Ανίχνευση μεταλλάξεων του γονιδίου της αυξητικής ορμόνης (GH1) σε παιδιά με κοντό ανάστημα

Παπαθανασοπούλου, Βασιλική Σ.

18 February 2009

Η διαδικασία της αύξησης ελέγχεται από έναν πολύπλοκο συνδυασμό πολλών παραγόντων σε διάφορα επίπεδα, που περιλαμβάνουν ενδογενείς παράγοντες, όπως είναι ο γονότυπος, οι ορμόνες, οι παράγοντες αύξησης και εξωγενείς παράγοντες, όπως είναι η διατροφή και η επίδραση του περιβάλλοντος. Οι ορμονικοί παράγοντες, που επηρεάζουν την αύξηση είναι κυρίως η αυξητική ορμόνη (GH) και οι ινσουλινόμορφοι αυξητικοί παράγοντες (IGFs). Στην διαδικασία της αύξησης συμμετέχουν, όμως, και άλλες ορμόνες, όπως η θυροξίνη, τα επινεφριδιακά ανδρογόνα, τα στεροειδή του φύλου, τα γλυκοκορτικοειδή, η βιταμίνη D, η λεπτίνη και η ινσουλίνη, που αλληλεπιδρούν με τον άξονα GH-IGF. Η αυξητική ορμόνη εκκρίνεται στην κυκλοφορία από τα σωματότροπα κύτταρα του πρόσθιου λοβού της υπόφυσης, υπό την επίδραση δύο υποθαλαμικών ορμονών του εκλυτικού παράγοντα της αυξητικής ορμόνης (GHRH), που διεγείρει την έκκριση της GH και της σωματοστατίνης (SS), που αναστέλλει την έκκρισή της. Μέχρι σήμερα στην διεθνή βιβλιογραφία έχουν περιγραφεί πολλές μεταλλάξεις του γονιδίου της GH ως αιτία κοντού αναστήματος στα παιδιά. Η παρούσα μελέτη εξέτασε ομάδα 11 παιδιών με κοντό ανάστημα, ρυθμό αύξησης κάτω από την 2η εκατοστιαία θέση και καθυστερημένη οστική ηλικία. Όλοι οι ασθενείς υπεβλήθησαν σε λεπτομερή κλινική εξέταση και πλήρη εργαστηριακό έλεγχο. Από την κλινική εξέταση και τον εργαστηριακό έλεγχο αποκλείστηκε η παρουσία κάποιας συστηματικής πάθησης. Στην συνέχεια υπεβλήθησαν σε προκλητές δοκιμασίες έκκρισης της GH, με κλονιδίνη και L-Dopa, σε έλεγχο της 24ωρης έκκρισης της GH και τη δοκιμασία γένεσης του IGF-I. Με βάση τα εργαστηριακά αποτελέσματα της έκκρισης της GH η ομάδα των ασθενών διαχωρίστηκε σε αυτούς με ιδιοπαθές κοντό ανάστημα (10 περιπτώσεις) και ένα ασθενή με νευροεκκριτική δυσλειτουργία της GH (GHND), ο οποίος είχε μειωμένη 24ωρη έκκριση GH. Από τους ασθενείς αυτούς ελήφθησαν βιοψίες ούλων, στους καλλιεργημένους ινοβλάστες των οποίων έγιναν οι μελέτες αύξησης των ινοβλαστών και περιφερικό αίμα, από το οποίο έγινε εξαγωγή γονιδιωματικού DNA. Έγινε πολλαπλασιασμός των γονιδίων του υποδοχέα της GH (GHR) και του γονιδίου της GH (GH1) με την αλυσιδωτή αντίδραση πολυμεράσης (PCR) και προσδιορισμός της αλληλουχίας τους. Ανιχνεύτηκαν μεταλλαγές στους 6 από τους 11 ασθενείς, που μελετήθηκαν, οι οποίες εντοπίζονταν στο ιντρόνιο 4 του γονιδίου GH1 και ένας ακόμη ασθενής που έφερε μεταλλάξεις στα ιντρόνια 1 και 2. Οι μεταλλάξεις αυτές δεν επηρέαζαν την διαδικασία του ματίσματος και τον σχηματισμό του mRNA και απομακρύνονταν με το μάτισμα. Στην βιβλιογραφία αναφέρονται περισσότεροι από 10 πολυμορφισμοί του γονιδίου GH1 που εντοπίζονται κυρίως στα ιντρόνια του γονιδίου και κάποιοι από αυτούς έχουν συσχετιστεί με ελαττωμένη έκφραση του γονιδίου GH1. Στον ασθενή με την GHND περιγράφηκε μια μεταλλαγή στη θέση +7 του ιντρονίου 4 του γονιδίου GH1. RT-PCR του GH1 cDNA έδειξε ότι η μετάλλαξη αυτή είναι υπεύθυνη για το εσφαλμένο μάτισμα του mRNA, με αποτέλεσμα την απαλοιφή του εξονίου 5 από το ώριμο μετάγραφο. Ο ασθενής με τη μεταλλαγή είναι ετεροζυγώτης και η ίδια μεταλλαγή σε ετερόζυγη κατάσταση, βρέθηκε και στους δύο γονείς του ασθενούς, οι οποίοι έχουν επίσης κοντό ανάστημα. Η μεταλλαγή αυτή οδηγεί στην