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11. Effects of transgenic expression of HIV-1 Vpr on lipid and energy metabolism in mice

Author

Balasubramanyam, Ashok, Mersmann, Harry, Jahoor, Farook, Phillips, Terry M., Sekhar, Rajagopal V., Schubert, Ulrich, Brar, Baljinder, Iyer, Dinakar, Smith, E. O'Brian, Takahashi, Hideko, Lu, Huiyan, Anderson, Peter, Kino, Tomoshige, Henklein, Peter, and Kopp, Jeffrey B.

Subjects
Bioenergetics -- Research, Energy metabolism -- Research, Rats as laboratory animals -- Research, Rats as laboratory animals -- Physiological aspects, Biological sciences
Abstract

HIV infection is associated with abnormal lipid metabolism, body fat redistribution, and altered energy expenditure. The pathogenesis of these complex abnormalities is unclear. Viral protein R (Vpr), an HIV-1 accessory protein, can regulate gene transcription mediated by the glucocorticoid receptor and peroxisome proliferator-activated receptor-[gamma] and affect mitochondrial function in vitro. To test the hypothesis that expression of Vpr in liver and adipocytes can alter lipid metabolism in vivo, we engineered mice to express Vpr under control of the phosphoenolpyruvate carboxykinase promoter in a tissue-specific and inducible manner and investigated the effects of dietary fat, indinavir, and dexamethasone on energy metabolism and body composition. The transgenic mice expressed Vpr mRNA in white and brown adipose tissues and liver and immunoaffinity capillary electrophoresis revealed that they had free Vpr protein in the plasma. Compared with wild-type (WT) animals, Vpr mice had lower plasma triglyceride levels after 6 wk (P < 0.05) but not after 10 wk of a high-fat diet and lower plasma cholesterol levels after 10 wk of high-fat diet (P < 0.05). Treatment with dexamethasone obviated group differences, whereas indinavir had no significant independent effect on lipids. In the fasted state, Vpr mice had a higher respiratory quotient than WT mice (P < 0.05). These data provide the first in vivo evidence that HIV-1 Vpr expressed at low levels in adipose tissues and liver can 1) circulate in the blood, 2) regulate lipid and fatty acid metabolism, and 3) alter fuel selection for oxidation in the fasted state. human immunodeficiency virus lipodystrophy; glucose; triglycerides; cholesterol; energy expenditure; fat oxidation

Published
2007

12. Serum response factor MADS box serine-162 phosphorylation switches proliferation and myogenic gene programs

Author

Iyer, Dinakar, Chang, David, Marx, Joe, Wei, Lei, Olson, Eric N., Parmacek, Michael S., Balasubramanyam, Ashok, and Schwartz, Robert J.

Subjects
DNA-ligand interactions -- Research, Phosphorylation -- Analysis, Serine -- Structure, Serine -- Chemical properties, Gene expression, Science and technology
Abstract

Phosphorylation of a cluster of amino acids in the serum response factor (SRF) 'MADS box' [alpha]I coil DNA binding domain regulated the transcription of genes associated with proliferation or terminal muscle differentiation. Mimicking phosphorylation of serine-162, a target of protein kinase C-[alpha], with an aspartic acid substitution (SRF-S162D) completely inhibited SRF-DNA binding and blocked [alpha]-actin gene transcription even in the presence of potent myogenic cofactors, while preserving c-fos promoter activity because of stabilization of the ternary complex via Elk-1. Introduction of SRF-S162D into SRF null ES cells permitted transcription of the c-fos gene but was unable to rescue expression of myogenic contractile genes. Transition of proliferating C2C12 myoblasts to postfusion myocytes after serum withdrawal was associated with a progressive decline in SRF-S162 phosphorylation and an increase in [alpha]-actin gene expression. Hence, the phosphorylation status of serine-162 in the [alpha]I coil may constitute a novel switch that directs target gene expression into proliferation or differentiation programs. PKC | differentiation | [alpha]-actin | c-fos

Published
2006

14. Pathogenesis of A−β+ Ketosis-Prone Diabetes

Author

Patel, Sanjeet G., Hsu, Jean W., Jahoor, Farook, Coraza, Ivonne, Bain, James R., Stevens, Robert D., Iyer, Dinakar, Nalini, Ramaswami, Ozer, Kerem, Hampe, Christiane S., Newgard, Christopher B., and Balasubramanyam, Ashok

Published
2013
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15. Pathogenesis of [A.sup.-][β.sup.+] ketosis-prone diabetes

Author

Patel, Sanjeet G., Hsu, Jean W., Jahoor, Farook, Coraza, Ivonne, Bain, James R., Stevens, Robert D., Iyer, Dinakar, Nalini, Ramaswami, Ozer, Kerem, Hampe, Christiane S., Newgard, Christopher B., and Balasubramanyam, Ashok

Subjects
Diabetes -- Research -- Development and progression -- Identification and classification, Metabolomics -- Research -- Analysis, Health
Abstract

[A.sup.-][β.sup.+] ketosis-prone diabetes (KPD) is an emerging syndrome of obesity, unprovoked ketoacidosis, reversible β-cell dysfunction, and near-normoglycemic remission. We combined metabolomics with targeted kinetic measurements to investigate its pathophysiology. Fasting plasma fatty acids, acylcarnitines, and amino acids were quantified in 20 KPD patients compared with 19 nondiabetic control subjects. Unique signatures in KPD--higher glutamate but lower glutamine and citrulline concentrations, increased β-hydroxybutyryl-carnitine, decreased isovaleryl-carnitine (a leucine catabolite), and decreased tricarboxylic acid (TCA) cycle intermediates--generated hypotheses that were tested through stable isotope/mass spectrometry protocols in nine new-onset, stable KPD patients compared with seven nondiabetic control subjects. Free fatty acid flux and acetyl CoA flux and oxidation were similar, but KPD had slower acetyl CoA conversion to β-hydroxybutyrate; higher fasting β-hydroxybutyrate concentration; slower β-hydroxybutyrate oxidation; faster leucine oxidative decarboxylation; accelerated glutamine conversion to glutamate without increase in glutamate carbon oxidation; and slower citrulline flux, with diminished glutamine amide-nitrogen transfer to citrulline. The confluence of metabolomic and kinetic data indicate a distinctive pathogenic sequence: impaired ketone oxidation and fatty acid utilization for energy, leading to accelerated leucine catabolism and transantination of α-ketoglutarate to glutamate, with impaired TCA anaplerosis of glutamate carbon. They highlight a novel process of defective energy production and ketosis in [A.sup.-][β.sup.+] KPD., Ketosis-prone diabetes (KPD) is characterized by presentation with diabetic ketoacidosis (DKA) persons who do not fit traditional categories types 1 or 2 diabetes (1-5). We have defined four subgroups of [...]

