas GV, Huang J, Aggarwal R, Alumkal JJ, Beer TM, Small EJ, and Link TM

Subjects
Aged, Aged, 80 and over, Humans, Male, Middle Aged, Bone Neoplasms secondary, Image-Guided Biopsy methods, Prostatic Neoplasms, Castration-Resistant pathology, Tomography, X-Ray Computed methods
Abstract

Purpose: To evaluate the success rate of CT-guided bone biopsies in metastatic castration-resistant prostate cancer (mCRPC) and to investigate associated technical, imaging, and clinical parameters affecting diagnostic yields., Materials and Methods: Eighty CT-guided bone biopsy specimens were obtained from 72 men (median age, 68 y; range, 49-89 y) enrolled in a multicenter trial to identify mechanisms of resistance in mCRPC. Successful biopsy was determined by histologic confirmation of tumor cells and successful isolation of RNA for molecular analysis., Results: The overall success rate of CT-guided bone biopsies was 69% (55/80) based on histology and 64% (35/55) based on isolation of molecular material for RNA sequencing. Biopsies performed in lesions with areas of radiolucency had significantly higher diagnostic yields compared with lesions of predominantly dense sclerosis (95% vs 33%; P = .002) and lesions of predominantly subtle sclerosis (95% vs 65%; P = .04). Success rates increased in lesions with density ≤ 475 HU (79% for ≤ 475 HU vs 33% for > 475 HU; P = .001) and in lesions with ill-defined margins (76% for ill-defined margins vs 36% for well-circumscribed margins; P = .005). Alkaline phosphatase was the only clinical parameter to correlate significantly with diagnostic yield (83% for > 110 U/L vs 50% for ≤ 110 U/L; P = .001)., Conclusions: Image-guided bone tumor biopsies can be successfully used to acquire cellular and molecular material for analyses in patients with osteoblastic prostate cancer metastases. Diagnostic yields are significantly increased in lesions with areas of radiolucency, density ≤ 475 HU, ill-defined margins, and interval growth and in patients with alkaline phosphatase > 110 U/L., (Copyright © 2017 SIR. Published by Elsevier Inc. All rights reserved.)

Published
2017
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26. Androgen receptor amplification is concordant between circulating tumor cells and biopsies from men undergoing treatment for metastatic castration resistant prostate cancer.

Author

Podolak J, Eilers K, Newby T, Slottke R, Tucker E, Olson SB, Lue HW, Youngren J, Aggarwal R, Small EJ, Graff JN, Alumkal JJ, Beer TM, and Thomas GV

Abstract

Increased AR activity has been shown to be preserved in spatially distinct metastatic tumors from the same patient suggesting the requirement for lineage-specific dependencies for metastatic castration resistant prostate cancer (mCRPC). Amplification of the AR gene is a common mechanism by which mCRPC increase AR activity. To determine whether AR amplification in circulating tumor cells (CTC) could complement metastatic tissue biopsies in men undergoing treatment for mCRPC, we developed a novel two-step assay to isolate CTCs and subsequently analyzed AR amplification status in CTCs and matched biopsy tissue from the same patient by fluorescence in situ hybridization (FISH). AR gene status in CTCs showed strong concordance with AR gene status in matched tissue samples in 24 of 25 patients (Correlation: 96%; Kappa: 0.83; Sensitivity: 100%, Specificity: 83%). Our work demonstrates that AR amplification is conserved between CTCs and biopsies and that CTCs can serve as non-invasive surrogate to document AR amplification in mCRPC., Competing Interests: CONFLICTS OF INTEREST The authors declare that they have no competing interest

Published
2017
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27. Targeting Adaptive Pathways in Metastatic Treatment-Resistant Prostate Cancer: Update on the Stand Up 2 Cancer/Prostate Cancer Foundation-Supported West Coast Prostate Cancer Dream Team.

Author

Aggarwal R, Beer TM, Gleave M, Stuart JM, Rettig M, Evans CP, Youngren J, Alumkal JJ, Huang J, Thomas G, Witte O, and Small EJ

Abstract

The Stand Up 2 Cancer/Prostate Cancer Foundation-funded West Coast Dream Team project is a prospective multi-institutional study focused on acquiring metastatic castration-resistant prostate cancer (mCRPC) biopsy tissue at the time of resistance to abiraterone or enzalutamide. It is the first large-scale study designed to analyze mCRPC tissue specifically in this patient population. Study accrual is on target, with 261 out of a planned 300 metastatic tumor biopsies performed by August 2016. Paired biopsies have been completed in 42 patients, with paired genomic data before and after therapy obtained in 26 cases. Accrual is expected to be complete by December 2016., (Copyright © 2016 European Association of Urology. Published by Elsevier B.V. All rights reserved.)