παραγωγή μικρότερου μορίου GH. Η βιοδραστικότητα του παραγόμενου ανώμαλου μορίου της GH εκτιμήθηκε με την προσθήκη ορού του ασθενούς σε καλλιέργειες φυσιολογικών ινοβλαστών, με τη μέθοδο ενσωμάτωσης στο DNA της βρώμο-δεοξυουριδίνης (BrDU), η οποία έδειξε μειωμένη σύνθεση DNA συγκρινόμενη με την σύνθεση DNA παρουσία ορού φυσιολογικών ατόμων. Δηλαδή η περίπτωση αυτή οικογενούς κοντού αναστήματος, το οποίο κληρονομείται κατά τον επικρατούντα χαρακτήρα, οφείλεται σε μεταλλαγή στο ιντρόνιο 4 του γονιδίου GH1. / Growth can be defined as an increase in size by accretion of tissue. The control of the growth process is affected by many complex interacting factors including internal cues such as the genotype, external factors such as nutrition and environment, and internal signaling systems such as hormones and growth factors. The principal hormones influencing growth are Growth Hormone (GH) and the Insulin-like Growth Factors (IGFs), but many other hormones contribute, such as thyroxine, adrenal androgens, sex steroids, glucocorticoids, vitamin D, leptin and insulin, often channeled through interaction with the GH-IGF axis. GH is secreted from the anterior pituitary into the circulation. The pattern of GH secretion is determined primarily by the interaction between the hypothalamic peptides Growth Hormone Releasing Hormone (GHRH) and somatostatin (SS). Many mutations of the GH1 gene have been described as the cause of short stature in children. The present study examined 11 children with severe short stature, growth velocity below the 2nd centile and delayed bone age. All patients underwent thorough clinical examination and laboratory investigation in order to exclude an underlying chronic disease. Also GH secretion provocative studies, 24 hr endogenous secretion studies and IGF-I generation test were carried out. According to the results of these tests the patients we studied were divided in two groups: 10 of the patients had idiopathic short stature (ISS) and 1 patient had GH neurosecretory dysfunction (GHND). Fibroblast cultures were established from gingival biopsies obtained from the patients and genomic DNA was extracted from peripheral blood leukocytes. GH1 and GH receptor (GHR) genes were amplified by PCR and sequenced. Hot spot mutations were detected in GH1 intron 4 in 6 patients and mutations in introns 1 and 2 were detected in 1 patient. These mutations did not affect the splicing of the primary RNA transcript. A novel deletion of thymine 7 bp downstream from the 3' splice site of intron 4 was found in the patient who had GHND. RT-PCR of GH1 cDNA showed that this mutation causes aberrant GH mRNA splicing, changes the read frame, creates a new stop codon and results in the deletion of exon 5. This was also confirmed by restriction enzyme analysis of the mutant cDNA. Both short parents and the patient are heterozygotes for this mutation. BrDU incorporation in the DNA of normal fibroblast cultures in the presence of the patient’s blood serum showed reduced DNA synthesis compared to fibroblasts cultured in medium with normal human serum. Addition of high concentrations of GH (4 μg/ml) to the culture medium containing the patient’s serum led to a near normal DNA synthesis. This is a new case of familial short stature inherited as a dominant trait, due to a mutation in intron 4 of the GH1 gene.