Published
2013
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16. Combination of Niacin and Fenofibrate with Lifestyle Changes Improves Dyslipidemia and Hypoadiponectinemia in HIV Patients on Antiretroviral Therapy: Results of “Heart Positive,” a Randomized, Controlled Trial

Author

Balasubramanyam, Ashok, Coraza, Ivonne, Smith, E. OʼBrian, Scott, Lynne W., Patel, Payal, Iyer, Dinakar, Taylor, Addison A., Giordano, Thomas P., Sekhar, Rajagopal V., Clark, Pamela, Cuevas-Sanchez, Edith, Kamble, Swarna, Ballantyne, Christie M., and Pownall, Henry J.

Published
2011

19. A--β--subtype of ketosis-prone diabetes is not predominantly a monogenic diabetic syndrome

Author

Haaland, Wade C., Scaduto, Diane I., Maldonado, Mario R., Mansouri, Dena L., Nalini, Ramaswami, Iyer, Dinakar, Patel, Sanjeet, Guthikonda, Anu, Hampe, Christiane S., Balasubramanyam, Ashok, and Metzker, Michael L.

Subjects
Baylor College of Medicine, Isoenzymes -- Research, Diabetes -- Research, Type 2 diabetes -- Research, Health, Diseases, Research
Abstract

OBJECTIVE--Ketosis-prone diabetes (KPD) is an emerging syndrome that encompasses several distinct phenotypic subgroups that share a predisposition to diabetic ketoacidosis. We investigated whether the A--β--subgroup of KPD, characterized by complete [...]

Published
2009

22. HIV-1 Viral Protein R Couples Metabolic Inflexibility With White Adipose Tissue Thermogenesis.

Author

Agarwal, Neeti, Iyer, Dinakar, Saha, Pradip, Cox, Aaron R., Xia, Yan, Utay, Netanya S., Somasundaram, Anoma, Schubert, Ulrich, Lake, Jordan E., Hartig, Sean M., and Balasubramanyam, Ashok

Subjects
*WHITE adipose tissue, *VIRAL proteins, *HIV, *BROWN adipose tissue, *BODY temperature regulation, *OBESITY, *ENERGY metabolism, *RESEARCH, *BODY temperature, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *RESEARCH funding, *ADIPOSE tissues
Abstract

Persons living with HIV (PLWH) manifest chronic disorders of brown and white adipose tissues that lead to diabetes and metabolic syndrome. The mechanisms that link viral factors to defective adipose tissue function and abnormal energy balance in PLWH remain incompletely understood. Here, we explored how the HIV accessory protein viral protein R (Vpr) contributes to adaptive thermogenesis in two mouse models and human adipose tissues. Uncoupling protein 1 (UCP1) gene expression was strongly increased in subcutaneous white adipose tissue (WAT) biopsy specimens from PLWH and in subcutaneous WAT of the Vpr mice, with nearly equivalent mRNA copy number. Histology and functional studies confirmed beige transformation in subcutaneous but not visceral WAT in the Vpr mice. Measurements of energy balance indicated Vpr mice displayed metabolic inflexibility and could not shift efficiently from carbohydrate to fat metabolism during day-night cycles. Furthermore, Vpr mice showed a marked inability to defend body temperature when exposed to 4°C. Importantly, Vpr couples higher tissue catecholamine levels with UCP1 expression independent of β-adrenergic receptors. Our data reveal surprising deficits of adaptive thermogenesis that drive metabolic inefficiency in HIV-1 Vpr mouse models, providing an expanded role for viral factors in the pathogenesis of metabolic disorders in PLWH. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Novel phosphorylation target in the serum response factor MADS box regulates alpha-actin transcription

Author

Iyer, Dinakar, Belaguli, Narasimhaswamy, Fluck, Martin, Rowan, Brian G., Wei, Lei, Weigel, Nancy L., Booth, Frank W., Epstein, Henry F., Schwartz, Robert J., and Balasubramanyam, Ashok

Subjects
Biochemistry -- Research, Phosphorylation -- Physiological aspects, Phosphorylation -- Genetic aspects, Genetic regulation -- Physiological aspects, Genetic transcription -- Physiological aspects, Actin -- Physiological aspects, Biological sciences, Chemistry
Abstract

Research has been conducted on serum response factor which regulates alpha-actin gene transcriprion. The authors suggest that phosphorylation of the MADS box is a mechanism for regulation of serum response factor-dependent actin gene transcription.

Published
2003

26. Arginine Metabolism Is Altered in Adults with A-β + Ketosis-Prone Diabetes.

Author

Mulukutla, Surya N, Hsu, Jean W, Gaba, Ruchi, Bohren, Kurt M, Guthikonda, Anu, Iyer, Dinakar, Ajami, Nadim J, Petrosino, Joseph F, Hampe, Christiane S, Ram, Nalini, Jahoor, Farook, and Balasubramanyam, Ashok

Subjects
ARGININE metabolism, AMINO acid metabolism, TYPE 1 diabetes, TYPE 2 diabetes, CELL physiology
Abstract

Background: A-β + ketosis-prone diabetes (KPD) is a subset of type 2 diabetes in which patients have severe but reversible β cell dysfunction of unknown etiology. Plasma metabolomic analysis indicates that abnormal arginine metabolism may be involved.Objective: The objective of this study was to determine the relation between gut microbiome and arginine metabolism and the relation between arginine availability and β cell function in KPD patients compared with control participants.Methods: Kinetics of arginine and related metabolites were measured with stable isotope tracers, and insulin secretory responses to arginine and glucose were determined under euglycemic and hyperglycemic conditions in 6 KPD patients and 6 age-, gender-, and body mass index-matched control participants. Glucose potentiation of arginine-induced insulin secretion was performed in a different set of 6 KPD and 3 control participants.Results: Arginine availability was higher in KPD patients during euglycemia [53.5 ± 4.3 (mean ± SEM) compared with 40.3 ± 2.4 μmol · kg lean body mass (LBM)-1 · h-1, P = 0.03] but declined more in response to hyperglycemia (Δ 10.15 ± 2.6 compared with Δ 3.20 ± 1.3 μmol · kg LBM-1 · h-1, P = 0.041). During hyperglycemia, ornithine flux was not different between groups but after an arginine bolus, plasma ornithine AUC trended higher in KPD patients (3360 ± 294 compared with 2584 ± 259 min · μmol · L-1, P = 0.08). In both euglycemia and hyperglycemia, the first-phase insulin responses to glucose stimulation were lower in KPD patients (euglycemic insulin AUC 282 ± 108 compared with 926 ± 257 min · μU · mL-1, P = 0.02; hyperglycemic insulin AUC 358 ± 79 compared with 866 ± 292 min · μU · mL-1, P = 0.05), but exogenous arginine restored first-phase insulin secretion in KPD patients to the level of control participants.Conclusion: Compared with control participants, KPD patients have increased arginine availability in the euglycemic state, indicating a higher requirement. This is compromised during hyperglycemia, with an inadequate supply of arginine to sustain metabolic functions such as insulin secretion. Exogenous arginine administration restores a normal insulin secretory response. [ABSTRACT FROM AUTHOR]

