Cloning, Expression, Pharmacological Characterization and Anatomical Distribution of Melanocortin Receptors in an Evolutionary Perspective

Ringholm, Aneta I.

January 2004

<p>The melanocortin (MC) receptors are G-protein coupled receptors thatparticipate in several important physiological functions such as the regulation of the energy balance. This thesis focuses on the evolutionary aspect of the MC receptors and their pharmacology.</p><p>One MC4 receptor and two MC5 receptor subtypes were found in a teleost fish, zebrafish. This indicates that the MC receptor subtypes arose very early in vertebrate evolution. Important pharmacological and functional properties, as well as gene structure and syntenic relationships have been highly conserved over a period of more than 400 million years implying that these receptors participate in vital physiological functions. Moreover, we found a MC4 receptor from a shark, spiny dogfish that represents the most distant MC receptor gene cloned to date. We also characterized the pharmacology of a MC4 receptor in goldfish. The conserved central expression pattern and physiological role in regulation of food intake of the MC4 receptor suggests that neuronal pathways of the melanocortin system may be important for regulation of energy homeostasis in most vertebrates. We determined the chromosomal position of the chicken MC receptors genes and found conserved synteny of the MC2, MC5, and MC4 receptor genes. These results suggest that there exist a clustering of these genes that is ancient. Analysis of conserved synteny with mammalian genomes and paralogon segments prompted us to predict an ancestral gene organization that may explain how this family has been formed through both local duplication and tetraploidization processes.</p><p>There are several common point mutations in the human MC1 receptor that are over represented in North European red-heads, and in individuals with pale skin. We pharmacologically characterised four naturally occurring human MC1 receptor variants providing molecular explanation to the respective phenotype.</p><p>The MC receptor subtypes have highly diverse physiological functions despite having relative high similarities in their primary structure. Our studies on the structural and functional properties of the MC receptor subtypes have provided insight into the molecular mechanism of how the specification of these receptors may have occurred.</p>

Pharmacology

evolution

melanocortin

MSH

pharmacology

genome duplication

tetraploidization

zebrafish

spiny dogfish

chicken

GPCR

polymorphism

pigmentation

Farmakologi

Pharmacological research

Farmakologisk forskning

Cloning, Expression, Pharmacological Characterization and Anatomical Distribution of Melanocortin Receptors in an Evolutionary Perspective

Ringholm, Aneta I.

January 2004

The melanocortin (MC) receptors are G-protein coupled receptors thatparticipate in several important physiological functions such as the regulation of the energy balance. This thesis focuses on the evolutionary aspect of the MC receptors and their pharmacology. One MC4 receptor and two MC5 receptor subtypes were found in a teleost fish, zebrafish. This indicates that the MC receptor subtypes arose very early in vertebrate evolution. Important pharmacological and functional properties, as well as gene structure and syntenic relationships have been highly conserved over a period of more than 400 million years implying that these receptors participate in vital physiological functions. Moreover, we found a MC4 receptor from a shark, spiny dogfish that represents the most distant MC receptor gene cloned to date. We also characterized the pharmacology of a MC4 receptor in goldfish. The conserved central expression pattern and physiological role in regulation of food intake of the MC4 receptor suggests that neuronal pathways of the melanocortin system may be important for regulation of energy homeostasis in most vertebrates. We determined the chromosomal position of the chicken MC receptors genes and found conserved synteny of the MC2, MC5, and MC4 receptor genes. These results suggest that there exist a clustering of these genes that is ancient. Analysis of conserved synteny with mammalian genomes and paralogon segments prompted us to predict an ancestral gene organization that may explain how this family has been formed through both local duplication and tetraploidization processes. There are several common point mutations in the human MC1 receptor that are over represented in North European red-heads, and in individuals with pale skin. We pharmacologically characterised four naturally occurring human MC1 receptor variants providing molecular explanation to the respective phenotype. The MC receptor subtypes have highly diverse physiological functions despite having relative high similarities in their primary structure. Our studies on the structural and functional properties of the MC receptor subtypes have provided insight into the molecular mechanism of how the specification of these receptors may have occurred.