Αυξητική ορμόνη (GH)

612.654

Growth Hormone (GH)

Insulin-like Growth Factors (IGFs)

Short stature in children

Μοριακοί μηχανισμοί που εμπλέκονται στην ανεπάρκεια της αυξητικής ορμόνης

Γιαννακοπούλου, Ιωάννα

13 November 2007

Η αυξητική ορμόνη (GH), πολυλειτουργική ορμόνη που παράγεται από τα σωματοτρόπα κύτταρα του πρόσθιου λοβού της υπόφυσης, προάγει την μεταγεννητική ανάπτυξη σκελετικών και μαλακών ιστών. Επίσης, ασκεί ποικίλες άλλες βιολογικές δράσεις, όπως ρύθμιση του μεταβολισμού των υδατανθράκων, των πρωτεϊνών και του λίπους. Κατά συνέπεια, η ανεπάρκεια της εκτός από αναπτυξιακά μπορεί να προκαλέσει και σοβαρά μεταβολικά προβλήματα. Η GH δρα στους περιφερικούς ιστούς άμεσα αλλά και έμμεσα μέσω του ινσουλινόμορφου αυξητικού παράγοντα IGF-I. Μετά από πρόσδεση της GH στον υποδοχέα της (GHR), ο IGF-I παράγεται στο ήπαρ, όπου απελευθερώνεται στην γενική κυκλοφορία, αλλά παράγεται και τοπικά στους περιφερικούς ιστούς, όπου δρα με αυτοκρινή ή παρακρινή τρόπο. Η έκκριση της GH από την υπόφυση έχει παλμική μορφή και ρυθμίζεται κυρίως μέσω τριών υποφυσιοτρόπων παραγόντων: εκλυτική ορμόνη της GH (GHRH), σωματοστατίνη (SRIF) και γκρελίνη. Η απελευθέρωση της GHRH και της SRIH από τον υποθάλαμο επηρεάζεται και από μια ποικιλία άλλων νευροδιαβιβαστών, νευροορμονών και νευροπεπτιδίων. Έχει υπολογιστεί σε διάφορες μελέτες ότι κοντό ανάστημα συσχετιζόμενο με ανεπάρκεια της αυξητικής ορμόνης (GHD) παρατηρείται με συχνότητα 1 στις 4000 έως 1 στις 10000 γεννήσεις. Παρόλο που οι περισσότερες περιπτώσεις είναι σποραδικές και θεωρούνται αποτέλεσμα περιβαλλοντικών εγκεφαλικών προσβολών ή αναπτυξιακών ανωμαλιών, γενετική αιτιολογία προτείνεται περίπου στο 10% των GHD περιπτώσεων, λόγω του ότι έχει προσβληθεί ένας τουλάχιστον πρώτου βαθμού συγγενής. Η διάγνωση της GHD είναι μια πολύπλευρη διαδικασία που απαιτεί εκτενή κλινική εκτίμηση, αξιολόγηση σωματομετρικών παραμέτρων, βιοχημικές δοκιμασίες του GH-IGF άξονα, και ακτινολογική εκτίμηση. Η GHD μπορεί να παρουσιάζεται είτε ως μεμονωμένο πρόβλημα (IGHD) είτε σε συνδυασμό με πολλαπλές ορμονικές ανεπάρκειες (CPHD). Μοντέλα ζώων έχουν χρησιμοποιηθεί για μελέτη της φυσιολογικής λειτουργίας του υποθαλαμικού-GH άξονα και των πιθανών διαταραχών που οδηγούν σε IGHD/CPHD στους ανθρώπους. Σύμφωνα με τα κλινικά χαρακτηριστικά, τον τρόπο κληρονομικότητας και την ανταπόκριση στην εξωγενή θεραπεία, τέσσερις τύποι οικογενούς IGHD έχουν περιγραφεί στον άνθρωπο. Μεταλλαγές έχουν βρεθεί να συμβαίνουν στο GH γονίδιο (GH1) και στο γονίδιο του υποδοχέα της GHRH (GHRH-R). Πολυμορφισμοί στον υποκινητή του GH1 γονιδίου μειώνουν επίσης την έκφραση του. Πρόσφατα, μεταλλαγές στο γονίδιο του υποδοχέα της γκρελίνης (GHS-R) συσχετίστηκαν με IGHD. Μεταλλαγές σε διακριτά γονίδια μεταγραφικών παραγόντων, που είναι βασικά για την ανάπτυξη και διαφοροποίηση των κυττάρων του πρόσθιου λοβού της υπόφυσης, όπως Pit1/POU1F1, PROP1, HESX1, LHX3, LHX4, έχουν αναγνωρισθεί μέχρι σήμερα σε ανθρώπους με CPHD. Καθώς μεγάλο ποσοστό οικογενών περιπτώσεων IGHD/CPHD δεν οφείλεται σε μεταλλαγές σε κάποιο από τα ήδη γνωστά γονίδια, φαίνεται να εμπλέκονται μεταλλαγές σε επιπρόσθετα υποψήφια γονίδια. Περαιτέρω γενετικές μελέτες μπορούν να συμβάλλουν σε καλύτερη κατανόηση της GHD, σε πρώιμη διάγνωση και βελτίωση της θεραπευτικής αγωγής στα άτομα με GHD. / Growth hormone (GH), a multifunctional hormone which is synthesized in the somatotrope cells of the anterior pituitary gland, promotes postnatal development of skeletal and soft tissues. In addition, GH exerts multiple biological actions, such as regulating the metabolism of carbohydrates, proteins and fat. Consequently, GH deficiency (GHD) apart from causing developmental disorders can also have a deleterious effect on the body’s metabolism. GH acts on peripheral tissues both directly and indirectly, through the mediation of insulin-like growth factor-1 (IGF-1). Upon binding of GH to its receptor (GHR), IGF-1 is produced both in the liver, from where it is released into the general circulation, and locally in the peripheral tissues, such as bone, cartilage, and muscle, where it acts in an autocrine or paracrine fashion. GH is secreted from the pituitary gland in a pulsatile fashion. Major regulatory factors include three hypophysiotropic factors: GH releasing hormone (GHRH), somatostatin (SRIF), and ghrelin. Moreover, GH secretion can be affected by a variety of other neurotransmitters, neurohormones and neuropeptides. The diagnosis of GHD demands detailed clinical, auxological, radiological and biochemical evaluation of the GH-IGF axis. GHD may occur as isolated GHD (IGHD) or in combination with other pituitary hormone deficiencies (Combined Pituitary Hormone Deficiency, CPHD). The physiological actions of the hypothalamic-GH axis and the possible disorders leading to IGHD/CPHD in humans have been extensively studied in animal models. Short stature associated with GHD has been estimated to occur in about 1/4000-1/10000 in various studies. Whereas most cases are sporadic and believed to result from environmental cerebral insults or developmental anomalies, approximately 10% of the affected individuals have a first-degree relative with the same disorder, suggesting a hereditary trend and genetic factors affecting the disorder. Four types of familial IGHD have been described in humans according to clinical characteristics, the mode of inheritance and the response to exogenous therapy. Mutations reducing gene expression have been described in the GH1 gene and in the GHRH receptor (GHRH-R) gene. Polymorphisms found in the promoter of the GH1 gene can also reduce its expression. Recently, mutations in the ghrelin receptor (GHS-R) gene were associated with IGHD. Mutations in discrete genes of transcriptional factors necessary for the development and differentiation of anterior pituitary cells, such as Pit1/POU1F1, PROP1, HESX1, LHX3, LHX4 have been recognized in individuals with CPHD. Considering that a large proportion of familial cases of IGHD/CPHD are not caused by mutations in any of the known genes, mutations in additional candidate genes may be involved. Further genetic studies may contribute to a better understanding of GHD, earlier diagnosis and better therapeutic approaches for this disorder.