Published
2016
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28. Androgen Receptor Gene Aberrations in Circulating Cell-Free DNA: Biomarkers of Therapeutic Resistance in Castration-Resistant Prostate Cancer.

Author

Azad AA, Volik SV, Wyatt AW, Haegert A, Le Bihan S, Bell RH, Anderson SA, McConeghy B, Shukin R, Bazov J, Youngren J, Paris P, Thomas G, Small EJ, Wang Y, Gleave ME, Collins CC, and Chi KN

Subjects
Aged, Aged, 80 and over, Androstenes therapeutic use, DNA Copy Number Variations, DNA Mutational Analysis, Disease-Free Survival, Docetaxel, Drug Resistance, Neoplasm, High-Throughput Nucleotide Sequencing, Humans, Kaplan-Meier Estimate, Male, Middle Aged, Mutation, Missense, Neoplasm Metastasis, Neoplastic Cells, Circulating, Proportional Hazards Models, Prostatic Neoplasms, Castration-Resistant blood, Prostatic Neoplasms, Castration-Resistant drug therapy, Prostatic Neoplasms, Castration-Resistant mortality, Taxoids therapeutic use, Androstenes pharmacology, Biomarkers, Tumor blood, DNA, Neoplasm blood, Prostatic Neoplasms, Castration-Resistant genetics, Receptors, Androgen genetics, Taxoids pharmacology
Abstract

Purpose: Although novel agents targeting the androgen-androgen receptor (AR) axis have altered the treatment paradigm of metastatic castration-resistant prostate cancer (mCRPC), development of therapeutic resistance is inevitable. In this study, we examined whether AR gene aberrations detectable in circulating cell-free DNA (cfDNA) are associated with resistance to abiraterone acetate and enzalutamide in mCRPC patients., Experimental Design: Plasma was collected from 62 mCRPC patients ceasing abiraterone acetate (n = 29), enzalutamide (n = 19), or other agents (n = 14) due to disease progression. DNA was extracted and subjected to array comparative genomic hybridization (aCGH) for chromosome copy number analysis, and Roche 454 targeted next-generation sequencing of exon 8 in the AR., Results: On aCGH, AR amplification was significantly more common in patients progressing on enzalutamide than on abiraterone or other agents (53% vs. 17% vs. 21%, P = 0.02, χ(2)). Missense AR exon 8 mutations were detected in 11 of 62 patients (18%), including the first reported case of an F876L mutation in an enzalutamide-resistant patient and H874Y and T877A mutations in 7 abiraterone-resistant patients. In patients switched onto enzalutamide after cfDNA collection (n = 39), an AR gene aberration (copy number increase and/or an exon 8 mutation) in pretreatment cfDNA was associated with adverse outcomes, including lower rates of PSA decline ≥ 30% (P = 0.013, χ(2)) and shorter time to radiographic/clinical progression (P = 0.010, Cox proportional hazards regression)., Conclusions: AR gene aberrations in cfDNA are associated with resistance to enzalutamide and abiraterone in mCRPC. Our data illustrate that genomic analysis of cfDNA is a minimally invasive method for interrogating mechanisms of therapeutic resistance in mCRPC., (©2015 American Association for Cancer Research.)

Published
2015
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29. Impaired insulin-receptor autophosphorylation is an early defect in fat-fed, insulin-resistant rats.

Author

Youngren JF, Paik J, and Barnard RJ

Subjects
Animals, Biological Transport, Active drug effects, Blotting, Western, Body Weight drug effects, Diet, Enzyme-Linked Immunosorbent Assay, Female, Glucose metabolism, Glucose Transporter Type 1, In Vitro Techniques, Insulin pharmacology, Insulin Resistance genetics, Membranes metabolism, Monosaccharide Transport Proteins metabolism, Muscle, Skeletal drug effects, Muscle, Skeletal metabolism, Phosphorylation, Rats, Rats, Inbred F344, Receptor, Insulin drug effects, Signal Transduction drug effects, Sucrose pharmacology, Tumor Necrosis Factor-alpha metabolism, Dietary Fats pharmacology, Insulin Resistance physiology, Receptor, Insulin metabolism
Abstract