Published
2018
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28. Pathogenesis of A-β+ Ketosis-Prime Diabetes.

Author

Patel, Sanjeet G., Hsu, Jean W., Jahoor, Farook, Coraza, Ivonne, Bain, James R., Stevens, Robert D., Iyer, Dinakar, Nalini, Ramaswami, Ozer, Kerem, Hampe, Christiane S., Newgard, Christopher B., and Balasubramanyam, Ashok

Subjects
TYPE 1 diabetes, DIABETES, OBESITY, ACETONEMIA, INSULIN research
Abstract

A-β+ ketosis-prone diabetes (KPD) is an emerging syndrome of obesity, unprovoked ketoacidosis, reversible β-cell dysfunction, and near-normoglycemic remission. We combined metabolomics with targeted kinetic measurements to investigate its pathophysiology. Fasting plasma fatty acids, acylcarnitines, and amino acids were quantified in 20 KPD patients compared with 19 non-diabetic control subjects. Unique signatures in KPD--higher glutamate but lower glutamine and citrulline concentrations, increased β-hydroxybutyryl-carnitine, decreased isovaleryl-carnitine (a leucine catabolite), and decreased tricarboxylic acid (TCA) cycle intermediates--generated hypotheses that were tested through stable isotope/mass spectrometry protocols in nine new-onset, stable KPD patients compared with seven non-diabetic control subjects. Free fatty acid flux and acetyl CoA flux and oxidation were similar, but KPD had slower acetyl CoA conversion to β-hydroxybutyrate; higher fasting β-hydroxybutyrate concentration; slower β-hydroxybutyrate oxidation; faster leucine oxidative decarboxylation; accelerated glutamine conversion to glutamate without increase in glutamate carbon oxidation; and slower citrulline flux, with diminished glutamine amide-nitrogen transfer to citrulline. The confluence of metabolomic and kinetic data indicate a distinctive pathogenic sequence: impaired ketone oxidation and fatty acid utilization for energy, leading to accelerated leucine catabolism and transamination of α-ketoglutarate to glutamate, with impaired TCA anaplerosis of glutamate carbon. They highlight a novel process of defective energy production and ketosis in A-β+ KPD. [ABSTRACT FROM AUTHOR]

Published
2013
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29. Human Monocytes Accelerate Proliferation and Blunt Differentiation of Preadipocytes in Association With Suppression of C/Ebpα mRNA.

Author

Couturier, Jacob, Patel, Sanjeet G., Iyer, Dinakar, Balasubramanyam, Ashok, and Lewis, Dorothy E.

Subjects
MONOCYTES, GENE expression, MESSENGER RNA, ADIPOGENESIS, CYTOKINES, CELL proliferation
Abstract

Obesity, type 2 diabetes, and HIV-associated lipodystrophy are associated with abnormalities in adipocyte growth and differentiation. In persons with these conditions, adipose depots contain increased numbers of macrophages, but the origins of these cells and their specific effects are uncertain. Peripheral blood mononuclear cells (PBMC)-derived monocytes, but not T cells, cocultured via transwells with primary subcutaneous preadipocytes, increased proliferation (approximately twofold) and reduced differentiation (~50%) of preadipocytes. Gene expression analyses in proliferating preadipocytes (i.e., prior to hormonal induction of terminal differentiation) revealed that monocytes down-regulated mRNA levels of CCAAT/enhancer binding protein, alpha (C/EBPα) and up-regulated mRNA levels of G0/G1 switch 2 (G0S2) message, genes important for the regulation of adipogenesis and the cell cycle. These data indicate that circulating peripheral blood monocytes can disrupt adipogenesis by interfering with a critical step in C/EBPα and G0S2 transcription required for preadipocytes to make the transition from proliferation to differentiation. Interactions between preadipocytes and monocytes also increased the inflammatory cytokines IL-6 and IL-8, as well as a novel chemotactic cytokine, CXCL1. Additionally, the levels of both IL-6 and CXCL1 were highest when preadipocytes and monocytes were cultured together, compared to each cell in culture alone. Such cross-talk amplifies the production of mediators of tissue inflammation. [ABSTRACT FROM AUTHOR]

Published
2012
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30. A-beta-subtype of ketosis-prone diabetes is not predominantly a monogenic diabetic syndrome.

Author

Haaland WC, Scaduto DI, Maldonado MR, Mansouri DL, Nalini R, Iyer D, Patel S, Guthikonda A, Hampe CS, Balasubramanyam A, Metzker ML, Haaland, Wade C, Scaduto, Diane I, Maldonado, Mario R, Mansouri, Dena L, Nalini, Ramaswami, Iyer, Dinakar, Patel, Sanjeet, Guthikonda, Anu, and Hampe, Christiane S