Αυξητική ορμόνη

Ανεπάρκεια GH

GHRH υποδοχέας

GH γονίδιο

612.65

Growth hormone

GH deficiency

GHRH receptor

Combined pituitary hormone deficiency

GH gene

Application du SPR dans le criblage des ligands synthétiques du CD36 et sa validation

Lambert-Lanteigne, Patrick

12 1900

Le CD36 est un récepteur de type éboueur de classe B exprimé à la surface de nombreux types cellulaires dont les macrophages, les cellules endothéliales de la microvasculature et les plaquettes. Ce récepteur multiligand est impliqué dans plusieurs processus pathologiques notamment l’athérosclérose, l’angiogénèse et la malaria via la liaison spécifique de ligands comme les lipoprotéines oxydées de basse densité, la thrombospondine-1 et la protéine PfEMP-1, respectivement. Les peptides de la relâche de l’hormone de croissance (GHRP) ont été identifiés comme les premiers ligands synthétiques du CD36. Afin de développer de nouveaux ligands synthétiques du CD36, l’établissement d’une méthode de criblage est essentiel pour découvrir des composés avec une liaison de haute affinité pour ce récepteur. Pour y parvenir, nous avons surexprimé le domaine extracellulaire du CD36 humain dans les cellules d’insectes Sf9. La protéine soluble purifiée par chromatographie d’affinité fut immobilisée à la surface d’une plaque de résonance de plasmons de surface (SPR) pour les études de liaison. La méthodologie développée a permis de caractériser les ligands du CD36 en déterminant leurs constantes de dissociation (KD), et d’établir une relation structure-activité des ligands de la famille des azapeptides, des composés dérivés du GHRP-6. Afin de valider la méthode par spectroscopie SPR, une corrélation a été établie entre les valeurs de KD obtenues en SPR et les valeurs d’CI50 de courbes d’inhibition de la phosphorylation des MAP kinases JNK1/2 induite par un phospholipide oxydé, le POVPC, en présence de concentrations croissantes de ligands du CD36 dans les macrophages RAW 264.7. / CD36 is a class B scavenger receptor expressed at the cell surface of macrophages, endothelial cells and platelets, among others. This multiligand receptor is implicated in various diseases such as atherosclerosis, angiogenesis and malaria through the specific binding of ligands, such as oxidized low-density lipoproteins, thrombospondin-1 and the PfEMP-1 protein, respectively. Growth hormone-releasing peptides (GHRP) were identified as the first CD36 synthetic ligands. In order to identify new CD36 synthetic ligands, the development of a high-throughput method is essential to unveil compounds of high binding affinity. We have expressed a recombinant CD36 ectodomain protein in Sf9 insect cells. The soluble and affinity purified protein was immobilized on a surface plasmon resonance (SPR) sensor for binding studies. Synthetic ligands were analyzed by SPR spectroscopy for determination of their respective dissociation constant (KD). A structure-activity relationship of CD36 ligands was established. To validate the SPR binding signal, a good correlation was observed between KD and the IC50 values obtained from the inhibition curves of the MAPK kinase JNK1/2 phosphorylation induced by an oxidized phospholipid, the POVPC, in the presence of increasing concentrations of CD36 ligands in RAW 264.7 macrophage cells.

