Browsing by Subject "Endocrinology"
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Item 12-Lipoxygenase governs the innate immune pathogenesis of islet inflammation and autoimmune diabetes(The American Society for Clinical Investigation, 2021-07-22) Kulkarni, Abhishek; Pineros, Annie R.; Walsh, Melissa A.; Casimiro, Isabel; Ibrahim, Sara; Hernandez-Perez, Marimar; Orr, Kara S.; Glenn, Lindsey; Nadler, Jerry L.; Morris, Margaret A.; Tersey, Sarah A.; Mirmira, Raghavendra G.; Anderson, Ryan M.; Pediatrics, School of MedicineMacrophages and related myeloid cells are innate immune cells that participate in the early islet inflammation of type 1 diabetes (T1D). The enzyme 12-lipoxygenase (12-LOX) catalyzes the formation of proinflammatory eicosanoids, but its role and mechanisms in myeloid cells in the pathogenesis of islet inflammation have not been elucidated. Leveraging a model of islet inflammation in zebrafish, we show here that macrophages contribute significantly to the loss of β cells and the subsequent development of hyperglycemia. The depletion or inhibition of 12-LOX in this model resulted in reduced macrophage infiltration into islets and the preservation of β cell mass. In NOD mice, the deletion of the gene encoding 12-LOX in the myeloid lineage resulted in reduced insulitis with reductions in proinflammatory macrophages, a suppressed T cell response, preserved β cell mass, and almost complete protection from the development of T1D. 12-LOX depletion caused a defect in myeloid cell migration, a function required for immune surveillance and tissue injury responses. This effect on migration resulted from the loss of the chemokine receptor CXCR3. Transgenic expression of the gene encoding CXCR3 rescued the migratory defect in zebrafish 12-LOX morphants. Taken together, our results reveal a formative role for innate immune cells in the early pathogenesis of T1D and identify 12-LOX as an enzyme required to promote their prodiabetogenic phenotype in the context of autoimmunity.Item An Animal Model of Combined Pituitary Hormone Deficiency Disease(2010-08) Colvin, Stephanie C.; Konieczny, Stephen F.; Rhodes, Simon J.; Walvoord, Emily C.; Belecky-Adams, Teri; Herring, B. Paul; Roper, RandallLHX3 is a LIM-homeodomain transcription factor that has essential roles in pituitary and nervous system development in mammals. Children who are homozygous for recessive mutations in the LHX3 gene present with combined pituitary hormone deficiency disease (CPHD) characterized by deficits of multiple anterior pituitary hormones. Most LHX3 patients also present with additional defects associated with the nervous system including a characteristic limited head rotation and sometimes deafness. However, of the 10 types of LHX3 mutation described to date, one mutation type (W224ter) does not result in the limited head rotation, defining a new form of the disease. W224ter patients have CPHD but do not have nervous system symptoms. Whereas other mutations in LHX3 cause loss of the entire protein or its activity, the W224ter mutation causes specific loss of the carboxyl terminal of the LHX3 protein—a region that we have shown to contain critical regulatory domains for pituitary gene activation. To better understand the molecular and cellular etiology of CPHD associated with LHX3 gene mutations, I have generated knock-in mice that model the human LHX3 W224ter disease. The resulting mice display marked dwarfism, thyroid disease, female infertility, and reduced male fertility. Immunohistochemistry, real-time quantitative polymerase chain reaction (PCR), and enzyme-linked immunosorbant assays (ELISA) were used to measure hormones and regulatory factor protein and RNA levels, an approach which is not feasible with human patients. We have generated a novel mouse model of human pediatric CPHD. Our findings are consistent with the hypothesis that the actions of the LHX3 factor are molecularly separable in the nervous system and pituitary gland.Item Antiremodeling Agents Influence