Receptor, IGF Type 1

Publication Title: 
Journal of Medicinal Food

Terminalia chebula is a native plant from southern Asia to southwestern China that is used in traditional medicine for the treatment of malignant tumors and diabetes. This plant also has antibacterial and immunomodulatory properties. The present study assessed T. chebula extract-dependent protein expression changes in Jurkat cells. Matrix-assisted laser desorption/ionization-time-of-flight mass spectrometry and Ingenuity Pathways Analysis (IPA) were performed to assess protein expression and networks, respectively. A comparative proteomic profile was determined in T.

Author(s): 
Das, Nando Dulal
Jung, Kyoung Hwa
Park, Ji Hyun
Choi, Mi Ran
Lee, Hyung Tae
Kim, Moo Sung
Lee, Sang Rin
Chai, Young Gyu
Publication Title: 
Proceedings of the National Academy of Sciences of the United States of America

Rather than being a passive, haphazard process of wear and tear, lifespan can be modulated actively by components of the insulin/insulin-like growth factor I (IGFI) pathway in laboratory animals. Complete or partial loss-of-function mutations in genes encoding components of the insulin/IGFI pathway result in extension of life span in yeasts, worms, flies, and mice. This remarkable conservation throughout evolution suggests that altered signaling in this pathway may also influence human lifespan.

Author(s): 
Suh, Yousin
Atzmon, Gil
Cho, Mi-Ook
Hwang, David
Liu, Bingrong
Leahy, Daniel J.
Barzilai, Nir
Cohen, Pinchas
Publication Title: 
Geriatrics & Gerontology International

Lifespan can be lengthened by genetic and environmental modifications. Study of these might provide valuable insights into the mechanism of aging. Low doses of radiation and short-term exposure to heat and high concentrations of oxygen prolong the lifespan of the nematode Caenorhabditis elegans. These might be caused by adaptive responses to harmful environmental conditions. Single-gene mutations have been found to extend lifespan in C. elegans, Drosophila and mice. So far, the best-characterized system is the C.

Author(s): 
Honda, Yoko
Tanaka, Masashi
Honda, Shuji
Publication Title: 
Aging Cell

Dampening of insulin/insulin-like growth factor-1 (IGF1) signaling results in the extension of lifespan in invertebrate as well as murine models. The impact of this evolutionarily conserved pathway on the modulation of human lifespan remains unclear. We previously identified two IGF1R mutations (Ala-37-Thr and Arg-407-His) that are enriched in Ashkenazi Jewish centenarians as compared to younger controls and are associated with the reduced activity of the IGF1 receptor as measured in immortalized lymphocytes.

Author(s): 
Tazearslan, Cagdas
Huang, Jing
Barzilai, Nir
Suh, Yousin
Publication Title: 
NestlÈ Nutrition Workshop Series. Paediatric Programme

Insulin and insulin-like signaling regulate survival and lifespan in a variety of animal species, from nematodes and flies to higher vertebrates and mammals. Recently, it was shown that brain IGF-I receptor and brain IRS2 control mammalian lifespan, and that this occurs through neuroendocrine mechanisms, control of energy metabolism and modified stress resistance. Furthermore, it was demonstrated that insulin receptor substrate molecules are implicated downstream of insulin and IGF receptors in the extension of lifespan.

Author(s): 
Holzenberger, Martin
Publication Title: 
Science (New York, N.Y.)

A C. elegans neurosecretory signaling system regulates whether animals enter the reproductive life cycle or arrest development at the long-lived dauer diapause stage. daf-2, a key gene in the genetic pathway that mediates this endocrine signaling, encodes an insulin receptor family member. Decreases in DAF-2 signaling induce metabolic and developmental changes, as in mammalian metabolic control by the insulin receptor. Decreased DAF-2 signaling also causes an increase in life-span.

Author(s): 
Kimura, K. D.
Tissenbaum, H. A.
Liu, Y.
Ruvkun, G.
Publication Title: 
Best Practice & Research. Clinical Endocrinology & Metabolism

Research with invertebrates over the past 10 years has suggested that alterations in insulin and/or insulin-like growth factor I (IGF-I) signalling result in increased lifespan and retard ageing. In this chapter, we describe the current research in mammalian systems with respect to the role of insulin or IGF-I in ageing. Using rodent models of caloric restriction and genetic mouse models, e.g.

Author(s): 
Richardson, Arlan
Liu, Feng
Adamo, Martin L.
Van Remmen, Holly
Nelson, James F.
Publication Title: 
Current Topics in Developmental Biology

Ames dwarf mice and Snell dwarf mice lack growth hormone (GH), prolactin (PRL), and thyroid-stimulating hormone (TSH), live much longer than their normal siblings, and exhibit many symptoms of delayed aging. "Laron dwarf mice," produced by targeted disruption of the GH receptor/GH-binding protein gene (GHR-KO mice), are GH resistant and also live much longer than normal animals from the same line. Isolated GH deficiency in "little" mice is similarly associated with increased life span, provided that obesity is prevented by reducing fat content in the diet.

Author(s): 
Bartke, Andrzej
Brown-Borg, Holly
Publication Title: 
Annual Review of Nutrition

Caloric restriction (CR), the consumption of fewer calories without malnutrition, and reduced insulin and/or IGFI receptor signaling delay many age-related physiological changes and extend the lifespan of many model organisms. Here, we present and review microarray and biochemical studies indicating that the potent anticancer effects of CR and disrupted insulin/IGFI receptor signaling evolved as a byproduct of the role of many mitotic tissues as reservoirs of metabolic energy.

Author(s): 
Spindler, Stephen R.
Dhahbi, Joseph M.
Publication Title: 
Current biology: CB

The processes that determine an organism's lifespan are complex and poorly understood. Yet single gene manipulations and environmental interventions can substantially delay age-related morbidity. In this review, we focus on the two most potent modulators of longevity: insulin/insulin-like growth factor 1 (IGF-1) signaling and dietary restriction. The remarkable molecular conservation of the components associated with insulin/IGF-1 signaling and dietary restriction allow us to understand longevity from a multi-species perspective.

Author(s): 
Narasimhan, Sri Devi
Yen, Kelvin
Tissenbaum, Heidi A.

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