High-fat feeding results in impaired insulin signaling in skeletal muscle, but the role of the insulin receptor (IR) remains controversial. In the present study, female Fischer 344 rats were fed diets either low in fat [low fat, complex carbohydrate (LFCC)] or high in fat and sucrose (HFS). Insulin-stimulated skeletal muscle glucose transport, measured in purified sarcolemmal vesicles, was lower in rats consuming the HFS diet for 2 and 8 wk compared with LFCC controls (72.9 +/- 3.5, 67.6 +/- 3.5, and 86.1 +/- 3.5 pmol x mg(-1) x 15 s(-1), respectively; P < 0.05). Muscle IR content was unchanged in 2-wk HFS animals but was 50% lower in the 8-wk HFS group (P < 0.001). However, compared with LFCC, insulin-stimulated IR autophosphorylation was 26% lower in 2-wk HFS and 40% lower in 8-wk HFS animals (P < 0.005). Total muscle content of the proposed IR inhibitors cytokine tumor necrosis factor-alpha and membrane glycoprotein PC-1 was not significantly changed in HFS animals at either 2 or 8 wk. These results demonstrate that high-fat feeding induces insulin resistance in muscle concomitant with a diminished IR signaling capacity, although the mechanism remains unknown.

Published
2001
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30. Enhanced muscle insulin receptor autophosphorylation with short-term aerobic exercise training.

Author

Youngren JF, Keen S, Kulp JL, Tanner CJ, Houmard JA, and Goldfine ID

Subjects
Bicycling, Blood Glucose analysis, Body Composition, Body Mass Index, Electron Transport Complex IV metabolism, Enzyme-Linked Immunosorbent Assay, Fasting, Glucose Tolerance Test, Homeostasis, Humans, Insulin blood, Insulin pharmacology, Oxygen Consumption, Phosphorylation, Exercise physiology, Muscle, Skeletal metabolism, Receptor, Insulin metabolism
Abstract

Exercise training improves insulin action in skeletal muscle, but the mechanisms of this effect are not completely understood. In particular, the role of the insulin receptor (IR) is unclear. We examined the IR and an enzyme indicative of oxidative capacity in muscle in relation to improved insulin action in 20 previously sedentary individuals before and after a 7-day program of moderate-intensity cycle ergometry. After training, insulin sensitivity increased 33% (6.20 +/- 0.91 vs. 8.22 +/- 1.12 min. microU(-1). ml(-1) mean +/- SE, pre- vs. posttraining, respectively, P < 0.05). The mitochondrial marker enzyme cytochrome c oxidase (COX) increased in vastus lateralis biopsies by 21% (P < 0.05). After training, IR autophosphorylation, determined by ELISA, was significantly increased by approximately 40% at insulin concentrations from 1 to 100 nM (P < 0.05). The training-induced improvements in IR autophosphorylation were significantly correlated with changes in muscle COX content (r = 0.65, P < 0.05). These studies indicate that, in this model of increased physical activity, improvements in IR function are an early adaptation to exercise in humans, are correlated with increases in muscle oxidative capacity, and likely contribute to the beneficial effects of exercise training on insulin action.

Published
2001
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31. Role of PC-1 in the etiology of insulin resistance.

Author

Goldfine ID, Maddux BA, Youngren JF, Trischitta V, and Frittitta L

Subjects
Animals, Cells, Cultured, Enzyme Activation, Humans, Phosphorylation, Protein-Tyrosine Kinases metabolism, Signal Transduction, Up-Regulation, Diabetes Mellitus, Type 2 metabolism, Insulin metabolism, Insulin Resistance, Membrane Glycoproteins metabolism, Phosphoric Diester Hydrolases metabolism, Pyrophosphatases metabolism, Receptor, Insulin metabolism
Abstract

Defects in insulin receptor tyrosine kinase activity have been demonstrated in tissues from insulin resistant subjects, but mutations in the insulin receptor gene are rare. Therefore, other molecules that are capable of modulating the insulin receptor most likely play a major role in insulin resistance. In cultured fibroblasts from an insulin resistant patient with Type 2 diabetes, we first identified membrane glycoprotein PC-1 as an inhibitor of the insulin receptor tyrosine kinase activity. PC-1 is overexpressed in fibroblasts from other insulin resistant subjects, both with and without Type 2 diabetes. PC-1 is a large class II exoprotein whose function is unknown. Studies in muscle and fat of insulin resistant subjects two primary tissues for insulin activation, reveal that elevated levels of PC-1 are inversely correlated with decreased insulin action both in vivo and in vitro. Transfection and expression of PC-1 in cultured cells demonstrate that overexpression of PC-1 produces impairments in insulin receptor tyrosine kinase activity, and the subsequent cellular responses to insulin. These studies indicate, therefore, that PC-1 is a major factor in the etiology of insulin resistance, and is a potential new therapeutic target for anti-diabetic therapy.

