2
|
Lee HJ, Jin BY, Park MR, Kim NH, Seo KS, Jeong YT, Wada T, Lee JS, Choi SH, Kim DH. Inhibition of adipose tissue angiogenesis prevents rebound weight gain after caloric restriction in mice fed a high-fat diet. Life Sci 2023; 332:122101. [PMID: 37730110 DOI: 10.1016/j.lfs.2023.122101] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/05/2023] [Revised: 08/30/2023] [Accepted: 09/15/2023] [Indexed: 09/22/2023]
Abstract
AIMS We investigated whether modulation of white adipose tissue (WAT) vasculature regulates rebound weight gain (RWG) after caloric restriction (CR) in mice fed a high-fat diet (HFD). MAIN METHODS We compared changes in energy balance, hypothalamic neuropeptide gene expression, and characteristics of WAT by RT-qPCR, ELISA, immunohistochemistry, and adipose-derived stromal vascular fraction spheroid sprouting assay in obese mice fed a HFD ad libitum (HFD-AL), mice under 40 % CR for 3 or 4 weeks, mice fed HFD-AL for 3 days after CR (CRAL), and CRAL mice treated with TNP-470, an angiogenic inhibitor. KEY FINDINGS WAT angiogenic genes were expressed at low levels, but WAT vascular density was maintained in the CR group compared to that in the HFD-AL group. The CRAL group showed RWG, fat regain, and hyperphagia with higher expression of angiogenic genes and reduced pericyte coverage of the endothelium in WAT on day 3 after CR compared to the CR group, indicating rapidly increased angiogenic activity after CR. Administration of TNP-470 suppressed RWG, fat regain, and hyperphagia only after CR compared to the CRAL group. Changes in circulating leptin levels and hypothalamic neuropeptide gene expression were correlated with changes in weight and fat mass, suggesting that TNP-470 suppressed hyperphagia independently of the hypothalamic melanocortin system. Additionally, TNP-470 increased gene expression related to thermogenesis, fuel utilization, and browning in brown adipose tissue (BAT) and WAT, indicating TNP-470-induced increase in thermogenesis. SIGNIFICANCE Modulation of the WAT vasculature attenuates RWG after CR by suppressing hyperphagia and increasing BAT thermogenesis and WAT browning.
Collapse
Affiliation(s)
- Hye-Jin Lee
- Department of Pharmacology, Korea University College of Medicine, Seoul 02841, Republic of Korea; BK21 Graduate Program, Department of Biomedical Sciences, Korea University College of Medicine, Seoul 02841, Republic of Korea
| | - Bo-Yeong Jin
- Department of Pharmacology, Korea University College of Medicine, Seoul 02841, Republic of Korea; BK21 Graduate Program, Department of Biomedical Sciences, Korea University College of Medicine, Seoul 02841, Republic of Korea
| | - Mi-Rae Park
- Department of Pharmacology, Korea University College of Medicine, Seoul 02841, Republic of Korea; BK21 Graduate Program, Department of Biomedical Sciences, Korea University College of Medicine, Seoul 02841, Republic of Korea
| | - Nam Hoon Kim
- Division of Endocrinology and Metabolism, Department of Internal Medicine, Korea University College of Medicine, Seoul 02841, Republic of Korea
| | - Kwan Sik Seo
- Department of Rehabilitation Medicine, Seoul National University Hospital, Seoul 03080, Republic of Korea
| | - Yong Taek Jeong
- Department of Pharmacology, Korea University College of Medicine, Seoul 02841, Republic of Korea
| | - Tsutomu Wada
- Department of Clinical Pharmacology, University of Toyama, Toyama 930-0194, Japan
| | - Jun-Seok Lee
- Department of Pharmacology, Korea University College of Medicine, Seoul 02841, Republic of Korea
| | - Sang-Hyun Choi
- Department of Pharmacology, Korea University College of Medicine, Seoul 02841, Republic of Korea
| | - Dong-Hoon Kim
- Department of Pharmacology, Korea University College of Medicine, Seoul 02841, Republic of Korea; BK21 Graduate Program, Department of Biomedical Sciences, Korea University College of Medicine, Seoul 02841, Republic of Korea.
