Structural and Biological Properties of the Drosophila Insulin-like Peptide 5 Show Evolutionary Conservation

Sajid, Waseem; Kulahin, Nikolaj; Schluckebier, G.; Ribel, Ulla; Henderson, Hope R; Tatar, Marc; Hansen, Bo F.; Svendsen, Angela Manegold; Kiselyov, Vladislav V.; Nørgaard, Per; Wahlund, Per-Olof; Brandt, Jakob; Kohanski, Ronald A.; Andersen, Asser S.; Meyts, Pierre De

doi:10.1074/jbc.m110.156018

Cited by 57 publications

(90 citation statements)

References 66 publications

(62 reference statements)

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“…Wen et al (Wen et al, 2010) showed that A. aegypti ILP3 bound to MIR in isolated ovary membranes with much higher affinity than did ILP4 or bovine insulin, indicating that the MIR varies in its affinity for endogenous ILPs as well as for mammalian insulin. Similarly, the Drosophila melanogaster insulin receptor can respond to different ILP ligands, as shown by the ability of DILP5 isoforms and IGFs to competitively displace human insulin from the fruit fly insulin receptor (Sajid et al, 2011).…”

Section: Discussionmentioning

confidence: 99%

Human IGF1 extends lifespan and enhances resistance to Plasmodium falciparum infection in the malaria vector Anopheles stephensi

Drexler

Nuss

Hauck

et al. 2013

Journal of Experimental Biology

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SUMMARYThe highly conserved insulin/insulin-like growth factor (IGF) signaling (IIS) pathway regulates metabolism, development, lifespan and immunity across a wide range of organisms. Previous studies have shown that human insulin ingested in the blood meal can activate mosquito IIS, resulting in attenuated lifespan and increased malaria parasite infection. Because human IGF1 is present at higher concentrations in blood than insulin and is functionally linked with lifespan and immune processes, we predicted that human IGF1 ingested in a blood meal would affect lifespan and malaria parasite infection in the mosquito Anopheles stephensi. Here we demonstrate that physiological levels of ingested IGF1, like insulin, can persist intact in the blood-filled midgut for up to 30h and disseminate into the mosquito body, and that both peptides activate IIS in mosquito cells and midgut. At these same levels, ingested IGF1 alone extended average mosquito lifespan by 23% compared with controls and, more significantly, when ingested in infected blood meals, reduced the prevalence of Plasmodium falciparum-infected mosquitoes by >20% and parasite load by 35-50% compared with controls. Thus, the effects of ingested IGF1 on mosquito lifespan and immunity are opposite to those of ingested insulin. These results offer the first evidence that insect cells can functionally discriminate between mammalian insulin and IGF1. Further, in light of previous success in genetically targeting IIS to alter mosquito lifespan and malaria parasite transmission, this study indicates that a more complete understanding of the IIS-activating ligands in blood can be used to optimize transgenic strategies for malaria control.

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Section: Discussionmentioning

confidence: 99%

Human IGF1 extends lifespan and enhances resistance to Plasmodium falciparum infection in the malaria vector Anopheles stephensi

Drexler

Nuss

Hauck

et al. 2013

Journal of Experimental Biology

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“…IPCs are found in the anterior brain and consist of seven cell bodies in each brain lobe, positioned bilaterally in both the larva and the adult. Ilps, which exhibit structural similarity to human insulin, bind and activate a highly conserved insulin receptor that can also be activated by insulin (Nässel et al, 2015;Sajid et al, 2011;Sekine et al, 2010). Accordingly, IPCs and Ilps regulate metabolic homeostasis and obesity in a manner analogous to that of the pancreatic β-cell; thus, IPC ablation leads to hyperglycemia (Rulifson et al, 2002).…”