Published
1999
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32. Insulin receptor autophosphorylation in cultured myoblasts correlates to glucose disposal in Pima Indians.

Author

Youngren JF, Goldfine ID, and Pratley RE

Subjects
Adult, Biopsy, Cells, Cultured, Enzyme-Linked Immunosorbent Assay, Female, Glucose Clamp Technique, Humans, Insulin blood, Insulin Resistance, Longitudinal Studies, Male, Phosphorylation, Blood Glucose metabolism, Indians, North American, Muscle, Skeletal metabolism, Receptor, Insulin metabolism
Abstract

In a previous study [Youngren, J. F., I. D. Goldfire, and R. E. Pratley. Am. J. Physiol. 273 (Endocrinol. Metab. 36): E276-E283, 1997] of skeletal muscle biopsies from insulin-resistant, nondiabetic Pima Indians, we demonstrated that diminished insulin receptor (IR) autophosphorylation correlated with in vivo insulin resistance. In the present study, to determine whether decreased IR function is a primary trait of muscle, and not secondary to an altered in vivo environment, we cultured myoblasts from 17 nondiabetic Pima Indians in whom insulin-stimulated glucose disposal (M) was measured during hyperinsulinemic-euglycemic glucose clamps. Myoblast IR autophosphorylation was determined by a highly sensitive ELISA. IR autophosphorylation directly correlated with M (r = 0.56, P = 0.02) and inversely correlated with the fasting plasma insulin (r = -0.58, P < 0.05). The relationship between M and IR autophosphorylation remained significant after M was adjusted for the effects of percent body fat (partial r = 0.53, P < 0.04). The relationship between insulin resistance and the capacity for myoblast IR autophosphorylation in nondiabetic Pima Indians suggests that variations in IR-signaling capacity may be intrinsic characteristics of muscle that contribute to the genetic component determining insulin action in this population.

Published
1999
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33. Membrane glycoprotein PC-1 and insulin resistance.

Author

Goldfine ID, Maddux BA, Youngren JF, Frittitta L, Trischitta V, and Dohm GL

Subjects
Animals, Diabetes Mellitus, Type 2 etiology, Diabetes Mellitus, Type 2 genetics, Humans, Insulin Resistance genetics, Membrane Glycoproteins genetics, Insulin Resistance physiology, Membrane Glycoproteins physiology, Phosphoric Diester Hydrolases, Pyrophosphatases
Abstract

Peripheral resistance to insulin is a major component of non-insulin dependent diabetes mellitus. Defects in insulin receptor tyrosine kinase activity have been demonstrated in several tissues from insulin resistant subjects, but mutations in the insulin receptor gene occur in only a small fraction of cases. Therefore, other molecules that are capable of modulating the function of the insulin receptor are likely candidates in the search for the cellular mechanisms of insulin resistance. We have isolated an inhibitor of insulin receptor tyrosine kinase activity from cultured fibroblasts of an insulin resistant NIDDM patient and identified it as membrane glycoprotein PC-1. Subsequently we have demonstrated that expression of PC-1 is elevated in fibroblasts from other insulin resistant subjects, both with and without NIDDM. Studies in muscle, the primary site for insulin-mediated glucose disposal, have shown that the levels of PC-1 in this tissue are inversely correlated to insulin action both in vivo and in vitro. Transfection of PC-1 into cultured cells has confirmed that overexpression of PC-1 can produce impairments in insulin receptor tyrosine kinase activity and the subsequent cellular responses to insulin. Preliminary data suggests a direct interaction between PC-1 and the insulin receptor. However, the mechanisms whereby PC-1 inhibits insulin receptor signaling remain to be determined.

Published
1998

34. Contributions of the American Journal of Physiology to the discovery of insulin.

Author

Goldfine ID and Youngren JF

Subjects
Animals, History, 18th Century, History, 19th Century, History, 20th Century, Humans, Insulin physiology, Periodicals as Topic, Insulin history
Abstract

Since its inception in 1898 the American Journal of Physiology has been a leader in diabetes research and has published many key articles on the subject. The Journal first published studies of phlorhizin-induced diabetes in 1898, and after many other contributions went on to publish the first reports of Banting, Best, Macleod, and Collip in 1922 concerning the isolation and purification of insulin (5-8, 13). This review highlights some of these key contributions of the Journal.