Abstract

Objective: Ketosis-prone diabetes (KPD) is an emerging syndrome that encompasses several distinct phenotypic subgroups that share a predisposition to diabetic ketoacidosis. We investigated whether the A-beta- subgroup of KPD, characterized by complete insulin dependence, absent beta-cell functional reserve, lack of islet cell autoantibodies, and strong family history of type 2 diabetes, represents a monogenic form of diabetes.Research Design and Methods: Over 8 years, 37 patients with an A-beta- phenotype were identified in our longitudinally followed cohort of KPD patients. Seven genes, including hepatocyte nuclear factor 4A (HNF4A), glucokinase (GCK), HNF1A, pancreas duodenal homeobox 1 (PDX1), HNF1B, neurogenic differentiation 1 (NEUROD1), and PAX4, were directly sequenced in all patients. Selected gene regions were also sequenced in healthy, unrelated ethnically matched control subjects, consisting of 84 African American, 96 Caucasian, and 95 Hispanic subjects.Results: The majority (70%) of the A-beta- KPD patients had no significant causal polymorphisms in either the proximal promoter or coding regions of the seven genes. The combination of six potentially significant low-frequency, heterozygous sequence variants in HNF-1 alpha (A174V or G574S), PDX1 (putative 5'-untranslated region CCAAT box, P33T, or P239Q), or PAX4 (R133W) were found in 27% (10/37) of patients, with one additional patient revealing two variants, PDX1 P33T and PAX4 R133W. The A174V variant has not been previously reported.Conclusions: Despite its well-circumscribed, robust, and distinctive phenotype of severe, nonautoimmune-mediated beta-cell dysfunction, A-beta- KPD is most likely not a predominantly monogenic diabetic syndrome. Several A-beta- KPD patients have low-frequency variants in HNF1A, PDX1, or PAX4 genes, which may be of functional significance in their pathophysiology. [ABSTRACT FROM AUTHOR]

Published
2009
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31. Serum response factor orchestrates nascent sarcomerogenesis and silences the biomineralization gene program in the heart.

Author

Zhiyv Niu, Iyer, Dinakar, Conway, Simon J., Martin, James F., Lvey, Kathryn, Srivastava, Deepak, Nordheim, Alfred, and Schwartz, Robert J.

Subjects
*SERUM, *MUSCLE cells, *CHROMATIN, *PROTEINS, *HEART
Abstract

Our conditional serum response factor (SRF) knockout, SrfCko, in the heart-forming region blocked the appearance of rhythmic beating myocytes, one of the earliest cardiac defects caused by the ablation of a cardiac-enriched transcription factor. The appearance of Handi and Smydi. transcription and chromatin remodeling factors; Actal, Acta2, My13, and Myomi. myofibril proteins; and calcium-activated potassium-channel gene activity (KCNMB1), the channel protein, were powerfully attenuated in the SiCKO mutant hearts. A requisite role for combinatorial cofactor interactions with SRF. as a major determinant for regulating the appearance of organized sarcomeres, was shown by viral rescue of SRF-null ES cells with SRF point mutants that block cofactor interactions. In the absence of SRF genes associated with biomineralization, GATA-6, bone morphogenetic protein 4 (BMP4), and periostin were strongly up-regulated, coinciding with the down regulation of many SRF dependent microRNA, including miR1. which exerted robust silencer activity over the induction of GATA-6 leading to the down regulation of BMP4 and periostin. [ABSTRACT FROM AUTHOR]

Published
2008
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33. Novel Phosphorylation Target in the Serum Response Factor MADS Box Regulates α-Actin Transcription.

Author

Iyer, Dinakar, Belaguli, Narasimhaswamy, Flück, Martin, Rowan, Brian G., Lei Wei, Weigel, Nancy L., Booth, Frank W., Epstein, Henry F., Schwartz, Robert J., and Balasubramanyam, Ashok

Subjects
*PHOSPHOPROTEINS, *GENETIC transcription, *PROTEIN kinases
Abstract

Serum response factor (SRF) is a phosphoprotein that regulates skeletal and cardiac α-actin gene transcription. Myotonic dystrophy protein kinase (DMPK), a muscle- and neuron-restricted kinase, enhanced SRF-mediated promoter activity of the skeletal and cardiac α-actin genes in C2C12 myoblasts as well as in nonmyogenic cells. DMPK phosphorylated SRF in vitro in the αI coil of the DNA-binding domain in the MADS box, a highly conserved region required for DNA binding, dimerization, and coactivator interaction in COS and CV1 cells. Threonine 159 in the MADS box αI coil was a specific phosphorylation target in vitro as well as in vivo of both DMPK and protein kinase C-α. Substitution of threonine 159 with the nonphosphorylatable residue alanine markedly diminished activation of the cardiac α-actin promoter in the presence of kinase, while its substitution with aspartic acid, to introduce a negative charge and mimic phosphorylation, restored activation completely. Phosphorylation of the MADS box may constitute a novel mechanism for regulation of SRF-dependent actin gene transcription. [ABSTRACT FROM AUTHOR]

Published
2003
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34. Regulation of Cardiac Specific nkx2.5 Gene Activity by Small Ubiquitin-like Modifier.

Author

Jun Wang, Hua Zhang, Iyer, Dinakar, Xin-Hua Feng, and Schwartz, Robert J.

Subjects
*AMINO acids, *PROTEINS, *BIOMOLECULES, *ORGANIC acids, *NUCLEIC acids, *GENES
Abstract

The cardiac specific homeobox gene nkx2.5, a member of the nk-2 class family, plays a central role in cardiogenesis and is a target of the small ubiquitin-like modifier (SUMO). Nkx2.5 was modified by SUMO on its 51st amino acid, a lysine residue conserved across species but absent in other nk-2 members. Conversion of this lysine to an arginine (K51R) substantially reduced Nkx2.5 DNA binding and also its transcriptional activity. Unexpectedly, mutant K51R was targeted by ubiquitin. E3 ligase PIAS proteins PIAS1, PIASx, and PIASy, but not PIAS3, enhanced SUMO-1 attachment to Nkx2.5 on the primary SUMO acceptor site. SUMO-2 linkage to Nkx2.5 was catalyzed only by PIASx and not by other PIAS proteins. SUMO conjugation stabilized the formation of Nkx2.5-containing complexes that led to robust transcriptional activation. Thus, SUMO modification serves as a positive regulator for Nkx2.5 transcriptional activity. [ABSTRACT FROM AUTHOR]

Published
2008
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35. Cysteine-Rich LIM-Only Proteins CRP1 and CRP2 Are Potent Smooth Muscle Differentiation Cofactors

Author

Chang, David F., Belaguli, Narasimhaswamy S., Iyer, Dinakar, Roberts, Wilmer B., Wu, San-Pin, Dong, Xiu-Rong, Marx, Joseph G., Moore, Mary Shannon, Beckerle, Mary C., Majesky, Mark W., and Schwartz, Robert J.