Osteoblast Activity Differently in Modeling and Remodeling Sites of Canine Rib(Calcified Tissue International, 2006-10-10) Allen, Matthew R.; Follet, Helene; Khurana, M.; Sato, M.; Burr, David B.; Department of Anatomy & Cell Biology, IU School of MedicineAntiremodeling agents reduce bone loss in part through direct actions on osteoclasts. Their effects on osteoblasts and bone formation activity are less clear and may differ at sites undergoing modeling vs. remodeling. Skeletally mature intact beagles, 1–2 years old at the start of the study, were treated daily with clinically relevant doses of alendronate (0.10 or 0.20 mg/kg), risedronate (0.05 or 0.10 mg/kg), raloxifene (0.50 mg/kg), or vehicle (1 mL/kg). Dynamic bone formation parameters were histologically assessed on periosteal, endocortical/trabecular, and intracortical bone envelopes of the rib. Raloxifene significantly increased periosteal surface mineral apposition rate (MAR), a measure of osteoblast activity, compared to all other treatments (+108 to +175%, P < 0.02), while having no significant effect on MAR at either the endocortical/trabecular or intracortical envelope. Alendronate (both 0.10 and 0.20 doses) and risedronate (only the 0.10 dose) significantly (P ≤ 0.05) suppressed MAR on the endocortical/trabecular envelope, while none of the bisphosphonate doses significantly altered MAR at either the periosteal or intracortical envelopes compared to vehicle. Based on these results, we conclude that (1) at clinically relevant doses the two classes of antiremodeling agents, bisphosphonates and selective estrogen receptor modulators, exert differential effects on osteoblast activity in the canine rib and (2) this effect depends on whether modeling or remodeling is the predominant mechanism of bone formation.Item Autoimmune hyperphosphatemic tumoral calcinosis in a patient with FGF23 autoantibodies(American Society for Clinical Investigation, 2018-12-03) Roberts, Mary Scott; Burbelo, Peter D.; Egli-Spichtig, Daniela; Perwad, Farzana; Romero, Christopher J.; Ichikawa, Shoji; Farrow, Emily; Econs, Michael J.; Guthrie, Lori C.; Collins, Michael T.; Gafni, Rachel I.; Medicine, School of MedicineHyperphosphatemic familial tumoral calcinosis (HFTC)/hyperostosis-hyperphosphatemia syndrome (HHS) is an autosomal recessive disorder of ectopic calcification due to deficiency of or resistance to intact fibroblast growth factor 23 (iFGF23). Inactivating mutations in FGF23, N-acetylgalactosaminyltransferase 3 (GALNT3), or KLOTHO (KL) have been reported as causing HFTC/HHS. We present what we believe is the first identified case of autoimmune hyperphosphatemic tumoral calcinosis in an 8-year-old boy. In addition to the classical clinical and biochemical features of hyperphosphatemic tumoral calcinosis, the patient exhibited markedly elevated intact and C-terminal FGF23 levels, suggestive of FGF23 resistance. However, no mutations in FGF23, KL, or FGF receptor 1 (FGFR1) were identified. He subsequently developed type 1 diabetes mellitus, which raised the possibility of an autoimmune cause for hyperphosphatemic tumoral calcinosis. Luciferase immunoprecipitation systems revealed markedly elevated FGF23 autoantibodies without detectable FGFR1 or Klotho autoantibodies. Using an in vitro FGF23 functional assay, we found that the FGF23 autoantibodies in the patient's plasma blocked downstream signaling via the MAPK/ERK signaling pathway in a dose-dependent manner. Thus, this report describes the first case, to our knowledge, of autoimmune hyperphosphatemic tumoral calcinosis with pathogenic autoantibodies targeting FGF23. Identification of this pathophysiology extends the etiologic spectrum of hyperphosphatemic tumoral calcinosis and suggests that immunomodulatory therapy may be an effective treatment.Item Current issues in the presentation of asymptomatic primary hyperparathyroidism: proceedings of the Fourth International Workshop(Endocrine Society, 2014-10) Silverberg, Shonni J.; Clarke, Bart