Azapeptide

CD36

GHRP

Résonance des plasmons de surface

SPR

Growth hormone-releasing peptides

Surface plasmon resonance

The genetic basis of human height : the role of estrogen

Carter, Shea L.

January 2008

Height is a complex physical trait that displays strong heritability. Adult height is related to length of the long bones, which is determined by growth at the epiphyseal growth plate. Longitudinal bone growth occurs via the process of endochondral ossification, where bone forms over the differentiating cartilage template at the growth plate. Estrogen plays a major role in regulating longitudinal bone growth and is responsible for inducing the pubertal growth spurt and fusion of the epiphyseal growth plate. However, the mechanism by which estrogen promotes epiphyseal fusion is poorly understood. It has been hypothesised that estrogen functions to regulate growth plate fusion by stimulating chondrocyte apoptosis, angiogenesis and bone cell invasion in the growth plate. Another theory has suggested that estrogen exposure exhausts the proliferative capacity of growth plate chondrocytes, which accelerates the process of chondrocyte senescence, leading to growth plate fusion. The overall objective of this study was to gain a greater understanding of the molecular mechanisms behind estrogen-mediated growth and height attainment by examining gene regulation in chondrocytes and the role of some of these genes in normal height inheritance. With the heritability of height so well established, the initial hypothesis was that genetic variation in candidate genes associated with longitudinal bone growth would be involved in normal adult height variation. The height-related genes FGFR3, CBFA1, ER and CBFA1 were screened for novel polymorphisms using denaturing HPLC and RFLP analysis. In total, 24 polymorphisms were identified. Two SNPs in ER (rs3757323 C>T and rs1801132 G>C) were strongly associated with adult male height and displayed an 8 cm and 9 cm height difference between homozygous genotypes, respectively. The TC haplotype of these SNPs was associated with a 6 cm decrease in height and remarkably, no homozygous carriers of the TC haplotype were identified in tall subjects. No significant associations with height were found for polymorphisms in the FGFR3, CBFA1 or VDR genes. In the epiphyseal growth plate, chondrocyte proliferation, matrix synthesis and chondrocyte hypertrophy are all major contributors to long bone growth. As estrogen plays such a significant role in both growth and final height attainment, another hypothesis of this study was that estrogen exerted its effects in the growth plate by influencing chondrocyte proliferation and mediating the expression of chondrocyte marker genes. The examination of genes regulated by estrogen in chondrocyte-like cells aimed to identify potential regulators of growth plate fusion, which may further elucidate mechanisms involved in the cessation of linear growth. While estrogen did not dramatically alter the proliferation of the SW1353 cell line, gene expression experiments identified several estrogen regulated genes. Sixteen chondrocyte marker genes were examined in response to estrogen concentrations ranging from 10-12 M to 10-8 M over varying time points. Of the genes analysed, IHH, FGFR3, collagen II and collagen X were not readily detectable and PTHrP, GHR, ER, BMP6, SOX9 and TGF1 mRNAs showed no significant response to estrogen treatments. However, the expression of MMP13, CBFA1, BCL-2 and BAX genes were significantly decreased. Interestingly, the majority of estrogen regulated genes in SW1353 cells are expressed in the hypertrophic zone of the growth plate. Estrogen is also known to regulate systemic GH secretion and local GH action. At the molecular level, estrogen functions to inhibit GH action by negatively regulating GH signalling. GH treated SW1353 cells displayed increases in MMP9 mRNA expression (4.4-fold) and MMP13 mRNA expression (64-fold) in SW1353 cells. Increases were also detected in their respective proteins. Treatment with AG490, an established JAK2 inhibitor, blocked the GH mediated stimulation of both MMP9 and MMP13 mRNA expression. The application of estrogen and GH to SW1353 cells attenuated GH-stimulated MMP13 levels, but did not affect MMP9 levels. Investigation of GH signalling revealed that SW1353 cells have high levels of activated JAK2 and exposure to GH, estrogen, AG490 and other signalling inhibitors did not affect JAK2 phosphorylation. Interestingly, AG490 treatment dramatically decreased ERK2 signalling, although GH did stimulate ERK2 phosphorylation above control levels. AG490 also decreased CBFA1 expression, a transcription factor known to activate MMP9 and MMP13. Finally, GH and estrogen treatment increased expression of SOCS3 mRNA, suggesting that SOCS3 may regulate JAK/STAT signalling in SW1353 cells. The modulation of GH-mediated MMP expression by estrogen in SW1353 cells represents a potentially novel mechanism by which estrogen may regulate longitudinal bone growth. However, further investigation is required in order to elucidate the precise mechanisms behind estrogen and GH regulation of MMP13 expression in SW1353 cells. This study has provided additional evidence that estrogen and the ER gene are major factors in the regulation of growth and the determination of adult height. Newly identified polymorphisms in the ER gene not only contribute to our understanding of the genetic basis of human height, but may also be useful in association studies examining other complex traits. This study also identified several estrogen regulated genes and indicated that estrogen modifies the expression of genes which are primarily expressed in the hypertrophic region of the epiphyseal growth plate. Furthermore, synergistic studies incorporating GH and estrogen have revealed the ability of estrogen to attenuate the effects of GH on MMP13 expression, revealing potential pathways by which estrogen may modulate growth plate fusion, longitudinal bone growth and even arthritis.