Published
1998
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35. Decreased muscle insulin receptor kinase correlates with insulin resistance in normoglycemic Pima Indians.

Author

Youngren JF, Goldfine ID, and Pratley RE

Subjects
Adult, Enzyme Activation, Enzyme-Linked Immunosorbent Assay, Humans, Middle Aged, Obesity metabolism, Phosphorylation, Reference Values, Substrate Specificity, Blood Glucose analysis, Indians, North American, Insulin Resistance, Muscles metabolism, Receptor, Insulin metabolism
Abstract

Defects in insulin receptor tyrosine kinase activity are present in insulin-resistant non-insulin-dependent diabetes mellitus patients and certain nondiabetic individuals, both lean and obese. However, the relationship between insulin receptor function, insulin action, and obesity is unclear. To address this issue, we have employed a new and highly sensitive enzyme-linked immunosorbent assay to measure in vitro insulin-stimulated autophosphorylation of immunocaptured muscle insulin receptors in a group of 25 normoglycemic Pima Indians. Insulin action, determined during two-step euglycemic insulin clamps, varied widely in these subjects. Maximal in vitro insulin stimulation of insulin receptor autophosphorylation strongly correlated with both low (Mlow)- and high (Mhigh)-dose insulin-stimulated glucose disposal (r = 0.62 and 0.51, P < 0.002 and 0.011, respectively). Insulin receptor autophosphorylation was inversely related to percent body fat (r = -0.52, P < 0.009). After control for percent body fat, receptor autophosphorylation remained correlated with Mlow (partial r = 0.49, P < 0.025). These data therefore suggest that defects in insulin receptor function are major contributors to insulin resistance in both lean and obese normoglycemic Pima Indians.

Published
1997
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36. The development of insulin resistance with high fat feeding in rats does not involve either decreased insulin receptor tyrosine kinase activity or membrane glycoprotein PC-1.

Author

Ozel B, Youngren JF, Kim JK, Goldfine ID, Sung CK, and Youn JH

Subjects
Animals, Insulin physiology, Male, Membrane Glycoproteins antagonists & inhibitors, Rats, Rats, Wistar, Receptor, Insulin antagonists & inhibitors, Dietary Fats administration & dosage, Insulin Resistance, Membrane Glycoproteins metabolism, Phosphoric Diester Hydrolases, Pyrophosphatases, Receptor, Insulin metabolism
Abstract

Recent studies have suggested that the insulin receptor tyrosine kinase inhibitor, membrane glycoprotein PC-1, may play a role in certain insulin resistant states. In the present study, we examined whether either insulin receptor function or PC-1 activity was altered during the development of insulin resistance that occurs with high fat feeding in normal rats. Over the course of 14 days of high fat feeding, both maximal and submaximal (physiological) insulin-stimulated skeletal muscle glucose uptake decreased gradually; after 14 days of high fat feeding, submaximal and maximal insulin-stimulated glucose uptake decreased by approximately 40 and approximately 50%, respectively. In contrast, in the same muscles (tibialis anterior) of these animals, neither insulin receptor content nor insulin-stimulated insulin receptor autophosphorylation was altered after 14 days of high fat feeding. PC-1 has both nucleotide pyrophosphatase (EC 3.6.1.9) and alkaline phosphodiesterase I (EC 3.1.4.1) enzyme activities. These enzyme activities showed no changes during the course of 14 days of high fat feeding. Individual data revealed that there was no significant correlation between insulin-stimulated glucose uptake and alkaline phosphodiesterase or nucleotide pyrophosphatase activity (P > 0.05). Together, these data indicate that neither defects in insulin receptor function nor elevated PC-1 activities are involved in the development of insulin resistance in rats with high fat feeding, and the insulin resistance induced with high fat feeding is likely due to postreceptor defects in skeletal muscle.

Published
1996
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37. Effects of acute and chronic exercise on skeletal muscle glucose transport in aged rats.