Subjects
*CYSTEINE proteinases, *SMOOTH muscle, *FIBROBLASTS
Abstract

Cysteine-rich LIM-only proteins, CRP1 and CRP2, expressed during cardiovascular development act as bridging molecules that associate with serum response factor and GATA proteins. SRF-CRP-GATA complexes strongly activated smooth muscle gene targets. CRP2 was found in the nucleus during early stages of coronary smooth muscle differentiation from proepicardial cells. A dominant-negative CRP2 mutant blocked proepicardial cells from differentiating into smooth muscle cells. Together with SRF and GATA proteins, CRP1 and CRP2 converted pluripotent 10T1/2 fibroblasts into smooth muscle cells, while muscle LIM protein CRP3 inhibited the conversion. Thus, LIM-only proteins of the CRP family play important roles in organizing multiprotein complexes, both in the cytoplasm, where they participate in cytoskeletal remodeling, and in the nucleus, where they strongly facilitate smooth muscle differentiation. [Copyright &y& Elsevier]

Published
2003
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36. Developmental expression of serum response factor in the rat central nervous system

Author

Stringer, Janet L., Belaguli, Narasimhaswamy S., Iyer, Dinakar, Schwartz, Robert J., and Balasubramanyam, Ashok

Subjects
*SERUM, *TRANSCRIPTION factors, *CENTRAL nervous system
Abstract

Serum response factor (SRF), a transcription factor known to be essential for early embryonic development as well as post-natal regulation of both cellular proliferation and myogenic differentiation, is expressed broadly in neurons within the adult mammalian central nervous system (CNS). The function of SRF within the developing CNS is not well established, but it is likely to play an important role in neuraxial development and neuronal function, since many of its known target genes (e.g., c-fos) and transcriptional partners (e.g., Elk-1) are also highly expressed in neurons. Immunohistochemical survey of the post-natal developing rat brain revealed a progressive increase in SRF immunoreactivity in neurons of the cerebral and cerebellar cortices, and in selective subcortical regions from birth (P0) through post-natal day 28 (P28). SRF immunoreactivity stabilized from P28 into adulthood. A few loci, such as the nucleus of cranial nerve VII, showed the reverse expression pattern (strong immunoreactivity at P0–P7, declining by P28). The developmental expression pattern of SRF overlaps significantly with that of myotonic dystrophy protein kinase, a potential upstream regulator, and of the LIM-only genes Lmo1, Lmo2 and Lmo3, whose products belong to a family of proteins known to be strong positive regulators of SRF’s transcriptional activity. These data suggest that SRF has a significant function in the early post-natal development of the CNS. [Copyright &y& Elsevier]

Published
2002
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37. STEMIN and YAP5SA synthetic modified mRNAs regenerate and repair infarcted mouse hearts.

Author

Xiao S, Liang R, Lucero E, McConnell BK, Chen Z, Chang J, Navran S, Schwartz RJ, and Iyer D

Abstract

Introduction: The adult heart lacks the regenerative capacity to self-repair. Serum response factor (SRF) is essential for heart organogenesis, sarcomerogenesis, and contractility. SRF interacts with co-factors, such as NKX2.5 and GATA4, required for cardiac specified gene activity. ETS factors such as ELK1 interact with SRF and drive cell replication. To weaken SRF interactions with NKX2.5 and GATA4, one mutant, SRF153(A3) named STEMIN, did not bind CArG boxes, yet induced stem cell factors such as NANOG and OCT4, cardiomyocyte dedifferentiation, and cell cycle reentry. The mutant YAP5SA of the Hippo pathway also promotes cardiomyocyte proliferation and growth., Aim: Infarcted adult mouse hearts were injected with translatable STEMIN and YAP5SA mmRNA to evaluate their clinical potential., Methods and Results: Mice were pulsed one day later with alpha-EDU and then heart sections were DAPI stained. Replicating cells were identified by immuno-staining against members of the DNA replisome pathway that mark entry to S phase of the cell cycle. Echocardiography was used to determine cardiac function following infarcts and mRNA treatment. To monitor cardiac wall repair, microscopic analysis was performed, and the extent of myocardial fibrosis was analyzed for immune cell infiltration. Injections of STEMIN and YAP5SA mmRNA into the left ventricles of infarcted adult mice promoted a greater than 17-fold increase in the DAPI stained and alpha-EDU marked cardiomyocyte nuclei, within a day. We observed de novo expression of phospho-histone H3, ORC2, MCM2, and CLASPIN. Cardiac function was significantly improved by four weeks post-infarct, and fibrosis and immune cell infiltration were diminished in hearts treated with STEMIN and YAP5SA mmRNA than each alone., Conclusion: STEMIN and YAP5SA mmRNA improved cardiac function and myocardial fibrosis in left ventricles of infarcted adult mice. The combinatorial use of mmRNA encoding STEMIN and YAP5SA has the potential to become a powerful clinical strategy to treat human heart disease.

Published
2022
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38. HIV-1 viral protein R (Vpr) induces fatty liver in mice via LXRα and PPARα dysregulation: implications for HIV-specific pathogenesis of NAFLD.

Author

Agarwal N, Iyer D, Gabbi C, Saha P, Patel SG, Mo Q, Chang B, Goswami B, Schubert U, Kopp JB, Lewis DE, and Balasubramanyam A

Subjects
Animals, Disease Models, Animal, Gene Expression Regulation, HIV Infections virology, Hepatocytes metabolism, Lipid Metabolism, Liver Function Tests, Liver X Receptors metabolism, Male, Mice, Mice, Transgenic, Non-alcoholic Fatty Liver Disease diagnosis, Non-alcoholic Fatty Liver Disease metabolism, PPAR alpha metabolism, Gene Products, vpr metabolism, HIV Infections complications, HIV Infections genetics, HIV-1 physiology, Liver X Receptors genetics, Non-alcoholic Fatty Liver Disease etiology, PPAR alpha genetics
Abstract

HIV patients develop hepatic steatosis. We investigated hepatic steatosis in transgenic mice expressing the HIV-1 accessory protein Vpr (Vpr-Tg) in liver and adipose tissues, and WT mice infused with synthetic Vpr. Vpr-Tg mice developed increased liver triglyceride content and elevated ALT, bilirubin and alkaline phosphatase due to three hepatic defects: 1.6-fold accelerated de novo lipogenesis (DNL), 45% slower fatty acid ß-oxidation, and 40% decreased VLDL-triglyceride export. Accelerated hepatic DNL was due to coactivation by Vpr of liver X receptor-α (LXRα) with increased expression of its lipogenic targets Srebp1c, Chrebp, Lpk, Dgat, Fasn and Scd1, and intranuclear SREBP1c and ChREBP. Vpr enhanced association of LXRα with Lxrα and Srebp1c promoters, increased LXRE-LXRα binding, and broadly altered hepatic expression of LXRα-regulated lipid metabolic genes. Diminished hepatic fatty acid ß-oxidation was associated with decreased mRNA expression of Pparα and its targets Cpt1, Aox, Lcad, Ehhadh, Hsd10 and Acaa2, and blunted VLDL export with decreased expression of Mttp and its product microsomal triglyceride transfer protein. With our previous findings that Vpr circulates in HIV patients (including those with undetectable plasma HIV-1 RNA), co-regulates the glucocorticoid receptor and PPARγ and transduces hepatocytes, these data indicate a potential role for Vpr in HIV-associated fatty liver disease.

