Objective: Pro-peptide precursors are processed into biologically active peptide hormones or neurotransmitters, each playing an essential role in physiology and disease. Genetic loss of function of a pro-peptide precursor results in the simultaneous ablation of all biologically-active peptides within that precursor, often leading to a composite phenotype that can be difficult to align with the loss of specific peptide components. Due to this biological constraint and technical limitations, mice carrying the selective ablation of individual peptides encoded by pro-peptide precursor genes, while leaving the other peptides unaffected, have remained largely unaddressed. Methods: We developed and characterized a mouse model carrying the selective knockout of the TLQP-21 neuropeptide (DTLQP-21) encoded by the Vgf gene. To achieve this goal, we used a knowledge-based approach by mutating a codon in the Vgf sequence leading to the substitution of the C-terminal Arginine of TLQP-21, which is the pharmacophore as well as an essential cleavage site from its precursor, into Alanine (R21/A).Results: We provide several independent validations of this mouse, including a novel in-gel digestion targeted mass spectrometry identification of the unnatural mutant sequence, exclusive to the mutant mouse. DTLQP-21 mice do not manifest gross behavioral and metabolic abnormalities and reproduce well, yet they have a unique metabolic phenotype characterized by an environmental temperature-dependent resistance to diet-induced obesity and activation of the brown adipose tissue.Conclusions: The DTLQP-21 mouse line can be a valuable resource to conduct mechanistic studies on the necessary role of TLQP-21 in physiology and disease, while also serving as a platform to test the specificity of novel antibodies or immunoassays directed at TLQP-21. Our approach also has far-reaching implications by informing the development of knowledge-based genetic engineering approaches to generate selective loss of function of other peptides encoded by pro-hormones genes, leaving all other peptides within the pro-protein precursor intact and unmodified.m 2023 The Author(s). Published by Elsevier GmbH. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Targeted and selective knockout of the TLQP-21 neuropeptide unmasks its unique role in energy homeostasis / Sahu, Bhavani S; Razzoli, Maria; Mcgonigle, Seth; Pallais, Jean Pierre; Nguyen, Megin E; Sadahiro, Masato; Jiang, Cheng; Lin, Wei-Jye; Kelley, Kevin A; Rodriguez, Pedro; Mansk, Rachel; Cero, Cheryl; Caviola, Giada; Palanza, Paola; Rao, Loredana; Beetch, Megan; Alejandro, Emilyn; Sham, Yuk Y; Frontini, Andrea; Salton, Stephen R; Bartolomucci, Alessandro. - In: MOLECULAR METABOLISM. - ISSN 2212-8778. - 76:(2023), pp. 101781-101795. [10.1016/j.molmet.2023.101781]

Targeted and selective knockout of the TLQP-21 neuropeptide unmasks its unique role in energy homeostasis

Razzoli, Maria;Rodriguez, Pedro;Caviola, Giada;Palanza, Paola;Bartolomucci, Alessandro
2023-01-01

Abstract

Objective: Pro-peptide precursors are processed into biologically active peptide hormones or neurotransmitters, each playing an essential role in physiology and disease. Genetic loss of function of a pro-peptide precursor results in the simultaneous ablation of all biologically-active peptides within that precursor, often leading to a composite phenotype that can be difficult to align with the loss of specific peptide components. Due to this biological constraint and technical limitations, mice carrying the selective ablation of individual peptides encoded by pro-peptide precursor genes, while leaving the other peptides unaffected, have remained largely unaddressed. Methods: We developed and characterized a mouse model carrying the selective knockout of the TLQP-21 neuropeptide (DTLQP-21) encoded by the Vgf gene. To achieve this goal, we used a knowledge-based approach by mutating a codon in the Vgf sequence leading to the substitution of the C-terminal Arginine of TLQP-21, which is the pharmacophore as well as an essential cleavage site from its precursor, into Alanine (R21/A).Results: We provide several independent validations of this mouse, including a novel in-gel digestion targeted mass spectrometry identification of the unnatural mutant sequence, exclusive to the mutant mouse. DTLQP-21 mice do not manifest gross behavioral and metabolic abnormalities and reproduce well, yet they have a unique metabolic phenotype characterized by an environmental temperature-dependent resistance to diet-induced obesity and activation of the brown adipose tissue.Conclusions: The DTLQP-21 mouse line can be a valuable resource to conduct mechanistic studies on the necessary role of TLQP-21 in physiology and disease, while also serving as a platform to test the specificity of novel antibodies or immunoassays directed at TLQP-21. Our approach also has far-reaching implications by informing the development of knowledge-based genetic engineering approaches to generate selective loss of function of other peptides encoded by pro-hormones genes, leaving all other peptides within the pro-protein precursor intact and unmodified.m 2023 The Author(s). Published by Elsevier GmbH. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
2023
Targeted and selective knockout of the TLQP-21 neuropeptide unmasks its unique role in energy homeostasis / Sahu, Bhavani S; Razzoli, Maria; Mcgonigle, Seth; Pallais, Jean Pierre; Nguyen, Megin E; Sadahiro, Masato; Jiang, Cheng; Lin, Wei-Jye; Kelley, Kevin A; Rodriguez, Pedro; Mansk, Rachel; Cero, Cheryl; Caviola, Giada; Palanza, Paola; Rao, Loredana; Beetch, Megan; Alejandro, Emilyn; Sham, Yuk Y; Frontini, Andrea; Salton, Stephen R; Bartolomucci, Alessandro. - In: MOLECULAR METABOLISM. - ISSN 2212-8778. - 76:(2023), pp. 101781-101795. [10.1016/j.molmet.2023.101781]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2958932
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