L Maletínská1, V Nagelová1, A Tichá1, J Zemenová2, Z Pirník3, M Holubová1, A Špolcová1, B Mikulášková4, M Blechová1, D Sýkora5, Z Lacinová6, M Haluzík6, B Železná1, J Kuneš4. 1. Antiobesity Peptides, Institute of Organic Chemistry and Biochemistry, AS CR, Prague, Czech Republic. 2. 1] Antiobesity Peptides, Institute of Organic Chemistry and Biochemistry, AS CR, Prague, Czech Republic [2] Department of Analytical Chemistry, University of Chemistry and Technology, Prague, Czech Republic. 3. 1] Antiobesity Peptides, Institute of Organic Chemistry and Biochemistry, AS CR, Prague, Czech Republic [2] Laboratory of Functional Neuromorphology, Institute of Experimental Endocrinology, SAS, Bratislava, Slovak Republic [3] Department of Human and Clinical Pharmacology, University of Veterinary Medicine, Košice, Slovak Republic. 4. 1] Antiobesity Peptides, Institute of Organic Chemistry and Biochemistry, AS CR, Prague, Czech Republic [2] Institute of Physiology, AS CR, Prague, Czech Republic. 5. Department of Analytical Chemistry, University of Chemistry and Technology, Prague, Czech Republic. 6. Third Department of Medicine, Charles University in Prague, Prague, Czech Republic.
Abstract
OBJECTIVES: Obesity is a frequent metabolic disorder but an effective therapy is still scarce. Anorexigenic neuropeptides produced and acting in the brain have the potential to decrease food intake and ameliorate obesity but are ineffective after peripheral application. We have designed lipidized analogs of prolactin-releasing peptide (PrRP), which is involved in energy balance regulation as demonstrated by obesity phenotypes of both PrRP- and PrRP-receptor-knockout mice. RESULTS: Lipidized PrRP analogs showed binding affinity and signaling in PrRP receptor-expressing cells similar to natural PrRP. Moreover, these analogs showed high binding affinity also to anorexigenic neuropeptide FF-2 receptor. Peripheral administration of myristoylated and palmitoylated PrRP analogs to fasted mice induced strong and long-lasting anorexigenic effects and neuronal activation in the brain areas involved in food intake regulation. Two-week-long subcutaneous administration of palmitoylated PrRP31 and myristoylated PrRP20 lowered food intake, body weight and improved metabolic parameters, and attenuated lipogenesis in mice with diet-induced obesity. CONCLUSIONS: Our data suggest that the lipidization of PrRP enhances stability and mediates its effect in central nervous system. Strong anorexigenic and body-weight-reducing effects make lipidized PrRP an attractive candidate for anti-obesity treatment.
OBJECTIVES:Obesity is a frequent metabolic disorder but an effective therapy is still scarce. Anorexigenic neuropeptides produced and acting in the brain have the potential to decrease food intake and ameliorate obesity but are ineffective after peripheral application. We have designed lipidized analogs of prolactin-releasing peptide (PrRP), which is involved in energy balance regulation as demonstrated by obesity phenotypes of both PrRP- and PrRP-receptor-knockout mice. RESULTS: Lipidized PrRP analogs showed binding affinity and signaling in PrRP receptor-expressing cells similar to natural PrRP. Moreover, these analogs showed high binding affinity also to anorexigenic neuropeptide FF-2 receptor. Peripheral administration of myristoylated and palmitoylated PrRP analogs to fasted mice induced strong and long-lasting anorexigenic effects and neuronal activation in the brain areas involved in food intake regulation. Two-week-long subcutaneous administration of palmitoylated PrRP31 and myristoylated PrRP20 lowered food intake, body weight and improved metabolic parameters, and attenuated lipogenesis in mice with diet-induced obesity. CONCLUSIONS: Our data suggest that the lipidization of PrRP enhances stability and mediates its effect in central nervous system. Strong anorexigenic and body-weight-reducing effects make lipidized PrRP an attractive candidate for anti-obesity treatment.
Authors: S Hinuma; Y Habata; R Fujii; Y Kawamata; M Hosoya; S Fukusumi; C Kitada; Y Masuo; T Asano; H Matsumoto; M Sekiguchi; T Kurokawa; O Nishimura; H Onda; M Fujino Journal: Nature Date: 1998-05-21 Impact factor: 49.962
Authors: Z Pirnik; J Bundziková; M Holubová; M Pýchová; J A Fehrentz; J Martinez; B Zelezná; L Maletínská; A Kiss Journal: Neurochem Int Date: 2011-08-06 Impact factor: 3.921
Authors: Elsa Pflimlin; Sam Lear; Candy Lee; Shan Yu; Huafei Zou; Andrew To; Sean Joseph; Van Nguyen-Tran; Matthew S Tremblay; Weijun Shen Journal: ACS Med Chem Lett Date: 2019-07-05 Impact factor: 4.345
Authors: Veronika Pražienková; Martina Holubová; Helena Pelantová; Martina Bugáňová; Zdenko Pirník; Barbora Mikulášková; Andrea Popelová; Miroslava Blechová; Martin Haluzík; Blanka Železná; Marek Kuzma; Jaroslav Kuneš; Lenka Maletínská Journal: PLoS One Date: 2017-08-18 Impact factor: 3.240
Authors: L Kořínková; V Pražienková; L Černá; A Karnošová; B Železná; J Kuneš; Lenka Maletínská Journal: Front Endocrinol (Lausanne) Date: 2020-11-26 Impact factor: 5.555
Authors: Miroslava Kacířová; Blanka Železná; Michaela Blažková; Martina Holubová; Andrea Popelová; Jaroslav Kuneš; Blanka Šedivá; Lenka Maletínská Journal: J Neuroinflammation Date: 2021-06-22 Impact factor: 8.322