Exon Splice Enhancer Mutation (GH-E32A) Causes Autosomal Dominant Growth Hormone Deficiency

Abstract Context and Objective: Alteration of exon splice enhancers (ESE) may cause autosomal dominant GH deficiency (IGHD II). Disruption analysis of a (GAA) (n) ESE motif within exon 3 by introducing single-base mutations has shown that single nucleotide mutations within ESE1 affect pre-mRNA splicing. Design, Setting, and Patients: Confirming the laboratory-derived data, a heterozygous splice enhancer mutation in exon 3 (exon 3 + 2 A→C) coding for GH-E32A mutation of the GH-1 gene was found in two independent pedigrees, causing familial IGHD II. Because different ESE mutations have a variable impact on splicing of exon 3 of GH and therefore on the expression of the 17.5-kDa GH mutant form, the GH-E32A was studied at the cellular level. Interventions and Results: The splicing of GH-E32A, assessed at the protein level, produced significantly increased amounts of 17.5-kDa GH isoform (55% of total GH protein) when compared with the wt-GH. AtT-20 cells coexpressing both wt-GH and GH-E32A presented a significant reduction in cell proliferation as well as GH production after forskolin stimulation when compared with the cells expressing wt-GH. These results were complemented with confocal microscopy analysis, which revealed a significant reduction of the GH-E32A-derived isoform colocalized with secretory granules, compared with wt-GH. Conclusion: GH-E32A mutation found within ESE1 weakens recognition of exon 3 directly, and therefore, an increased production of the exon 3-skipped 17.5-kDa GH isoform in relation to the 22-kDa, wt-GH isoform was found. The GH-E32A mutant altered stimulated GH production as well as cell proliferation, causing IGHD II.

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An Exon Splice Enhancer Mutation Causes Autosomal Dominant GH Deficiency

The Journal of Clinical Endocrinology & Metabolism ◽

10.1210/jcem.87.2.8236 ◽

2002 ◽

Vol 87 (2) ◽

pp. 847-852 ◽

Cited By ~ 44

Author(s):

Chanda T. Moseley ◽

Primus E. Mullis ◽

Melissa A. Prince ◽

John A. Phillips

Keyword(s):

Autosomal Dominant ◽

Gh Deficiency ◽

Splice Enhancer ◽

Exon Splice

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Isolated Autosomal Dominant Growth Hormone Deficiency: Stimulating MutantGH-1Gene Expression DrivesGH-1Splice-Site Selection, Cell Proliferation, and Apoptosis

Endocrinology ◽

10.1210/en.2006-0772 ◽

2007 ◽

Vol 148 (1) ◽

pp. 45-53 ◽

Cited By ~ 23

Author(s):

Souzan Salemi ◽

Shida Yousefi ◽

Didier Lochmatter ◽

Andrée Eblé ◽

Johnny Deladoëy ◽

...

Keyword(s):

Growth Hormone ◽

Cell Proliferation ◽

Growth Hormone Deficiency ◽

Site Selection ◽

Autosomal Dominant ◽

Hormone Deficiency ◽

Proliferation And Apoptosis

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Variability of isolated autosomal dominant GH deficiency (IGHD II): impact of the P89L GH mutation on clinical follow-up and GH secretion

Acta Endocrinologica ◽

10.1530/eje.1.02041 ◽

2005 ◽

Vol 153 (6) ◽

pp. 791-802 ◽

Cited By ~ 27

Author(s):

Souzan Salemi ◽

Shida Yousefi ◽

Kurt Baltensperger ◽

Iain C A F Robinson ◽

Andrée Eblé ◽

...