Published
2017
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39. Association of TCF7L2 variation with single islet autoantibody expression in children with type 1 diabetes.

Author

Redondo MJ, Muniz J, Rodriguez LM, Iyer D, Vaziri-Sani F, Haymond MW, Hampe CS, Metzker ML, Grant SF, and Balasubramanyam A

Abstract

Background: The transcription factor 7-like 2 (TCF7L2) gene has the strongest genetic association with type 2 diabetes. TCF7L2 also associates with latent autoimmune diabetes in adults, which often presents with a single islet autoantibody, but not with classical type 1 diabetes., Methods: We aimed to test if TCF7L2 is associated with single islet autoantibody expression in pediatric type 1 diabetes. We studied 71 prospectively recruited children who had newly diagnosed type 1 diabetes and evidence of islet autoimmunity, that is, expressed ≥1 islet autoantibody to insulin, glutamic acid decarboxylase 65, islet cell autoantigen 512, or zinc transporter 8. TCF7L2 rs7903146 alleles were identified. Data at diagnosis were cross-sectionally analyzed., Results: We found that 21.1% of the children with autoimmune type 1 diabetes expressed a single islet autoantibody. The distribution of TCF7L2 rs7903146 genotypes in children with a single autoantibody (n=15) was 40% CC, 26.7% CT and 33.3% TT, compared with children with ≥2 islet autoantibodies (50% CC, 42.9% CT and 7.1% TT, p=0.024). Furthermore, compared with children with ≥2 autoantibodies, single-autoantibody children had characteristics reflecting milder autoimmune destruction of β-cells. Restricting to lean children (body mass index<85th centile; n=36), 45.5% of those expressing a single autoantibody were rs7903146 TT homozygotes, compared with 0% of those with ≥2 autoantibodies (p<0.0001)., Conclusion: These results suggest that, in children with only mild islet autoimmunity, mechanisms associated with TCF7L2 genetic variation contribute to diabetogenesis, and this contribution is larger in the absence of obesity.

Published
2014
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40. Impaired lipoprotein processing in HIV patients on antiretroviral therapy: aberrant high-density lipoprotein lipids, stability, and function.

Author

Gillard BK, Raya JL, Ruiz-Esponda R, Iyer D, Coraza I, Balasubramanyam A, and Pownall HJ

Subjects
Biomarkers blood, Cell Line, Tumor, Cholesterol Esters metabolism, Combined Modality Therapy, Diet, Exercise, Fibric Acids therapeutic use, HIV Infections blood, HIV Infections diagnosis, Hepatocytes metabolism, Humans, Hyperlipidemias blood, Hyperlipidemias therapy, Hypolipidemic Agents therapeutic use, Lipoproteins, LDL blood, Lipoproteins, VLDL blood, Niacin therapeutic use, Protein Stability, Receptors, Lipoprotein metabolism, Time Factors, Treatment Outcome, Triglycerides blood, Anti-Retroviral Agents adverse effects, HIV Infections drug therapy, Hyperlipidemias chemically induced, Lipoproteins, HDL blood
Abstract

Objective: HIV patients on antiretroviral therapy (HIV/ART) exhibit a unique atherogenic dyslipidemic profile with hypertriglyceridemia (HTG) and low plasma concentrations of high-density lipoprotein (HDL) cholesterol. In the Heart Positive Study of HIV/ART patients, a hypolipidemic therapy of fenofibrate, niacin, diet, and exercise reduced HTG and plasma non-HDL cholesterol concentrations and raised plasma HDL cholesterol and adiponectin concentrations. We tested the hypothesis that HIV/ART HDL have abnormal structures and properties and are dysfunctional., Approach and Results: Hypolipidemic therapy reduced the TG contents of low-density lipoprotein and HDL. At baseline, HIV/ART low-density lipoproteins were more triglyceride (TG)-rich and HDL were more TG- and cholesteryl ester-rich than the corresponding lipoproteins from normolipidemic (NL) subjects. Very-low-density lipoproteins, low-density lipoprotein, and HDL were larger than the corresponding lipoproteins from NL subjects; HIV/ART HDL were less stable than NL HDL. HDL-[(3)H]cholesteryl ester uptake by Huh7 hepatocytes was used to assess HDL functionality. HIV/ART plasma were found to contain significantly less competitive inhibition activity for hepatocyte HDL-cholesteryl ester uptake than NL plasma were found to contain (P<0.001)., Conclusions: Compared with NL subjects, lipoproteins from HIV/ART patients are larger and more neutral lipid-rich, and their HDL are less stable and less receptor-competent. On the basis of this work and previous studies of lipase activity in HIV, we present a model in which plasma lipolytic activities or hepatic cholesteryl ester uptake are impaired in HIV/ART patients. These findings provide a rationale to determine whether the distinctive lipoprotein structure, properties, and function of HIV/ART HDL predict atherosclerosis as assessed by carotid artery intimal medial thickness.

Published
2013
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41. Regulation of cardiac specific nkx2.5 gene activity by small ubiquitin-like modifier.

