Genetic Analysis of Quantitative Traits Using Domestic Animals : A Candidate Gene and Genome Scanning Approach

Park, Hee-Bok

January 2004

<p>Domestication has led to genetic changes that affect quantitative traits in farm animals. Both candidate gene analysis using association tests and genome scans based on linkage analysis have been performed to understand the molecular basis underlying quantitative genetic variation in horses, pigs and chickens. To test a possible association of polymorphisms in the <i>PRKAG3</i> gene, previously found to be associated with excess glycogen content in pig skeletal muscle, with quantitative traits in the horse, the major coding part of the equine <i>PRKAG3</i> sequence was identified. Bioinformatic characterization of the equine <i>PRKAG3</i> gene was conducted. A single nucleotide polymorphism (SNP) causing a missense mutation (Pro258Leu) was found. Screening this SNP showed that the Leu258 allele was more frequent in breeds with heavy muscularity. To assess previously reported associations between polymorphisms in the <i>MC4R</i> gene and obesity-related traits further, we conducted linkage analysis between the <i>MC4R</i> locus and fatness-related traits using a Wild BoarxLarge White intercross. No significant association between segregation at the <i>MC4R</i> locus and fatness was detected in this pedigree. A genome scan of quantitative trait loci (QTLs) has been performed in an intercross between chicken lines divergently selected for growth. Divergent parental lines have been established by selecting for high and low 56-day body weight for over 40 generations. The selection has led to approximately a 9-fold difference in 56-day body weight between lines and resulted in correlated responses for a number of traits including appetite, immune response, body composition and metabolic traits. Phenotypic data on growth and other correlated traits were collected from more than 800 F2 individuals. Genome scans using 145 markers on 26 linkage groups have identified QTLs affecting growth and correlated responses to selection for 56-day body weight. No major QTL explaining a large portion of phenotypic variation in growth was revealed in this study. </p>

Genetics

Domestication

horse

pig

chicken

quantitative traits

candidate gene

genome scan

PRKAG3

MC4R

selection experiment

growth

correlated response

metabolic disorders

Quantitative Trait Loci

linkage

single nucleotide polymorphisms

Genetik

Clinical genetics

Klinisk genetik

Genetic Analysis of Quantitative Traits Using Domestic Animals : A Candidate Gene and Genome Scanning Approach

Park, Hee-Bok

January 2004

Domestication has led to genetic changes that affect quantitative traits in farm animals. Both candidate gene analysis using association tests and genome scans based on linkage analysis have been performed to understand the molecular basis underlying quantitative genetic variation in horses, pigs and chickens. To test a possible association of polymorphisms in the PRKAG3 gene, previously found to be associated with excess glycogen content in pig skeletal muscle, with quantitative traits in the horse, the major coding part of the equine PRKAG3 sequence was identified. Bioinformatic characterization of the equine PRKAG3 gene was conducted. A single nucleotide polymorphism (SNP) causing a missense mutation (Pro258Leu) was found. Screening this SNP showed that the Leu258 allele was more frequent in breeds with heavy muscularity. To assess previously reported associations between polymorphisms in the MC4R gene and obesity-related traits further, we conducted linkage analysis between the MC4R locus and fatness-related traits using a Wild BoarxLarge White intercross. No significant association between segregation at the MC4R locus and fatness was detected in this pedigree. A genome scan of quantitative trait loci (QTLs) has been performed in an intercross between chicken lines divergently selected for growth. Divergent parental lines have been established by selecting for high and low 56-day body weight for over 40 generations. The selection has led to approximately a 9-fold difference in 56-day body weight between lines and resulted in correlated responses for a number of traits including appetite, immune response, body composition and metabolic traits. Phenotypic data on growth and other correlated traits were collected from more than 800 F2 individuals. Genome scans using 145 markers on 26 linkage groups have identified QTLs affecting growth and correlated responses to selection for 56-day body weight. No major QTL explaining a large portion of phenotypic variation in growth was revealed in this study.