Pharmacology

evolution

melanocortin

MSH

pharmacology

genome duplication

tetraploidization

zebrafish

spiny dogfish

chicken

GPCR

polymorphism

pigmentation

Farmakologi

Pharmacological research

Farmakologisk forskning

Structure, evolution and expression of the duplicated growth hormone genes of common carp (Cyprinus carpio)

Murakaeva, Asiya

01 September 2009

Der Karpfen, Cyprinus carpio, ist eine tetraploide Fischart aus der Familie Cyprinidae, die vor 20-50 Mio Jahren entstanden ist. Das Ziel der vorliegenden Arbeit war der Versuch, die funktionelle Rolle der duplizierten GH Gene des Karpfens durch das Studium ihrer Struktur, Evolution und Expression zu verstehen. Die Introns des zweiten GH Gens des Karpfens wurden erstmalig sequenziert und Sequenzvergleiche der kodierenden und nicht-kodierenden Bereiche von Allelen beider GH Gene wurden vorgenommen. Eine phylogenetische Analyse wurde durchgefuhrt, um die Beziehungen der GH Gene des Karpfens zu denen des tetraploiden Goldfischs und anderer diploider Cypriniden zu untersuchen. Zusatzlich wurden weitere duplizierte Gene des Karpfens, von denen einige auch fur das Wachstum von Bedeutung sind, phylogenetisch analysiert. Der Test der relativen Evolutionsrate nach Tajima (1993) zeigte einen statistisch signifikanten Anstieg der Evolutionsrate des GH I Gens beim Karpfen. Es wurden in der vorliegenden Arbeit einige weitere duplizierte Genpaare des Karpfens und Goldfischs gefunden, die ebenfalls eine Lockerung funktioneller Zwange oder sogar Beweise fur positive Darwin?sche Selektion bei einem der beiden Duplikate zeigen. Der Expressionstest hat gezeigt, dass die GH I und GH II Gene auf identischen Niveaus bei Karpfenbrut exprimiert werden, wahrend bei ein Jahr alten Karpfen, drei Jahre alten Mannchen und Weibchen sowie den 10 Monate alten, an kalte Temperaturen (2°C) angepassten Fischen die Expression von GH II statistisch signifikant geringer war als die von GH I. Es wurde eine neue und einfache Methode zur Herstellung von rekombinanten, biologisch aktiven GH-Proteinen ohne Notwendigkeit des Refolding entwickelt. Sie ermoglicht spatere Tests, ob die Aktivitat von unterschiedlichen GH-Varianten des Karpfens gleich oder unterschiedlich ist. / The common carp, Cyprinus carpio, is a tetraploid fish species from the family Cyprinidae that arose about 20-50 Myr ago. The aim of the present work was attempting to understand the functional role of the duplicated common carp GH genes by studying their structure, evolution and expression. The introns of the second GH gene of common carp were sequenced for the first time and sequence comparisons of coding and non-coding regions of alleles of both GH genes were carried out. A phylogenetic analysis was done to examine the relationships of common carp GH genes with GH genes of the tetraploid goldfish and other diploid Cyprinids. In addition, phylogenetic analyses were done with other duplicated genes of common carp, some of which also important for growth. The relative rate test of Tajima (1993) showed a statistically significant increase in the evolution rate of the common carp GH I gene. In addition, some other duplicated gene pairs in common carp and goldfish with relaxation of functional constraints or even evidence of positive Darwinian selection in one of the two gene duplicates were found in the present study. The test of expression rates of the two GH genes has shown that the GH I and GH II genes were expressed at similar levels in carp fry. In contrast, the expression of GH II was statistically significantly lower than that of GH I in one year old carp, three years old males and females as well as in 10 months old fish adapted to cold temperature (2°C). To enable testing the hypothesis if activity of GH diverged between different GH variants of common carp a new and simple method for production of recombinant, biologically active GH proteins without the necessity of refolding was developed.

Tetraploidisierung des Genoms

Duplizierte Gene

Evolution der duplizierten Gene

Phylogenetische Analyse

Messung des Gene Expression

Rekombinante Proteine

Tetraploidization of genome

Duplicated genes

Evolution of duplicated genes

Phylogenetic analysis

Gene expression analysis

Recombinant proteins

570 Biologie

32 Biologie

WD 5970

WR 4200

ddc:570