Author

Wang J, Zhang H, Iyer D, Feng XH, and Schwartz RJ

Subjects
Animals, COS Cells, Chlorocebus aethiops, HeLa Cells, Homeobox Protein Nkx-2.5, Humans, Models, Biological, Molecular Chaperones metabolism, Poly-ADP-Ribose Binding Proteins, Protein Inhibitors of Activated STAT metabolism, Protein Structure, Tertiary, SUMO-1 Protein metabolism, Small Ubiquitin-Related Modifier Proteins metabolism, Transcription, Genetic, Gene Expression Regulation, Homeodomain Proteins biosynthesis, Homeodomain Proteins physiology, Transcription Factors biosynthesis, Transcription Factors physiology
Abstract

The cardiac specific homeobox gene nkx2.5, a member of the nk-2 class family, plays a central role in cardiogenesis and is a target of the small ubiquitin-like modifier (SUMO). Nkx2.5 was modified by SUMO on its 51st amino acid, a lysine residue conserved across species but absent in other nk-2 members. Conversion of this lysine to an arginine (K51R) substantially reduced Nkx2.5 DNA binding and also its transcriptional activity. Unexpectedly, mutant K51R was targeted by ubiquitin. E3 ligase PIAS proteins PIAS1, PIASx, and PIASy, but not PIAS3, enhanced SUMO-1 attachment to Nkx2.5 on the primary SUMO acceptor site. SUMO-2 linkage to Nkx2.5 was catalyzed only by PIASx and not by other PIAS proteins. SUMO conjugation stabilized the formation of Nkx2.5-containing complexes that led to robust transcriptional activation. Thus, SUMO modification serves as a positive regulator for Nkx2.5 transcriptional activity.

Published
2008
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42. Association of amino-terminal-specific antiglutamate decarboxylase (GAD65) autoantibodies with beta-cell functional reserve and a milder clinical phenotype in patients with GAD65 antibodies and ketosis-prone diabetes mellitus.

Author

Hampe CS, Nalini R, Maldonado MR, Hall TR, Garza G, Iyer D, and Balasubramanyam A

Subjects
Adult, Aged, Antibody Specificity, Autoantibodies blood, Enzyme Activation immunology, Epitopes immunology, Epitopes metabolism, Female, Glutamate Decarboxylase metabolism, Humans, Isoenzymes metabolism, Male, Middle Aged, Phenotype, Radioligand Assay, Severity of Illness Index, Sulfur Radioisotopes, Autoantibodies immunology, Diabetes Mellitus, Type 1 immunology, Diabetic Ketoacidosis immunology, Glutamate Decarboxylase immunology, Insulin-Secreting Cells immunology, Isoenzymes immunology
Abstract

Context: We previously characterized patients presenting with diabetic ketoacidosis prospectively into four subgroups of ketosis-prone diabetes mellitus (KPDM), based on the presence or absence of beta-cell autoimmunity (A+ or A-) and beta-cell functional reserve (B+ or B-). The A+B- KPDM subgroup comprises patients with classic, autoimmune type 1 diabetes, whereas the A+B+ KPDM subgroup has only partial beta-cell loss and a distinct clinical phenotype., Objective: We hypothesized that epitope specificity of autoantibodies directed against the 65-kDa isoform of glutamate decarboxylase (GAD65) reflects differences in beta-cell destruction., Design: Sera of sequential GAD65Ab-positive KPDM patients admitted for diabetic ketoacidosis (n = 36) were analyzed for their epitope recognition using five GAD65-specific recombinant Fab and their ability to inhibit GAD65 enzymatic activity. All patients were followed longitudinally to assess beta-cell functional reserve and insulin dependence., Results: Binding to an amino-terminal epitope defined by monoclonal antibody DPD correlated positively with fasting serum C-peptide levels at baseline (P = 0.0008) and after 1 yr (P = 0.007). Binding to the DPD-defined epitope also correlated positively with area under the curve for C-peptide after glucagon stimulation (P = 0.007) and with homeostasis model assessment percent B at 1 yr (P = 0.03). Binding to the DPD-defined epitope was significantly stronger in A+B+ than in A+B- patients (P = 0.001). Sera of 16 patients (44%) significantly inhibited GAD65 enzymatic activity, but this did not correlate with beta-cell function., Conclusion: DPD-defined epitope specificity is correlated directly with preserved beta-cell functional reserve in GAD65Ab-positive patients and is associated with the milder clinical phenotype of A+B+ KPDM.

Published
2007
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43. Rise of plasma ghrelin with weight loss is not sustained during weight maintenance.

Author

Garcia JM, Iyer D, Poston WS, Marcelli M, Reeves R, Foreyt J, and Balasubramanyam A

Subjects
Adult, Analysis of Variance, Body Mass Index, Female, Follow-Up Studies, Ghrelin, Health Promotion methods, Humans, Insulin blood, Insulin Resistance physiology, Leptin blood, Middle Aged, Obesity blood, Obesity physiopathology, Radioimmunoassay methods, Time Factors, Waist-Hip Ratio, Body Weight physiology, Mexican Americans, Obesity therapy, Peptide Hormones blood, Weight Loss physiology
Abstract

Objective: Ghrelin is postulated to be an orexigenic signal that promotes weight regain after weight loss (WL). However, it is not known whether this putative effect of ghrelin is sustained after weight stabilization. The objective of this study was to investigate the relationship of plasma ghrelin concentrations to active WL and weight maintenance in obese subjects., Research Methods and Procedures: This study was a randomized clinical trial, with a 12-month follow-up period. Obese Mexican-American women matched for age and BMI were randomized to a 12-month WL program (n = 25) or no intervention (controls, n = 23). Interventions included diet, exercise, and orlistat. Body weight and fasting ghrelin, leptin, insulin, and glucose concentrations were measured at baseline and 6 and 12 months., Results: The WL group lost 8.5% of body weight after 6 months and maintained the new weight for the next 6 months. Ghrelin concentrations increased significantly at 6 months but returned to baseline at 12 months. Baseline ghrelin concentrations were directly related to the degree of WL achieved after 12 months. Controls experienced no change in BMI or ghrelin levels. There were no associations between plasma ghrelin and leptin or insulin concentrations., Discussion: Consistent with previous results, ghrelin rises in response to WL, perhaps as a counterregulatory mechanism. However, the present results indicate that ghrelin concentrations return to baseline with sustained weight maintenance, suggesting that its effects are unlikely to regulate long-term energy balance. Baseline ghrelin concentrations are related to the degree of WL that can be achieved by active weight reduction.

Published
2006
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44. Ketosis-prone diabetes: dissection of a heterogeneous syndrome using an immunogenetic and beta-cell functional classification, prospective analysis, and clinical outcomes.