Keyword(s):

Pituitary Gland ◽

Missense Mutation ◽

Secretory Pathway ◽

Autosomal Dominant ◽

Gh Deficiency ◽

Secretory Granules ◽

Cellular Level ◽

Gh Secretion ◽

The Impact

Objective: Four distinct familial types of isolated GH deficiency (IGHD) are classified, of which type II, IGHD II, is the autosomal dominant inherited form. Based on clinical data, it became evident that there is a wide variability in phenotype among the various GH-1 gene alterations leading to the disorder. As subjects suffering from IGHD II caused by the specific missense mutated P89L GH (C6129T) have never been reported in detail, the aim was to analyse the impact of this mutated GH form on its clinical follow-up as well as to study its effect at the cellular level in comparison with the most common missense mutation R183H GH (G6664A). Methods: Twelve subjects belonging to four families presenting with P89L GH were clinically compared with 17 subjects from 5 families with the R183H GH missense mutation. Further, co-localization of the wild-type (wt-type) and mutant GH forms was studied in AtT-20 cells, mouse pituitary gland, applying quantitative confocal microscopy analysis. Using immunofluorescent techniques, cells were double stained for GH and one of the following organelles: endoplasmic reticulum (anti-Grp94), Golgi (anti-βCOP) and secretory granules (anti-Rab3a). In addition, GH secretion and cell viability was analysed in detail. Results: Importantly, as well as growth hormone deficiency, eight out of twelve subjects with the P89L mutated GH form developed other endocrine deficits and the pituitary gland became smaller over time (P < 0.05). At the cellular level, quantitative analysis of the variable mutants expressed in AtT-20 cells revealed a different extent of co-localization, different effects on GH secretion, and, therefore, a different impact on the secretory pathway which might be caused by different folding or aggregation problems necessary for sorting, packaging and/or secretion through the regulated secretory pathway. Conclusions: Our results show that specific and detailed analyses of the different mutations identified in IGHD II may shed light on the different mechanisms of secretory pathophysiology, and may provide a better explanation of the range of clinical features associated with GH missense isoforms. Importantly, the findings in patients with P89L GH extend beyond classical IGHD and stress the need for continued clinical vigilance in IGHD II patients for the development of other hormonal deficiencies.

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Transient IgA-lambda paraproteinemia during treatment of acute myelomonoblastic leukemia

Blood ◽

10.1182/blood.v55.1.21.21 ◽

1980 ◽

Vol 55 (1) ◽

pp. 21-25 ◽

Cited By ~ 8

Author(s):

B Van Camp ◽

P Reynaerts ◽

JP Naets ◽

J Radl

Keyword(s):

Bone Marrow ◽

Cell Proliferation ◽

Clonal Expansion ◽

Cellular Level ◽

Light Chains ◽

Antibody Activity ◽

Intensive Chemotherapy ◽

Bone Marrow Aplasia ◽

Large Panel ◽

Common Antigens

Abstract Monoclonal plasma cell proliferation with secretion of IgA-lambda and free lambda light chains during a phase of bone marrow aplasia following intensive chemotherapy was observed in a patient suffering from acute myelomonoblastic leukemia. The clonal expansion and regression was investigated at the cellular level by immunofluorescence using an antiserum against the idiotype of the paraportein. Although a large panel of common antigens was used for testing, no antibody activity of the paraprotein could be demonstrated.

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UV-microscopic analysis of acetylated spruce and birch cell walls

Holzforschung ◽

10.1515/hf.2004.073 ◽

2004 ◽

Vol 58 (5) ◽

pp. 483-488 ◽

Cited By ~ 7

Author(s):

Christian Hansmann ◽

Manfred Schwanninger ◽

Barbara Stefke ◽

Barbara Hinterstoisser ◽

Wolfgang Gindl

Keyword(s):

Cell Walls ◽

Middle Lamella ◽

Microscopic Analysis ◽

Weight Percent ◽

Cellular Level ◽

Uv Spectrum ◽

Spectral Shifts ◽

Microscopy Analysis ◽

Absorbance Peak ◽

Absorbance Spectra

Abstract Spruce and birch earlywood was acetylated to different weight percent gains using three different acetylation procedures. The absorbance spectra of secondary cell wall and compound cell corner middle lamella were determined by means of UV microscopy. Analysis of the spectra showed that the characteristic lignin absorbance peak in the UV spectrum of wood around 280 nm shifted to shorter wavelengths in acetylated samples. A distinct relationship between achieved weight percent gains after acetylation and observed spectral shifts could be established revealing a certain potential to measure acetylation on a cellular level by means of UV microscopy.