Section: Neurosecretory Cellsmentioning

confidence: 99%

Drosophilaas a model to study obesity and metabolic disease

Musselman

Kühnlein

2018

Journal of Experimental Biology

176

130

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Excess adipose fat accumulation, or obesity, is a growing problem worldwide in terms of both the rate of incidence and the severity of obesity-associated metabolic disease. Adipose tissue evolved in animals as a specialized dynamic lipid storage depot: adipose cells synthesize fat (a process called lipogenesis) when energy is plentiful and mobilize stored fat (a process called lipolysis) when energy is needed. When a disruption of lipid homeostasis favors increased fat synthesis and storage with little turnover owing to genetic predisposition, overnutrition or sedentary living, complications such as diabetes and cardiovascular disease are more likely to arise. The vinegar fly Drosophila melanogaster (Diptera: Drosophilidae) is used as a model to better understand the mechanisms governing fat metabolism and distribution. Flies offer a wealth of paradigms with which to study the regulation and physiological effects of fat accumulation. Obese flies accumulate triacylglycerols in the fat body, an organ similar to mammalian adipose tissue, which specializes in lipid storage and catabolism. Discoveries in Drosophila have ranged from endocrine hormones that control obesity to subcellular mechanisms that regulate lipogenesis and lipolysis, many of which are evolutionarily conserved. Furthermore, obese flies exhibit pathophysiological complications, including hyperglycemia, reduced longevity and cardiovascular functionsimilar to those observed in obese humans. Here, we review some of the salient features of the fly that enable researchers to study the contributions of feeding, absorption, distribution and the metabolism of lipids to systemic physiology.

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“…evolutionary conserved and ubiquitous factors historically involved in the regulation of energy metabolism, have been the subject of thorough investigations. In humans, ILPs include insulin, IGF1, IGF2, and seven relaxin-related peptides, which share the same basic fold (Sajid et al 2011). In the present review, the term 'ILP' will be used to indicate insulin and IGFs, whereas relaxin-related peptides will not be discussed.…”

Section: Introductionmentioning

confidence: 99%

“…IGF1 production in the liver is stimulated by GH (Blethen et al 1981, Madsen et al 1983. IGFs have characteristics of both hormones and tissue growth factors, and consequently, they can induce both local and systemic responses (Blundell et al 1978, Sajid et al 2011. Tissues that classically respond to IGFs preferentially express the IGF1R, and nonclassic target tissues including cancer cells express both the latter receptor and IR-A genes and may display hybrid receptors as well, which probably account in carcinogenesis and chemoresistance (Artim et al 2012, Pierre-Eugene et al 2012.…”

Section: Introductionmentioning

confidence: 99%

Insulin resistance and cancer: the role of insulin and IGFs

Djiogue¹,

Kamdje²,

Vecchio³

et al. 2012

Endocrine-Related Cancer

229

188

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Insulin, IGF1, and IGF2 are the most studied insulin-like peptides (ILPs). These are evolutionary conserved factors well known as key regulators of energy metabolism and growth, with crucial roles in insulin resistance-related metabolic disorders such as obesity, diseases like type 2 diabetes mellitus, as well as associated immune deregulations. A growing body of evidence suggests that insulin and IGF1 receptors mediate their effects on regulating cell proliferation, differentiation, apoptosis, glucose transport, and energy metabolism by signaling downstream through insulin receptor substrate molecules and thus play a pivotal role in cell fate determination. Despite the emerging evidence from epidemiological studies on the possible relationship between insulin resistance and cancer, our understanding on the cellular and molecular mechanisms that might account for this relationship remains incompletely understood. The involvement of IGFs in carcinogenesis is attributed to their role in linking high energy intake, increased cell proliferation, and suppression of apoptosis to cancer risks, which has been proposed as the key mechanism bridging insulin resistance and cancer. The present review summarizes and discusses evidence highlighting recent advances in our understanding on the role of ILPs as the link between insulin resistance and cancer and between immune deregulation and cancer in obesity, as well as those areas where there remains a paucity of data. It is anticipated that issues discussed in this paper will also recover new therapeutic targets that can assist in diagnostic screening and novel approaches to controlling tumor development.

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Structural and Biological Properties of the Drosophila Insulin-like Peptide 5 Show Evolutionary Conservation

Cited by 57 publications

References 66 publications

Human IGF1 extends lifespan and enhances resistance to Plasmodium falciparum infection in the malaria vector Anopheles stephensi

Human IGF1 extends lifespan and enhances resistance to Plasmodium falciparum infection in the malaria vector Anopheles stephensi

Drosophilaas a model to study obesity and metabolic disease

Insulin resistance and cancer: the role of insulin and IGFs

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