Author

Youngren JF and Barnard RJ

Subjects
Animals, Blood Glucose metabolism, Blotting, Western, Female, Glucose Transporter Type 4, Insulin pharmacology, Membranes enzymology, Membranes metabolism, Monosaccharide Transport Proteins metabolism, Physical Conditioning, Animal, Rats, Rats, Inbred F344, Sarcolemma enzymology, Sarcolemma metabolism, Aging metabolism, Glucose metabolism, Muscle Proteins, Muscle, Skeletal metabolism, Physical Exertion physiology
Abstract

The purpose of this study was to investigate the effects of acute and chronic exercise on skeletal muscle glucose transport in aged rats by using an isolated sarcolemmal membrane preparation. In 24-mo-old female Fischer 344 rats, a maximum dose of insulin increased glucose transport from 43 +/- 6 to 82 +/- 6 pmol.mg protein-1.15 s-1. A 45-min bout of exhaustive treadmill running increased glucose transport to the same maximum level (88 +/- 5 pmol.mg protein-1.15 s-1). Eight weeks of progressive exercise training resulted in a 65% increase in succinic dehydrogenase activity in hindlimb muscles and a 55% increase in total cellular GLUT-4 content. Despite these biochemical adaptations, there was no change in either basal or maximum insulin-stimulated glucose transport between control (43 +/- 6 and 82 +/- 6 pmol.mg protein-1.15 s-1, respectively) and trained (42 +/- 2 and 82 +/- 8 pmol.mg protein-1.15 s-1, respectively) animals. When hindlimb muscle succinate dehydrogenase activity and GLUT-4 content were compared for both the combined sedentary and trained groups, a significant correlation (r = 0.68) was obtained. This study demonstrates that the skeletal muscle glucose transport system of 24-mo-old rats is fully stimulated by acute exercise and that, although GLUT-4 levels are increased in aged animals after exercise training, this does not result in an enhancement of maximal insulin-stimulated glucose transport. Thus increases in GLUT-4 are not sufficient to improve muscle insulin responsiveness with training.

Published
1995
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38. Membrane glycoprotein PC-1 and insulin resistance in non-insulin-dependent diabetes mellitus.

Author

Maddux BA, Sbraccia P, Kumakura S, Sasson S, Youngren J, Fisher A, Spencer S, Grupe A, Henzel W, and Stewart TA

Subjects
Adult, Animals, Diabetes Mellitus, Type 2 enzymology, Female, Fibroblasts metabolism, Humans, Male, Membrane Glycoproteins isolation & purification, Middle Aged, Rats, Rats, Wistar, Receptor, Insulin antagonists & inhibitors, Transfection, Tumor Cells, Cultured, Diabetes Mellitus, Type 2 metabolism, Insulin Resistance, Membrane Glycoproteins metabolism, Phosphoric Diester Hydrolases, Pyrophosphatases, Receptor, Insulin metabolism
Abstract

Most patients with non-insulin-dependent diabetes mellitus are resistant to both endogenous and exogenous insulin. Insulin resistance precedes the onset of this disease, suggesting that it may be an initial abnormality. Insulin-receptor kinase activity is impaired in muscle, fibroblasts and other tissues of many patients with non-insulin-dependent diabetes mellitus, but abnormalities in the insulin-receptor gene do not appear to be the cause of this decreased kinase activity. Skin fibroblasts from certain insulin-resistant patients contain an inhibitor of insulin-receptor tyrosine kinase. Here we show that this inhibitor is a membrane glycoprotein, termed PC-1 (refs 10, 11). We find that PC-1 activity is increased in fibroblasts from seven of nine patients with typical non-insulin-dependent diabetes mellitus. In addition, overexpression of PC-1 in transfected cultured cells reduces insulin-stimulated tyrosine kinase activity. These studies raise the possibility that PC-1 has a role in the insulin resistance of non-insulin-dependent diabetes mellitus.

Published
1995
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39. Regulation of glucose transport in skeletal muscle.

Author

Barnard RJ and Youngren JF

Subjects
Animals, Biological Transport, Diabetes Mellitus, Type 1 metabolism, Diabetes Mellitus, Type 2 metabolism, Diet, Exercise Therapy, Humans, Insulin physiology, Insulin Resistance, Physical Conditioning, Animal, Physical Exertion, Glucose metabolism, Monosaccharide Transport Proteins metabolism, Muscles metabolism
Abstract