A re-examination of the Ghrelin and Ghrelin receptor genes

Seim, Inge

January 2009

The last few years have seen dramatic advances in genomics, including the discovery of a large number of non-coding and antisense transcripts. This has revolutionised our understanding of multifaceted transcript structures found within gene loci and their roles in the regulation of development, neurogenesis and other complex processes. The recent and continuing surge of knowledge has prompted researchers to reassess and further dissect gene loci. The ghrelin gene (GHRL) gives rise to preproghrelin, which in turn produces ghrelin, a 28 amino acid peptide hormone that acts via the ghrelin receptor (growth hormone secretagogue receptor/GHSR 1a). Ghrelin has many important physiological and pathophysiological roles, including the stimulation of growth hormone (GH) release, appetite regulation, and cancer development. A truncated receptor splice variant, GHSR 1b, does not bind ghrelin, but dimerises with GHSR 1a, and may act as a dominant negative receptor. The gene products of ghrelin and its receptor are frequently overexpressed in human cancer While it is well known that the ghrelin axis (ghrelin and its receptor) plays a range of important functional roles, little is known about the molecular structure and regulation of the ghrelin gene (GHRL) and ghrelin receptor gene (GHSR). This thesis reports the re-annotation of the ghrelin gene, discovery of alternative 5’ exons and transcription start sites, as well as the description of a number of novel splice variants, including isoforms with a putative signal peptide. We also describe the discovery and characterisation of a ghrelin antisense gene (GHRLOS), and the discovery and expression of a ghrelin receptor (growth hormone secretagogue receptor/GHSR) antisense gene (GHSR-OS). We have identified numerous ghrelin-derived transcripts, including variants with extended 5' untranslated regions and putative secreted obestatin and C-ghrelin transcripts. These transcripts initiate from novel first exons, exon -1, exon 0 and a 5' extended 1, with multiple transcription start sites. We used comparative genomics to identify, and RT-PCR to experimentally verify, that the proximal exon 0 and 5' extended exon 1 are transcribed in the mouse ghrelin gene, which suggests the mouse and human proximal first exon architecture is conserved. We have identified numerous novel antisense transcripts in the ghrelin locus. A candidate non-coding endogenous natural antisense gene (GHRLOS) was cloned and demonstrates very low expression levels in the stomach and high levels in the thymus, testis and brain - all major tissues of non-coding RNA expression. Next, we examined if transcription occurs in the antisense orientation to the ghrelin receptor gene, GHSR. A novel gene (GHSR-OS) on the opposite strand of intron 1 of the GHSR gene was identified and characterised using strand-specific RT-PCR and rapid amplification of cDNA ends (RACE). GHSR-OS is differentially expressed and a candidate non-coding RNA gene. In summary, this study has characterised the ghrelin and ghrelin receptor loci and demonstrated natural antisense transcripts to ghrelin and its receptor. Our preliminary work shows that the ghrelin axis generates a broad and complex transcriptional repertoire. This study provides the basis for detailed functional studies of the the ghrelin and GHSR loci and future studies will be needed to further unravel the function, diagnostic and therapeutic potential of the ghrelin axis.