Genetics

Domestication

horse

pig

chicken

quantitative traits

candidate gene

genome scan

PRKAG3

MC4R

selection experiment

growth

correlated response

metabolic disorders

Quantitative Trait Loci

linkage

single nucleotide polymorphisms

Genetik

Clinical genetics

Klinisk genetik

Effet de chaperones pharmacologiques sur les formes mutantes du récepteur mélanocortine de type 4 responsables de l'obésité morbide précoce

Michaud, Douce

08 1900

Le récepteur mélanocortine de type 4 (MC4R) est un récepteur couplé aux protéines G impliqué dans la régulation de la prise alimentaire et de l’homéostasie énergétique. Quatre-vingt pour cent des mutants du MC4R reliés à l’obésité morbide précoce (OMP) sont retenus à l’intérieur de la cellule. Le système de contrôle de qualité (SCQ) est probablement responsable de cette rétention, par la reconnaissance d’une conformation inadéquate des mutants. Le rétablissement de l’expression à la surface cellulaire et de la fonctionnalité de ces mutants est donc d’intérêt thérapeutique. Dans cette optique, des composés lipophiles spécifiques pour le MC4R ont été sélectionnés sur la base de leur sélectivité. Nous avons démontré qu’ils agissent à titre de chaperone pharmacologique (CP) en rétablissant l’expression à la surface cellulaire et la fonctionnalité des récepteurs mutants S58C et R165W, et qu’ils favorisent leur N-glycosylation complexe (maturation). Le suivi par BRET du site d’action des CP du MC4R suggère une action en aval de l’interaction calnexine-MC4R. De manière générale, une CP peut avoir un effet différent selon le mutant traité en induisant des conformations distinctes du récepteur plus ou moins aptes à se dissocier du SCQ et à activer la voie de signalisation, et un mutant peut répondre différemment selon la CP utilisée par des différences d’affinité pour le ligand, la CP et les effecteurs. Une meilleure compréhension du mode d’action des CP pourrait aider au développement de nouvelles approches thérapeutiques non seulement pour l’OMP, mais aussi pour d’autres maladies conformationnelles causées par le mauvais repliement de protéines. / The MC4R is a G-protein coupled receptor involved in the central regulation of food intake and energy homeostasis. Eighty percent of childhood obesity-related MC4R mutants are retained intracellularly, probably via the quality control system acting on misfolded receptors. Thus, rescuing cell surface targeting and functionality of these mutant receptors could be of therapeutic value. Cell permeable MC4R selective ligands have been tested and were able to restore cell surface expression and signalling activity of S58C and R165W MC4R mutants. Those compounds, according to their mode of action, are described as pharmacological chaperones (PC). The MC4R-PCs also helps to rescue the glycosylation pattern (maturation) of the MC4R mutants. The site of action of MC4R-PCs of the MC4R mutants monitored by BRET suggests an action downstream of the calnexin-MC4R interaction, most likely at the level of the Golgi apparatus. Generally, a CP can have different effects according to the mutant by stabilizing distinct conformations of the receptor that are more or less able to exit the quality control system and to activate the signaling pathway, and a mutant can respond differently according to the CP used by its distinct affinity to the ligand, the CP itself and the effectors. A better understanding of PCs’ mode of action could help in the design of novel therapeutic approaches not only for early-onset morbid obesity (EOMO) but also for other conformational diseases resulting from protein misfolding.

Melanocortin 4 receptor (MC4R)

Maladie conformationnelle

Conformational disease

Obésité morbide précoce (OMP)

Early-onset morbid obesity (EOMO)

G protein coupled receptor (GPCR)

Système de contrôle de qualité

Quality control system

Chaperone pharmacologique (CP)

Pharmacological chaperone (PC)

Surface immunoprecipitation (surface IP)

Effet de chaperones pharmacologiques sur les formes mutantes du récepteur mélanocortine de type 4 responsables de l'obésité morbide précoce

Michaud, Douce

08 1900

No description available.

Melanocortin 4 receptor (MC4R)

Maladie conformationnelle

Conformational disease

Obésité morbide précoce (OMP)

Early-onset morbid obesity (EOMO)

G protein coupled receptor (GPCR)

Système de contrôle de qualité

Quality control system

Chaperone pharmacologique (CP)

Pharmacological chaperone (PC)

Surface immunoprecipitation (surface IP)