Author

Maldonado M, Hampe CS, Gaur LK, D'Amico S, Iyer D, Hammerle LP, Bolgiano D, Rodriguez L, Rajan A, Lernmark A, and Balasubramanyam A

Subjects
Adolescent, Adult, Autoantibodies blood, Blood Glucose, Diabetes Mellitus, Type 1 ethnology, Diabetes Mellitus, Type 1 genetics, Diabetes Mellitus, Type 1 immunology, Diabetes Mellitus, Type 2 ethnology, Diabetes Mellitus, Type 2 genetics, Diabetes Mellitus, Type 2 immunology, Diabetic Ketoacidosis ethnology, Diabetic Ketoacidosis genetics, Diabetic Ketoacidosis immunology, Ethnicity, Female, Gene Frequency, Glutamate Decarboxylase immunology, Histocompatibility Testing, Humans, Isoenzymes immunology, Male, Middle Aged, Predictive Value of Tests, Diabetes Mellitus, Type 1 classification, Diabetes Mellitus, Type 2 classification, Diabetic Ketoacidosis classification, Islets of Langerhans immunology
Abstract

Ketosis-prone diabetes is heterogeneous. Its causes could include novel beta-cell functional defects. To characterize such defects, 103 patients with diabetic ketoacidosis were evaluated for beta-cell autoimmunity and human leukocyte antigen (HLA) class II alleles, with longitudinal measurements of beta-cell function and biochemical and clinical parameters. They were classified into four A beta groups, based on the presence of glutamic acid decarboxylase (GAD)65, GAD67, or IA-2 autoantibodies (A+ or A-) and beta-cell functional reserve (beta+ or beta-). The group distribution was: 18 A+beta-, 23 A-beta-, 11 A+beta+, and 51 A-beta+. Collectively, the two beta- groups differed from the two beta+ groups in earlier onset and longer duration of diabetes, lower body mass index, less glycemic improvement, and persistent insulin requirement. HLA class II genotyping showed that the A-beta- group differed from the A+beta- group in having lower frequencies of two alleles strongly associated with autoimmune type 1 diabetes susceptibility: DQA*03 and DQB1*02. Similarly, the A-beta+ group differed from the A+beta+ group in having a lower frequency of DQB1*02. Ketosis-prone diabetes comprises at least four etiologically distinct syndromes separable by autoantibody status, HLA genotype, and beta-cell functional reserve. Novel, nonautoimmune causes of beta-cell dysfunction are likely to underlie the A-beta+ and A-beta- syndromes.

Published
2003
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45. Improved outcomes in indigent patients with ketosis-prone diabetes: effect of a dedicated diabetes treatment unit.

Author

Maldonado MR, D'Amico S, Rodriguez L, Iyer D, and Balasubramanyam A

Subjects
Adult, Ambulatory Care economics, Diabetes Mellitus, Type 1 economics, Diabetes Mellitus, Type 2 economics, Diabetes Mellitus, Type 2 therapy, Female, Hospital Units economics, Humans, Hypoglycemic Agents therapeutic use, Insulin therapeutic use, Male, Multivariate Analysis, Patient Readmission economics, Patient Readmission statistics & numerical data, Proportional Hazards Models, Treatment Outcome, Diabetes Mellitus, Type 1 therapy, Hospital Units organization & administration, Uncompensated Care economics
Abstract

Objective: To investigate whether a specialized intervention program could improve diabetes-related health outcomes in indigent patients with type 1 diabetes who were prone to occurrence of diabetic ketoacidosis (DKA)., Methods: Patients with type 1 diabetes mellitus admitted because of DKA during a 24-month period were invited to receive outpatient care in a diabetes treatment unit (DTU). We compared DKA-related readmission rates, change in hemoglobin A1c (HbA1c) values, and diabetes-related medical costs in patients who participated in the DTU program (+DTU) and in those who did not (-DTU)., Results: During the study period, 115 patients underwent assessment. Of this overall group, 57 patients (49.6%) consented to participate in the DTU program, and 58 (50.4%) did not. After the follow-up period (median duration, 657 days), the following significant improvements were observed in the +DTU group (in comparison with the -DTU group): lower frequency of readmission for DKA (16% versus 43%; P = 0.001), lower number of readmissions for DKA per patient (0.22 +/- 0.6 versus 1.17 +/- 2.2 [mean +/- standard deviation]; P = 0.003), lower HbA1c level (10.4 +/- 2.3% versus 13.5 +/- 2.3%; P<0.0001), and lower cost of diabetes-related medical care (3,427.20 US dollars +/- 6,275.60 versus 10,119.10 US dollars +/- 19,688.10; P = 0.01). Multivariate analysis revealed that participation in the DTU program was the only factor associated with a significantly decreased risk of DKA-related readmission., Conclusion: Low-cost intervention by a dedicated outpatient DTU resulted in significant decreases in DKA-associated readmissions, in HbA1c values, and in costs of diabetes care in a multiethnic, indigent, ketosis-prone patient population.

Published
2003
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46. Combinatorial expression of GATA4, Nkx2-5, and serum response factor directs early cardiac gene activity.

Author

Sepulveda JL, Vlahopoulos S, Iyer D, Belaguli N, and Schwartz RJ

Subjects
Actins genetics, Animals, Cell Line, Chick Embryo, GATA4 Transcription Factor, Homeobox Protein Nkx-2.5, Promoter Regions, Genetic, DNA-Binding Proteins metabolism, Heart embryology, Homeodomain Proteins metabolism, Myocardium metabolism, Serum Response Factor metabolism, Transcription Factors metabolism, Xenopus Proteins
Abstract

Herein, the restricted expression of serum response factors (SRF) closely overlapped with Nkx2-5 and GATA4 transcripts in early chick embryos coinciding with the earliest appearance of cardiac alpha-actin (alphaCA) transcripts and nascent myocardial cells. The combinatorial expression of SRF, a MADS box factor Nkx2-5 (a NK4 homeodomain), and/or GATA4, a dual C4 zinc finger protein, in heterologous CV1 fibroblasts and Schneider 2 insect cells demonstrated synergistic induction of alphaCA promoter activity. These three factors induced endogenous alphaCA mRNA over a 100-fold in murine embryonic stem cells. In addition, the DNA-binding defective mutant Nkx2-5pm efficiently coactivated the alphaCA promoter in the presence of SRF and GATA4 in the presence of all four SREs and was substantially weakened when individual SREs were mutated and or serially deleted. In contrast, the introduction of SRFpm, a SRF DNA-binding mutant, blocked the activation with all of the alphaCA promoter constructions. These assays indicated a dependence upon cooperative SRF binding for facilitating the recruitment of Nkx2-5 and GATA4 to the alphaCA promoter. Furthermore, the recruitment of Nkx2-5 and GATA4 by SRF was observed to strongly enhance SRF DNA binding affinity. This mechanism allowed for the formation of higher ordered alphaCA promoter DNA binding complexes, led to a model of SRF physical association with Nkx2-5 and GATA4.

Published
2002
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