Abstract
Background: 125I-insulin and 125I-IGF-I distribution during internalization is seemingly a key condition that determines hormone functional role in a given organism. Endocytosis course of 125Iinsulin and 125I-IGF-I in isolated chicken hepatocytes occurred in different ways as compared with rat hepatocytes. 125I-insulin and 125I-IGF-I distribution across cell membrane during internalization was different in bird cells.
Objective: Analysis of their distribution across the cell membrane in chicken cells.
Methods: Hepatocytes were isolated according to Berry and Friend (with modifications). Hormone/ receptor complex internalization course was evaluated in a separate experiment with 125I-insulin or 125I-IGF-I. It included a four steps procedure: cells preincubation with labelled ligands at 6°C, incubation at 12°C and 37°C to activate internalization; two-stage cell washing with another buffer, and lastly, radioactivity was counted stepwise in first and second precipitates.
Results: 125I-insulin and 125I-IGF-I distribution across cell membrane during internalization into chicken hepatocytes considerably differed from the same peptides distribution in rat hepatocytes. In chicken hepatocytes, 125I-insulin distribution, temperature dependent in a variable manner, with clear “intracellular” type distribution at 6°C, and stable, resistant to changes in incubation temperature, “membrane” type of 125I-IGF-I distribution were revealed.
Conclusions: 125I-insulin and 125I-IGF-I distribution is a specific characteristic of internalization, which is capable of changing, despite retaining basic internalization characteristics of both insulin and IGF-I in the cells of different animal species. The differences of 125I-insulin and 125I-IGF-I distribution types in chicken and rat cells, allow us to guess correctly other functional roles of insulin and IGF-I in birds as compared with mammals.
Keywords: Insulin, IGF-I, receptor, endocytosis, internalization, temperature, hepatocytes, phylogenesis.
Graphical Abstract
Current Chemical Biology
Title:125I-Insulin and 125I-Insulinlike Growth Factor-I in Chicken Hepatocytes Internalization. The Peptides Distribution and Action in Birds
Volume: 12 Issue: 2
Author(s): A.P. Kolychev*E.E. Ternovskaya
Affiliation:
- Laboratory of Enzymes Comparative Biochemistry, Sechenov Institute of Evolutionary Physiology and Biochemistry (Russian Academy of Sciences), Saint-Petersburg,Russian Federation
Keywords: Insulin, IGF-I, receptor, endocytosis, internalization, temperature, hepatocytes, phylogenesis.
Abstract: Background: 125I-insulin and 125I-IGF-I distribution during internalization is seemingly a key condition that determines hormone functional role in a given organism. Endocytosis course of 125Iinsulin and 125I-IGF-I in isolated chicken hepatocytes occurred in different ways as compared with rat hepatocytes. 125I-insulin and 125I-IGF-I distribution across cell membrane during internalization was different in bird cells.
Objective: Analysis of their distribution across the cell membrane in chicken cells.
Methods: Hepatocytes were isolated according to Berry and Friend (with modifications). Hormone/ receptor complex internalization course was evaluated in a separate experiment with 125I-insulin or 125I-IGF-I. It included a four steps procedure: cells preincubation with labelled ligands at 6°C, incubation at 12°C and 37°C to activate internalization; two-stage cell washing with another buffer, and lastly, radioactivity was counted stepwise in first and second precipitates.
Results: 125I-insulin and 125I-IGF-I distribution across cell membrane during internalization into chicken hepatocytes considerably differed from the same peptides distribution in rat hepatocytes. In chicken hepatocytes, 125I-insulin distribution, temperature dependent in a variable manner, with clear “intracellular” type distribution at 6°C, and stable, resistant to changes in incubation temperature, “membrane” type of 125I-IGF-I distribution were revealed.
Conclusions: 125I-insulin and 125I-IGF-I distribution is a specific characteristic of internalization, which is capable of changing, despite retaining basic internalization characteristics of both insulin and IGF-I in the cells of different animal species. The differences of 125I-insulin and 125I-IGF-I distribution types in chicken and rat cells, allow us to guess correctly other functional roles of insulin and IGF-I in birds as compared with mammals.