Autocrine and paracrine regulation of Leydig cell survival in the postnatal testis /

Colón, Eugenia,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.

Regulation of insulin-like growth factor-II in human liver /

Horn, Henrik von,

January 2006

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 4 uppsatser.

Interactions of the growth hormone secretory axis and the central melanocortin system

Shaw, Amanda Marie

January 2004

Thesis (Ph.D.)--University of Florida, 2004. / Typescript. Title from title page of source document. Document formatted into pages; contains 142 pages. Includes Vita. Includes bibliographical references.

Maternal lineages and diversity of the growth hormone gene of South African goat populations

Ncube, Keabetswe Tebogo

09 1900

The maternal lineages and origins of the South African goat populations are unknown and hence pose challenges for breed characterization and conservation. This study investigated the maternal lineages of South African goats using complete mtDNA and ascertained the genetic diversity in the growth hormone gene within and between populations. Illumina MiSeq next generation sequencing was used to generate the full length of the mtDNA (16.64 kb) and growth hormone (2.54kb) genes in 50 goats of the commercial South African Boer (n =9), captive feral Tankwa (n =9), and SA village goat populations (n =32). The non-descript village populations were sampled from villages of the four major goat-producing provinces; (i) Hobeni village, Elliotdale municipality and Pechelsdam village, Inxubayethemba municipality in Eastern Cape (n=8), (ii) Coniliva and Ngubo villages in Msinga municipality Kwa-Zulu Natal (n=8), (iii) Mukovhabale village, Mutale municipality and Muila-muumone, Makhado municipality in Limpopo (n=8) and (iv) Pella village (n=6), Moses Kotane municipality North West (n=8) provinces of South Africa. A total of 184 SNPs and 55 AA changes were observed across the complete mtDNA genome. High within-population variation was observed in all the groups, ranging from 98.60 to 99.52%. A low FST (FST = 0.003-0.049) indicated close relatedness and possible gene flow between SA goat populations. Haplotypes and clades observed in the D-loop, COX1 and whole mtDNA network trees demonstrated relationships between South African goat populations. The South African goats clustered with Chinese goats from lineages A and B, suggesting common maternal lineages between the Chinese and South African goat populations. The results also suggested that the bezoar (Capra aegagrus) is a possible ancestor of South African domestic goats. A range of 27 to 58 SNPs per population were observed on the growth hormone gene. Amino acid changes from glycine to serine, tyrosine to cysteine and arginine to glycine were observed at exon 2 and exon 5. Gene diversity ranged from 0.8268 ± 0.0410 to 0.9298 ± 0.0050. Higher within breed diversity (97.37%) was observed within the population category consisting of SA village ecotypes and the Tankwa goats. Highest pairwise FST values ranging from 0.148 to 0.356 were observed between the SA Boer and both the SA village and Tankwa feral goat populations. The maximum likelihood phylogenetic analysis indicated nine genetic clades, which reflected close relationships between the South African populations and the other international breeds. Results imply greater potential for within population selection programs particularly with SA village goats. / Life and Consumer Sciences / M.Sc. (Statistical Genomics)

Genetic diversity

Goats mtDNA

Maternal lineages

Growth hormone gene

636.390968

Goats -- South Africa -- Case studies

Goats -- Breeding -- Case studies

Somatotropin -- Case studies

Efeitos da ghrelina, GHRP-6 e GHRH sobre a secreção de GH, ACTH e cortisol em pacientes com diabetes mellitus tipo 1 / Effects of ghrelin, GH-releasing peptide-6 (GHRP-6) and GHRH on GH, ACTH and cortisol release in type 1 diabetes mellitus

Sa, Larissa Bianca Paiva Cunha de [UNIFESP]