The entry of glucose into muscle cells is achieved primarily via a carrier-mediated system consisting of protein transport molecules. GLUT-1 transporter isoform is normally found in the sarcolemmal (SL) membrane and is thought to be involved in glucose transport under basal conditions. With insulin stimulation, glucose transport is accelerated by translocating GLUT-4 transporters from an intracellular pool out to the T-tubule and SL membranes. Activation of transporters to increase the turnover number may also be involved, but the evidence is far from conclusive. When insulin binds to its receptor, it autophosphorylates tyrosine and serine residues on the beta-subunit of the receptor. The tyrosine residues are thought to activate tyrosine kinases, which in turn phosphorylate/activate as yet unknown second messengers. Insulin receptor antibodies, however, have been reported to increase glucose transport without increasing kinase activity. Insulin resistance in skeletal muscle is a major characteristic of obesity and diabetes mellitus, especially NIDDM. A decrease in the number of insulin receptors and the ability of insulin to activate receptor tyrosine kinase has been documented in muscle from NIDDM patients. Most studies report no change in the intracellular pool of GLUT-4 transporters available for translocation to the SL. Both the quality and quantity of food consumed can regulate insulin sensitivity. A high-fat, refined sugar diet, similar to the typical U.S. diet, causes insulin resistance when compared with a low-fat, complex-carbohydrate diet. On the other hand, exercise increases insulin sensitivity. After an acute bout of exercise, glucose transport in muscle increases to the same level as with maximum insulin stimulation. Although the number of GLUT-4 transporters in the sarcolemma increases with exercise, neither insulin or its receptor is involved. After an initial acute phase, which may involve calcium as the activator, a secondary phase of increased insulin sensitivity can last for up to a day after exercise. The mechanism responsible for the increased insulin sensitivity with exercise is unknown. Regular exercise training also increases insulin sensitivity, which can be documented several days after the final bout of exercise, and again the mechanism is unknown. An increase in the muscle content of GLUT-4 transporters with training has recently been reported. Even though significant progress has been made in the past few years in understanding glucose transport in skeletal muscle, the mechanisms involved in regulating transport are far from being understood.

Published
1992
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40. Effects of maturation and aging on the skeletal muscle glucose transport system.

Author

Barnard RJ, Lawani LO, Martin DA, Youngren JF, Singh R, and Scheck SH

Subjects
Animals, Biological Transport, Blotting, Western, Cytochalasin B metabolism, Female, Insulin metabolism, Muscle Development, Muscles metabolism, Phosphorylation, Rats, Rats, Inbred F344, Receptor, Insulin chemistry, Receptor, Insulin metabolism, Aging metabolism, Glucose pharmacokinetics, Muscles enzymology
Abstract

Insulin resistance in old, compared with young, humans and animals has been well documented. The resistance is due primarily to defects in skeletal muscle. In the present study, skeletal muscle sarcolemmal membranes were purified from five age groups of female Fischer rats ranging from 2 to 24 mo. Basal specific D-glucose transport was not significantly different among any of the groups. Maximum insulin-stimulated transport was progressively decreased from 96.4 +/- 5.0 pmol.mg-1.15 s-1 in the 2-mo-old animals to 70.8 +/- 8.9 pmol.mg-1.15 s-1 in the 24-mo-old animals. Most of the decrease occurred during maturation, and in fact there was no significant difference in maximum transport among the 8-, 16-, and 24-mo-old rats. The decrease in insulin-stimulated transport in the 24-mo-old animals was due to a reduction in the number of glucose transporters translocated into the sarcolemma membrane (9.8 +/- 0.6 vs. 7.8 +/- 0.6 pmol/mg protein). The intracellular or microsomal pool of glucose transporters was not significantly different between the 2- and 24-mo-old animals (8.8 +/- 0.6 vs. 8.5 +/- 0.9/mg protein). Western blotting revealed no differences in the cellular GLUT-4 contents between the 2- and 24-mo-old rats. The number of insulin receptors (2.3 +/- 0.4 vs. 2.1 +/- 0.5 pmol/mg protein) was not significantly different. Tyrosine kinase activity of the insulin receptor was, however, significantly reduced in the 24-mo-old compared with the 2-mo-old animals.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1992
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41. Effects of NIDDM on the glucose transport system in human skeletal muscle.

Author

Scheck SH, Barnard RJ, Lawani LO, Youngren JF, Martin DA, and Singh R

Subjects
Adenosine Triphosphate metabolism, Adult, Aged, Blood Glucose metabolism, Cytochalasin B metabolism, Fasting, Humans, Insulin blood, Insulin metabolism, Kinetics, Middle Aged, Phosphorylation, Protein-Tyrosine Kinases metabolism, Receptor, Insulin metabolism, Reference Values, Diabetes Mellitus, Type 2 metabolism, Glucose metabolism, Muscles metabolism
Abstract