Export Options
About this article
Cite this article as:
Kolychev A.P.*, Ternovskaya E.E., 125I-Insulin and 125I-Insulinlike Growth Factor-I in Chicken Hepatocytes Internalization. The Peptides Distribution and Action in Birds, Current Chemical Biology 2018; 12 (2) . https://dx.doi.org/10.2174/2212796812666180524095558
DOI https://dx.doi.org/10.2174/2212796812666180524095558 |
Print ISSN 2212-7968 |
Publisher Name Bentham Science Publisher |
Online ISSN 1872-3136 |

- Author Guidelines
- Bentham Author Support Services (BASS)
- Graphical Abstracts
- Fabricating and Stating False Information
- Research Misconduct
- Post Publication Discussions and Corrections
- Publishing Ethics and Rectitude
- Increase Visibility of Your Article
- Archiving Policies
- Peer Review Workflow
- Order Your Article Before Print
- Promote Your Article
- Manuscript Transfer Facility
- Editorial Policies
- Allegations from Whistleblowers
- Announcements
Related Articles
-
Large Porous Hollow Particles: Lightweight Champions of Pulmonary Drug Delivery
Current Pharmaceutical Design Dendrimers: General Aspects, Applications and Structural Exploitations as Prodrug/Drug-delivery Vehicles in Current Medicine
Mini-Reviews in Medicinal Chemistry Circulating Nucleic Acids in Plasma and Serum: Roles in Diagnosis and Prognosis in Diabetes and Cancer
Infectious Disorders - Drug Targets Liver X Receptor: Crosstalk Node for the Signaling of Lipid Metabolism,Carbohydrate Metabolism, and Innate Immunity
Current Signal Transduction Therapy Psoriasis and Vascular Risk : An Update
Current Pharmaceutical Design The Role of Physical Activity in the Development and Prevention of Overweight and Obesity in Childhood
Current Nutrition & Food Science Imatinib Mesylate for the Treatment of Solid Tumours: Recent Trials and Future Directions
Current Enzyme Inhibition The Therapeutic Potential of Rutin for Diabetes: An Update
Mini-Reviews in Medicinal Chemistry Pharmacological Management of Hypertension in the Elderly - Certitudes and Controversies
Current Pharmaceutical Design Phosphate-Affinity Gel Electrophoresis Using a Phos-Tag Molecule for Phosphoproteome Study
Current Proteomics Outcome of Heart Failure with Preserved Ejection Fraction: A Multicentre Spanish Registry
Current Cardiology Reviews Hormone-Biological Therapy in Breast Cancer: Preclinical Evidence,Clinical Studies and Future Directions
Current Cancer Drug Targets Editorial on the Occasion of the 20th Anniversary of Endocrine Metabolic Immune Disorders-Drug Targets Journal with a Kaleidoscopic Vision of Selected Publications
Endocrine, Metabolic & Immune Disorders - Drug Targets Inflammatory Cardiovascular Risk Markers in Obstructive Sleep Apnoea Syndrome
Cardiovascular & Hematological Agents in Medicinal Chemistry Evaluation of Oxidative Status with Exhaled Breath 8-isoprostane Levels in Patients with Hyperthyroidism
Endocrine, Metabolic & Immune Disorders - Drug Targets MicroRNA Expression Analysis of Adult-Onset Drosophila Alzheimer`s Disease Model
Current Alzheimer Research Myocardial Infarction with and without ST-segment Elevation: a Contemporary Reappraisal of Similarities and Differences
Current Cardiology Reviews A Review of IGF1 Signaling and IGF1-related Long Noncoding RNAs in Chemoresistance of Cancer
Current Cancer Drug Targets Peroxynitrite-Driven Mechanisms in Diabetes and Insulin Resistance – the Latest Advances
Current Medicinal Chemistry Colorectal Cancer – Increased Multidimensional Understanding of the Molecular Genesis
Current Cancer Therapy Reviews