24 June 2009

Made available in DSpace on 2015-07-22T20:49:57Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-06-24 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Em pacientes com diabetes mellitus tipo 1 (DM1) foram observadas respostas normais ou aumentadas de GH apos estimulos. O eixo hipotalamo- hipofiseadrenal tem sido menos estudado. A ghrelina e um secretagogo de GH que tambem aumenta os niveis de ACTH e de cortisol, de forma semelhante ao GHRP-6. Nao existem estudos sobre os efeitos da ghrelina em pacientes com DM1. O objetivo do presente trabalho foi avaliar as respostas do GH, ACTH e cortisol a ghrelina e ao GHRP-6 em 9 pacientes com DM1 (HbA1c: 11.7 } 1,3%; media } SE) e em 9 individuos normais. A liberacao de GH induzida por GHRH tambem foi estudada. A media dos niveis basais de GH (ƒÊg/L) foi maior nos pacientes com DM1 (3.5 } 1.2) do que nos controles (0.6 } 0.3). Analisando AASC GH (ƒÊg/L.120min), nao foram observadas diferencas significantes entre os diabeticos (ghrelina: 3.148 } 427; GHRP-6: 1428 } 299; GHRH: 885 } 184) e os controles (ghrelina: 3228 } 1036 ; GHRP-6: 1271 } 217; GHRH: 643 } 178). Em ambos os grupos, a liberacao de GH induzida pela ghrelina foi maior do que apos GHRP-6 e GHRH. Houve uma tendencia (p = 0.055) a elevacao dos niveis de cortisol basal (ƒÊg/dL) nos pacientes com DM1 (11.7 } 1.5) comparado aos controles (8.2 } 0.8). Nao foram observadas diferencas significantes nos valores de AASC cortisol (ƒÊg/dL.90min) entre os grupos apos ghrelina (DM1: 303 } 106; controles: 467 } 86) e GHRP-6 (DM1: 135 } 112; controles: 187 } 73). A media de valores basais de ACTH (pg/mL) foi semelhante nos diabeticos (19.9 } 3.4) e nos controles (14.5 } 2.3). Nao foram observadas diferencas nos valores de AASC ACTH (pg/mL.90min) entre os grupos apos ghrelina (DM1: 1372 } 771; controles: 1394 } 327) e GHRP-6 (DM1: 257 } 291; controles: 423 } 211). Em resumo, os pacientes com DM1 tem resposta normal do GH a ghrelina, GHRP-6 e GHRH. A liberacao de ACTH e cortisol apos ghrelina e GHRP-6 tambem e semelhante aos controles. Nossos resultados sugerem que a hiperglicemia cronica do DM1 nao interfere com a liberacao de GH, ACTH e cortisol estimulada por estes peptideos. / In type 1 diabetes mellitus (T1DM), GH responses to provocative stimuli are normal or exaggerated while the hypothalamic-pituitary-adrenal axis has been less studied. Ghrelin is a GH-secretagogue which also increases ACTH and cortisol levels, similarly to GHRP-6. Ghrelin Ls effects in patients with T1DM have not been evaluated. We, therefore, studied GH, ACTH and cortisol responses to ghrelin and GHRP-6 in 9 patients with T1D1 (HbA1c: 11.7 }1.3%; mean }SE) and 9 control subjects. GHRH- induced GH release was also evaluated. Mean basal GH levels (Rg/L) were higher in T1DM (3.5 }1.2) than in controls (0.6 }0.3). Analyzing ƒ¢AUC GH values (Rg/L.120min), no significant differences were observed in T1DM (ghrelin: 3148 }427; GHRP-6: 1428 }299; GHRH: 885 }184) compared to controls (ghrelin: 3228 }1036; GHRP-6: 1271 }217; GHRH: 643 }178). In both groups, ghrelin-induced GH release was higher than after GHRP-6 and GHRH. There was a trend (p=0.055) to higher mean basal cortisol values (Rg/dL) in T1DM (11.7 }1.5) compared to controls (8.2 }0.8). No significant differences were seen in ƒ¢AUC cortisol values (Rg/dL.90min) in both groups after ghrelin (DM1:303 }106; controls: 467 }86) and GHRP-6 (DM1:135 }112; controls: 187 }73). Mean basal ACTH values (pg/mL) were similar in T1DM (19.9 }3.4) and controls (14.5 }2.3). No differences were seen in ƒ¢AUC ACTH levels (pg/mL.90min) in both groups after ghrelin (DM1:1372 }771; controls: 1394 }327) and GHRP-6 (DM1: 257 }291; controls: 423 }211). In summary, patients with T1DM have normal GH responsiveness to ghrelin, GHRP-6 and GHRH. ACTH and cortisol release after ghrelin and GHRP-6 is also similar to controls. Our results suggest that chronic hyperglycemia of T1DM does not interfere with GH, ACTH and cortisol releasing mechanisms stimulated by these peptides. / TEDE / BV UNIFESP: Teses e dissertações

Cortisol

Diabetes mellitus tipo 1

Ghrelina

Hormônio adrenocorticotrópico

Hidrocortisona

Hormônio do crescimento

Cortisol

Type 1 diabetes mellitus

Ghrelin

Adrenocorticotropic hormone

Hydrocortisone

Growth hormone