L.; Peacock, Munro; Bandeira, Francisco; Boutroy, Stephanie; Cusano, Natalie E.; Dempster, David; Lewiecki, E. Michael; Liu, Jian-Min; Minisola, Salvatore; Rejnmark, Lars; Silva, Barbara C.; Walker, Marcella D.; Bilezikian, John P.; Medicine, School of MedicineOBJECTIVE: This report summarizes data on traditional and nontraditional manifestations of primary hyperparathyroidism (PHPT) that have been published since the last International Workshop on PHPT. PARTICIPANTS: This subgroup was constituted by the Steering Committee to address key questions related to the presentation of PHPT. Consensus was established at a closed meeting of the Expert Panel that followed. EVIDENCE: Data from the 5-year period between 2008 and 2013 were presented and discussed to determine whether they support changes in recommendations for surgery or nonsurgical follow-up. CONSENSUS PROCESS: Questions were developed by the International Task Force on PHPT. A comprehensive literature search for relevant studies was undertaken. After extensive review and discussion, the subgroup came to agreement on what changes in the recommendations for surgery or nonsurgical follow-up of asymptomatic PHPT should be made to the Expert Panel. CONCLUSIONS: 1) There are limited new data available on the natural history of asymptomatic PHPT. Although recognition of normocalcemic PHPT (normal serum calcium with elevated PTH concentrations; no secondary cause for hyperparathyroidism) is increasing, data on the clinical presentation and natural history of this phenotype are limited. 2) Although there are geographic differences in the predominant phenotypes of PHPT (symptomatic, asymptomatic, normocalcemic), they do not justify geography-specific management guidelines. 3) Recent data using newer, higher resolution imaging and analytic methods have revealed that in asymptomatic PHPT, both trabecular bone and cortical bone are affected. 4) Clinically silent nephrolithiasis and nephrocalcinosis can be detected by renal imaging and should be listed as a new criterion for surgery. 5) Current data do not support a cardiovascular evaluation or surgery for the purpose of improving cardiovascular markers, anatomical or functional abnormalities. 6) Some patients with mild PHPT have neuropsychological complaints and cognitive abnormalities, and some of these patients may benefit from surgical intervention. However, it is not possible at this time to predict which patients with neuropsychological complaints or cognitive issues will improve after successful parathyroid surgery.Item Identification of direct transcriptional targets of NFATC2 that promote β cell proliferation(The American Society for Clinical Investigation, 2021) Simonett, Shane P.; Shin, Sunyoung; Herring, Jacob A.; Bacher, Rhonda; Smith, Linsin A.; Dong, Chenyang; Rabaglia, Mary E.; Stapleton, Donnie S.; Schueler, Kathryn L.; Choi, Jeea; Bernstein, Matthew N.; Turkewitz, Daniel R.; Perez-Cervantes, Carlos; Spaeth, Jason; Stein, Roland; Tessem, Jeffery S.; Kendziorski, Christina; Keleş, Sündüz; Moskowitz, Ivan P.; Keller, Mark P.; Attie, Alan D.; Pediatrics, School of MedicineThe transcription factor NFATC2 induces β cell proliferation in mouse and human islets. However, the genomic targets that mediate these effects have not been identified. We expressed active forms of Nfatc2 and Nfatc1 in human islets. By integrating changes in gene expression with genomic binding sites for NFATC2, we identified approximately 2200 transcriptional targets of NFATC2. Genes induced by NFATC2 were enriched for transcripts that regulate the cell cycle and for DNA motifs associated with the transcription factor FOXP. Islets from an endocrine-specific Foxp1, Foxp2, and Foxp4 triple-knockout mouse were less responsive to NFATC2-induced β cell proliferation, suggesting the FOXP family works to regulate β cell proliferation in concert with NFATC2. NFATC2 induced β cell proliferation in both mouse and human islets, whereas NFATC1 did so only in human islets. Exploiting this species