| |
Collapse
|
7
|
Farrell PJ, Zopf CJ, Huang HJ, Balakrishna D, Holub C, Bilakovics J, Fanjul A, Matuszkiewicz J, Plonowski A, Rolzin P, Banerjee U, Ermolieff J, Cheruvallath ZS, McBride C, Bartkowski D, Mazur C, Pachori A, Larson CJ. Using Target Engagement Biomarkers to Predict Clinical Efficacy of MetAP2 Inhibitors. J Pharmacol Exp Ther 2019; 371:299-308. [PMID: 31537613 DOI: 10.1124/jpet.119.259028] [Citation(s) in RCA: 3] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/11/2019] [Accepted: 09/04/2019] [Indexed: 01/09/2023] Open
Abstract
Target-engagement pharmacodynamic (PD) biomarkers are valuable tools in the prioritization of drug candidates, especially for novel, first-in-class mechanisms whose robustness to alter disease outcome is unknown. Methionine aminopeptidase 2 (MetAP2) is a cytosolic metalloenzyme that cleaves the N-terminal methionine from nascent proteins. Inhibition of MetAP2 leads to weight loss in obese rodents, dogs and humans. However, there is a need to develop efficacious compounds that specifically inhibit MetAP2 with an improved safety profile. The objective of this study was to identify a PD biomarker for selecting potent, efficacious compounds and for predicting clinical efficacy that would result from inhibition of MetAP2. Here we report the use of NMet14-3-3γ for this purpose. Treatment of primary human cells with MetAP2 inhibitors resulted in an approx. 10-fold increase in NMet14-3-3γ levels. Furthermore, treatment of diet-induced obese mice with these compounds reduced body weight (approx. 20%) and increased NMet14-3-3γ (approx. 15-fold) in adipose tissues. The effects on target engagement and body weight increased over time and were dependent on dose and administration frequency of compound. The relationship between compound concentration in plasma, NMet14-3-3γ in tissue, and reduction of body weight in obese mice was used to generate a pharmacokinetic-pharmacodynamic-efficacy model for predicting efficacy of MetAP2 inhibitors in mice. We also developed a model for predicting weight loss in humans using a target engagement PD assay that measures inhibitor-bound MetAP2 in blood. In summary, MetAP2 target engagement biomarkers can be used to select efficacious compounds and predict weight loss in humans. SIGNIFICANCE STATEMENT: The application of target engagement pharmacodynamic biomarkers during drug development provides a means to determine the dose required to fully engage the intended target and an approach to connect the drug target to physiological effects. This work exemplifies the process of using target engagement biomarkers during preclinical research to select new drug candidates and predict clinical efficacy. We determine concentration of MetAP2 antiobesity compounds needed to produce pharmacological activity in primary human cells and in target tissues from an appropriate animal model and establish key relationships between pharmacokinetics, pharmacodynamics, and efficacy, including the duration of effects after drug administration. The biomarkers described here can aid decision-making in early clinical trials of MetAP2 inhibitors for the treatment of obesity.
Collapse
Affiliation(s)
- Pamela J Farrell
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Christopher J Zopf
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Huey-Jing Huang
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Deepika Balakrishna
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Corine Holub
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - James Bilakovics
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Andrea Fanjul
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Jennifer Matuszkiewicz
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Artur Plonowski
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Paul Rolzin
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Urmi Banerjee
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Jacques Ermolieff
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Zacharia S Cheruvallath
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Christopher McBride
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Darian Bartkowski
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Crystal Mazur
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Alok Pachori
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| | - Christopher J Larson
- Biological Sciences (P.J.F., H.-J.H., De.B., C.H., J.B., A.F., J.M., A.Pl., P.R., U.B., J.E., C.J.L.), Chemistry (Z.S.C., C.Mc.), and Drug Metabolism and Pharmacokinetics (Da.B.), Takeda California, San Diego, California; Modeling and Simulation, Takeda Boston, Cambridge, Massachusetts (C.J.Z.); and Translational Research Institute for Metabolism and Diabetes, Florida Hospital Campus, Orlando, Florida (C.Ma., A.Pa.)
| |
Collapse
|