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Extended logistic growth model for heterogeneous populations

10.1101/231100 ◽

2017 ◽

Author(s):

Wang Jin ◽

Scott W McCue ◽

Matthew J Simpson

Keyword(s):

Cell Proliferation ◽

Growth Model ◽

Numerical Solutions ◽

Cellular Level ◽

Logistic Growth ◽

Logistic Growth Model ◽

Living Tissues ◽

Discrete Mathematical Model ◽

The Continuum

AbstractCell proliferation is the most important cellular-level mechanism responsible for regulating cell population dynamics in living tissues. Modern experimental procedures show that the proliferation rates of individual cells can vary significantly within the same cell line. However, in the mathematical biology literature, cell proliferation is typically modelled using a classical logistic equation which neglects variations in the proliferation rate. In this work, we consider a discrete mathematical model of cell migration and cell proliferation, modulated by volume exclusion (crowding) effects, with variable rates of proliferation across the total population. We refer to this variability as heterogeneity. Constructing the continuum limit of the discrete model leads to a generalisation of the classical logistic growth model. Comparing numerical solutions of the model to averaged data from discrete simulations shows that the new model captures the key features of the discrete process. Applying the extended logistic model to simulate a proliferation assay using rates from recent experimental literature shows that neglecting the role of heterogeneity can, at times, lead to misleading results.

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Tanshinone IIA Inhibits Osteosarcoma Growth through a Src Kinase-Dependent Mechanism

Evidence-based Complementary and Alternative Medicine ◽

10.1155/2021/5563691 ◽

2021 ◽

Vol 2021 ◽

pp. 1-15

Author(s):

Chao Hu ◽

Xiaobin Zhu ◽

Taogen Zhang ◽

Zhouming Deng ◽

Yuanlong Xie ◽

...

Keyword(s):

Cell Cycle ◽

Cell Proliferation ◽

Signaling Pathways ◽

Cell Lines ◽

Src Kinase ◽

Akt Signaling ◽

Cellular Level ◽

Tanshinone Iia

Introduction. Osteosarcoma is a malignant tumor associated with high mortality rates due to the toxic side effects of current therapeutic methods. Tanshinone IIA can inhibit cell proliferation and promote apoptosis in vitro, but the exact mechanism is still unknown. The aims of this study are to explore the antiosteosarcoma effect of tanshinone IIA via Src kinase and demonstrate the mechanism of this effect. Materials and Methods. Osteosarcoma MG-63 and U2-OS cell lines were stable transfections with Src-shRNA. Then, the antiosteosarcoma effect of tanshinone IIA was tested in vitro. The protein expression levels of Src, p-Src, p-ERK1/2, and p-AKt were detected by Western blot and RT-PCR. CCK-8 assay and BrdU immunofluorescence assay were used to detect cell proliferation. Transwell assay, cell scratch assay, and flow cytometry were used to detect cell invasion, migration, and cell cycle. Tumor-bearing nude mice with osteosarcoma were constructed. The effect of tanshinone IIA was detected by tumor HE staining, tumor inhibition rate, incidence of lung metastasis, and X-ray. Results. The oncogene role of Src kinase in osteosarcoma is reflected in promoting cell proliferation, invasion, and migration and in inhibiting apoptosis. However, Src has different effects on cell proliferation, apoptosis, and cell cycle regulation among cell lines. At a cellular level, the antiosteosarcoma effect of tanshinone IIA is mediated by Src downstream of the MAPK/ERK and PI3K/AKt signaling pathways. At the animal level, tanshinone IIA played a role in resisting osteosarcoma formation by Src downstream of the MAPK/ERK and PI3K/AKt signaling pathways. Conclusion. Tanshinone IIA plays an antiosteosarcoma role in vitro and in vivo and inhibits the progression of osteosarcoma mediated by Src downstream of the MAPK/ERK and PI3K/AKt signaling pathways.