difference, we identified approximately 250 direct transcriptional targets of NFAT in human islets. This gene set enriches for cell cycle–associated transcripts and includes Nr4a1. Deletion of Nr4a1 reduced the capacity of NFATC2 to induce β cell proliferation, suggesting that much of the effect of NFATC2 occurs through its induction of Nr4a1. Integration of noncoding RNA expression, chromatin accessibility, and NFATC2 binding sites enabled us to identify NFATC2-dependent enhancer loci that mediate β cell proliferation.Item Increased FGF23 protects against detrimental cardio-renal consequences during elevated blood phosphate in CKD(American Society for Clinical Investigation, 2019-02-21) Clinkenbeard, Erica L.; Noonan, Megan L.; Thomas, Joseph C.; Ni, Pu; Hum, Julia M.; Aref, Mohammad; Swallow, Elizabeth A.; Moe, Sharon M.; Allen, Matthew R.; White, Kenneth E.; Medical and Molecular Genetics, School of MedicineThe phosphaturic hormone FGF23 is elevated in chronic kidney disease (CKD). The risk of premature death is substantially higher in the CKD patient population, with cardiovascular disease (CVD) as the leading mortality cause at all stages of CKD. Elevated FGF23 in CKD has been associated with increased odds for all-cause mortality; however, whether FGF23 is associated with positive adaptation in CKD is unknown. To test the role of FGF23 in CKD phenotypes, a late osteoblast/osteocyte conditional flox-Fgf23 mouse (Fgf23fl/fl/Dmp1-Cre+/-) was placed on an adenine-containing diet to induce CKD. Serum analysis showed casein-fed Cre+ mice had significantly higher serum phosphate and blood urea nitrogen (BUN) versus casein diet and Cre- genotype controls. Adenine significantly induced serum intact FGF23 in the Cre- mice over casein-fed mice, whereas Cre+ mice on adenine had 90% reduction in serum intact FGF23 and C-terminal FGF23 as well as bone Fgf23 mRNA. Parathyroid hormone was significantly elevated in mice fed adenine diet regardless of genotype, which significantly enhanced midshaft cortical porosity. Echocardiographs of the adenine-fed Cre+ hearts revealed profound aortic calcification and cardiac hypertrophy versus diet and genotype controls. Thus, these studies demonstrate that increased bone FGF23, although associated with poor outcomes in CKD, is necessary to protect against the cardio-renal consequences of elevated tissue phosphate.Item Inhibition of the eukaryotic initiation factor-2α kinase PERK decreases risk of autoimmune diabetes in mice(American Society for Clinical Investigation, 2024-06-18) Muralidharan, Charanya; Huang, Fei; Enriquez, Jacob R.; Wang, Jiayi E.; Nelson, Jennifer B.; Nargis, Titli; May, Sarah C.; Chakraborty, Advaita; Figatner, Kayla T.; Navitskaya, Svetlana; Anderson, Cara M.; Calvo, Veronica; Surguladze, David; Mulvihill, Mark J.; Yi, Xiaoyan; Sarkar, Soumyadeep; Oakes, Scott A.; Webb-Robertson, Bobbie-Jo M.; Sims, Emily K.; Staschke, Kirk A.; Eizirik, Decio L.; Nakayasu, Ernesto S.; Stokes, Michael E.; Tersey, Sarah A.; Mirmira, Raghavendra G.; Pediatrics, School of MedicinePreventing the onset of autoimmune type 1 diabetes (T1D) is feasible through pharmacological interventions that target molecular stress–responsive mechanisms. Cellular stresses, such as nutrient deficiency, viral infection, or unfolded proteins, trigger the integrated stress response (ISR), which curtails protein synthesis by phosphorylating eukaryotic translation initiation factor-2α (eIF2α). In T1D, maladaptive unfolded protein response (UPR) in insulin-producing β cells renders these cells susceptible to autoimmunity. We found that inhibition of the eIF2α kinase PKR-like ER kinase (PERK), a common component of the UPR and ISR, reversed the mRNA translation block in stressed human islets and delayed the onset of diabetes, reduced islet inflammation, and preserved β cell mass in T1D-susceptible mice. Single-cell RNA-Seq of islets from PERK-inhibited mice showed reductions in the UPR and PERK signaling pathways and alterations in antigen-processing