The purpose of this study was to investigate cellular changes in the glucose transport system in skeletal muscle of lean non-insulin-dependent diabetes mellitus (NIDDM) compared to lean nondiabetic control patients. NIDDM patients had significantly elevated fasting levels (means +/- SE) of serum glucose (10.1 +/- 1.3 vs. 5.4 +/- 0.4 mM, P less than 0.001) and serum insulin (110.8 +/- 31.1 vs. 35.9 +/- 3.6 pM, P less than 0.0025). Basal glucose transport (35.1 +/- 5.5 vs. 30.8 +/- 8.0 pM/mg protein) and cytochalasin-beta binding (3.5 +/- 1.2 vs 3.8 +/- 1.0 pM/mg protein) in isolated sarcolemmal vesicles were not significantly different between NIDDM and control groups. Insulin binding was reduced in NIDDM (0.82 +/- 0.03 vs. 1.63 +/- 0.18 pM/mg protein) as was the Kd (0.93 +/- 0.03 vs. 1.38 + 0.12 nM). Tyrosine kinase activity, as assessed from incorporation of [32P]ATP into Glu 4:Tyr 1, was significantly (P less than 0.005) reduced in NIDDM at insulin concentrations from 1-100 nM. Maximum kinase activity was depressed (1.88 +/- 0.04 vs. 2.97 +/- 0.07 fM 32P/fM insulin binding at 100 nM insulin). The number of glucose transporters in the low-density microsomes was not significantly different between NIDDM and control groups (7.01 +/- 1.40 vs. 7.65 +/- 0.90 pM cytochalasin-beta bound/mg protein). These results suggest that decreased insulin binding and diminished receptor tyrosine kinase activity play a substantial role in the development of skeletal muscle insulin resistance associated with NIDDM.

Published
1991

42. Effects of streptozotocin-induced diabetes on glucose transport in skeletal muscle.

Author

Barnard RJ, Youngren JF, Kartel DS, and Martin DA

Subjects
Animals, Binding Sites, Biological Transport, Cytochalasin B metabolism, Female, Insulin pharmacology, Rats, Rats, Inbred Strains, Sarcolemma metabolism, Streptozocin, Diabetes Mellitus, Experimental metabolism, Glucose metabolism, Muscles metabolism
Abstract

Female Sprague-Dawley rats were injected with streptozotocin (45 mg/kg) to induce mild diabetes (glucose, greater than 13 mM). Half of the animals received daily insulin injections to reduce hyperglycemia. After 10 weeks, sarcolemmal membranes were isolated from hindlimb muscles to study glucose transport, and the number of glucose transporters was assessed by cytochalasin-beta binding. Both glucose transport (19.2 +/- 1.6 vs. 31.93 +/- 3.29 pmol/mg protein.15 sec) and cytochalasin-beta binding (3.06 +/- 0.28 vs. 6.14 +/- 0.59 pmol/mg protein) were significantly (P less than 0.05) reduced in the diabetic untreated rats compared to control values. Daily insulin injections restored both (P less than 0.05) basal transport (33.22 +/- 3.62 pmol/mg protein.15 sec) and cytochalasin-beta binding (5.52 +/- 0.66 pmol/mg protein) to control levels. Maximum insulin stimulation (1 U/kg, iv) significantly increased (P less than 0.05) both glucose transport (30.18 +/- 3.76 vs. 96.48 +/- 4.21 pmol/mg protein.15 sec) and cytochalasin-beta binding (4.38 +/- 0.29 vs. 9.40 +/- 0.42 pmol/mg protein) in the untreated diabetic and control rats. However, the stimulation in the untreated diabetic rats only reached basal control levels, which was significantly (P less than 0.05) below the insulin-stimulated value for the controls. In the rats receiving daily insulin injections, maximum insulin stimulation increased (P less than 0.05) both glucose transport (58.67 +/- 15.24 pmol/mg protein.15 sec) and cytochalasin-beta binding (6.4 +/- 0.7 pmol/mg protein), but both transport and binding were significantly (P less than 0.05) below insulin-stimulated values for the control rats. These data show that insulin deficiency adversely affected the glucose transport system in skeletal muscle. Both basal and maximum insulin-stimulated transport and the number of transport molecules were reduced. Daily insulin treatment corrected some of the defects, but maximum insulin stimulation was still significantly below values for control animals.

Published
1990
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43. Feline infectious peritonitis.

Author

Disque DF, Case MT, and Youngren JA

Subjects
Animals, Anti-Bacterial Agents therapeutic use, Blood Cell Count, Blood Chemical Analysis, Cats, Female, Male, Peritonitis blood, Peritonitis drug therapy, Peritonitis pathology, Cat Diseases blood, Cat Diseases drug therapy, Cat Diseases pathology, Peritonitis veterinary
Published
1968

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