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Suppression of Synaptotagmin II restrains phorbolester-induced downregulation of protein kinase Cα by diverting the kinase from a degradative pathway to the recycling endocytic compartment

Journal of Cell Science ◽

10.1242/jcs.115.15.3083 ◽

2002 ◽

Vol 115 (15) ◽

pp. 3083-3092 ◽

Cited By ~ 1

Author(s):

Ze Peng ◽

Elena Grimberg ◽

Ronit Sagi-Eisenberg

Keyword(s):

Plasma Membrane ◽

Protein Kinase ◽

Phorbol Esters ◽

Secretory Granules ◽

Critical Factor ◽

Cellular Level ◽

Endocytic Compartment ◽

Early Endosomes ◽

Protein Kinase Cα ◽

Rbl Cells

Downregulation of protein kinase Cα (PKCα) following long-term exposure to phorbol esters such as TPA is traffic dependent and involves delivery of the active, membrane-associated PKCα to endosomes. In this study, we show that synaptotagmin II (Syt II), a member of the Syt family of proteins, is required for TPA-induced degradation of PKCα. Thus, whereas the kinase half-life in TPA-treated cultured mast cells (the mast cell line rat basophilic leukemia RBL-2H3) is 2 hours, it is doubled in RBL-Syt II- cells, in which the cellular level of Syt II is reduced by>95% by transfection with Syt II antisense cDNA. We demonstrate that in TPA-treated RBL cells, PKCα travels from the cytosol to the plasma membrane, where it is delivered to early endosomes on its route to degradation. By contrast, in TPA-treated RBL-Syt II- cells,PKCα is diverted to recycling endosomes and remains distributed between the plasma membrane and the perinuclear recycling endocytic compartment. Notably, in both RBL and RBL-Syt II- cells, a fraction of PKCα is delivered and maintained in the secretory granules (SG). These results implicate Syt II as a critical factor for the delivery of internalized cargo for degradation. As shown here, one consequence of Syt II suppression is a delay in PKCα downregulation, resulting in its prolonged signaling.

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Huntington’s Disease—An Outlook on the Interplay of the HTT Protein, Microtubules and Actin Cytoskeletal Components

Cells ◽

10.3390/cells9061514 ◽

2020 ◽

Vol 9 (6) ◽

pp. 1514 ◽

Cited By ~ 2

Author(s):

Aleksandra S. Taran ◽

Lilia D. Shuvalova ◽

Maria A. Lagarkova ◽

Irina B. Alieva

Keyword(s):

Huntington's Disease ◽

Huntington’S Disease ◽

Autosomal Dominant ◽

Cell Physiology ◽

Mutant Form ◽

Striatal Neurons ◽

Molecular Processes ◽

Wild Type ◽

Cellular Processes ◽

Cell Structures

Huntington’s disease is a severe and currently incurable neurodegenerative disease. An autosomal dominant mutation in the Huntingtin gene (HTT) causes an increase in the polyglutamine fragment length at the protein N-terminus. The consequence of the mutation is the death of neurons, mostly striatal neurons, leading to the occurrence of a complex of motor, cognitive and emotional-volitional personality sphere disorders in carriers. Despite intensive studies, the functions of both mutant and wild-type huntingtin remain poorly understood. Surprisingly, there is the selective effect of the mutant form of HTT even on nervous tissue, whereas the protein is expressed ubiquitously. Huntingtin plays a role in cell physiology and affects cell transport, endocytosis, protein degradation and other cellular and molecular processes. Our experimental data mining let us conclude that a significant part of the Huntingtin-involved cellular processes is mediated by microtubules and other cytoskeletal cell structures. The review attempts to look at unresolved issues in the study of the huntingtin and its mutant form, including their functions affecting microtubules and other components of the cell cytoskeleton.

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