and presentation pathways in β cells. Spatial proteomics of islets from these mice showed an increase in the immune checkpoint protein programmed death-ligand 1 (PD-L1) in β cells. Golgi membrane protein 1, whose levels increased following PERK inhibition in human islets and EndoC-βH1 human β cells, interacted with and stabilized PD-L1. Collectively, our studies show that PERK activity enhances β cell immunogenicity and that inhibition of PERK may offer a strategy for preventing or delaying the development of T1D.Item Lipid mediators and biomarkers associated with type 1 diabetes development(American Society for Clinical Investigation, 2020-08-20) Nelson, Alexander J.; Stephenson, Daniel J.; Bone, Robert N.; Cardona, Christopher L.; Park, Margaret A.; Tusing, Ying G.; Lei, Xiaoyong; Kokotos, George; Graves, Christina L.; Mathews, Clayton E.; Kramer, Joanna; Hessner, Martin J.; Chalfant, Charles E.; Ramanadham, Sasanka; Pediatrics, School of MedicineType 1 diabetes (T1D) is a consequence of autoimmune β cell destruction, but the role of lipids in this process is unknown. We previously reported that activation of Ca2+-independent phospholipase A2β (iPLA2β) modulates polarization of macrophages (MΦ). Hydrolysis of the sn-2 substituent of glycerophospholipids by iPLA2β can lead to the generation of oxidized lipids (eicosanoids), pro- and antiinflammatory, which can initiate and amplify immune responses triggering β cell death. As MΦ are early triggers of immune responses in islets, we examined the impact of iPLA2β-derived lipids (iDLs) in spontaneous-T1D prone nonobese diabetic mice (NOD), in the context of MΦ production and plasma abundances of eicosanoids and sphingolipids. We find that (a) MΦNOD exhibit a proinflammatory lipid landscape during the prediabetic phase; (b) early inhibition or genetic reduction of iPLA2β reduces production of select proinflammatory lipids, promotes antiinflammatory MΦ phenotype, and reduces T1D incidence; (c) such lipid changes are reflected in NOD plasma during the prediabetic phase and at T1D onset; and (d) importantly, similar lipid signatures are evidenced in plasma of human subjects at high risk for developing T1D. These findings suggest that iDLs contribute to T1D onset and identify select lipids that could be targeted for therapeutics and, in conjunction with autoantibodies, serve as early biomarkers of pre-T1D.Item Osteoclast-derived IGF1 induces RANKL production in osteocytes and contributes to pagetic lesion formation(The American Society for Clinical Investigation, 2023-07-24) Miyagawa, Kazuaki; Tenshin, Hirofumi; Mulcrone, Patrick L.; Delgado-Calle, Jesus; Subler, Mark A.; Windle, Jolene J.; Chirgwin, John M.; Roodman, G. David; Kurihara, Noriyoshi; Medicine, School of MedicineWe previously reported that measles virus nucleocapsid protein (MVNP) expression in osteoclasts (OCLs) of patients with Paget disease (PD) or targeted to the OCL lineage in MVNP-transgenic mice (MVNP mice) increases IGF1 production in osteoclasts (OCL-IGF1) and leads to development of PD OCLs and pagetic bone lesions (PDLs). Conditional deletion of Igf1 in OCLs of MVNP mice fully blocked development of PDLs. In this study, we examined whether osteocytes (OCys), key regulators of normal bone remodeling, contribute to PD. OCys in PDLs of patients and of MVNP mice expressed less sclerostin, and had increased RANKL expression compared with OCys in bones from WT mice or normal patients. To test whether increased OCL-IGF1 is sufficient to induce PDLs and PD phenotypes, we generated TRAP-Igf1 (T-Igf1) transgenic mice to determine whether increased IGF1 expression in the absence of MVNP in OCLs is sufficient to induce PDLs and pagetic OCLs. We found that T-Igf1 mice at 16 months of age developed PD OCLs, PDLs, and OCys, with decreased sclerostin and increased RANKL, similar to MVNP mice. Thus, pagetic phenotypes could be induced by OCLs expressing increased IGF1. OCL-IGF1 in turn increased RANKL production in OCys to induce PD OCLs and PDLs.