241 research outputs found
Significance of the disulphide bonds of human growth hormone
Struktura hormonu wzrostu (GH, growth hormone) stabilizowana jest dwoma wiązaniami disiarczkowymi — C53-C165 o C182-C189w ludzkim GH. Naukowcy badają rolę tych cech strukturalnych od końca lat 60. ubiegłego stulecia. Początkowe badania sugerowały, żewspomniane wiązania disiarczkowe nie są istotne dla aktywności biologicznej GH. Jednak w wyniku zastosowania bardziej zaawansowanychtechnik badawczych, a także na podstawie danych uzyskanych u pacjentów będących nosicielami mutacji genu GH1 stwierdzono,że dla aktywności biologicznej GH konieczna jest obecność wiązania disiarczkowego między cysteiną w pozycji C53 i cysteiną w pozycjiC165. Z kolei przerwanie C-końcowego wiązania disiarczkowego (C182-C189) w niewielkim zakresie wpływa na siłę działania biologicznegoGH mimo stwierdzonego w kompleksowym badaniu in vitro obniżenia powinowactwa wiązania z receptorem GH i obniżenia trwałości.W celu potwierdzenia tych wyników autorzy otrzymali myszy transgeniczne, u których zachodzi ekspresja analogu ludzkiego GH —C189A, i stwierdzili prawidłowe działanie pobudzające wzrost i prawidłowy wpływ na lipolizę. W niniejszej pracy przedstawiamy nowedane i przegląd dotychczasowych danych na temat wiązań disiarczkowych w GH. Omawiany też istotne mutacje stwierdzane u pacjentówz zaburzeniami wzrastania.Growth hormone (GH) structure is stabilised by two disulphide bonds, C53-C165 and C182-C189 in human GH. Researchers have investigatedthe role of these structural features since the late 1960s. Early studies implied that the disulphide bonds would not be importantfor biological activity of GH. However, more advanced techniques, as well as clues from patients carrying mutations in their GH1 gene,have demonstrated that the integrity of the disulphide bond between cysteines C53 and C165 is required for biological activity of GH.In contrast, disruption of the C-terminal disulphide bond (C182-C189) has only modest effects on the biological potency of GH, despitedecreased binding affinity to GH receptor and reduced stability as shown by a comprehensive in vitro study.To confirm these results, we generated transgenic mice that express a human GH analogue, C189A, and observed normal growth-promotingand lipolytic activities. In this article, we present new data and review old results concerning the disulphide bonds of GH. We also discussrelevant mutations found in patients with growth disorders
Glutamate, and its relationship to task-induced functional connectivity in the human brain: A focus on schizophrenia
Glutamate is the brain’s major excitatory neurotransmitter mediating both neuroplasticity and network function (Zhou & Danbolt, 2014). Basal glutamate (Glu) measured using proton magnetic resonance spectroscopy (1H-MRS) provides insight into a region’s density of neuropil related to the glutamatergic system. Moreover, given the role of glutamate in mediating brain network function, Glu levels may play a role in the brain’s functional connectivity (FC), which is typically estimated from functional magnetic resonance imaging (fMRI) time series data. These questions converge when considering the clinical syndrome of schizophrenia (SCZ). Patients with SCZ show abnormalities in basal Glu in the hippocampus and prefrontal cortex (Tebartz et al., 2013). They also show functional dys-connectivity across brain networks induced by tasks of learning (Baajour et al., 2020). Yet, no investigations have systematically assessed relationships between basal Glu and task-induced FC in healthy controls (HC), and possibly altered relationships in SCZ. Here, we will explore relationships between Glu (hippocampus and prefrontal cortex) and whole-brain functional connectivity derived from fMRI data acquired using a specifically tailored learning task (Ravishankar et al., 2019). Data was acquired in a single session in 72 participants (36 SCZ and 36 HC). From Glu quantitated in the hippocampus and the prefrontal cortex (LC Model, Woodcock et al., 2018), we will explore statistical relationships to FC estimated across a 90-node brain network, using a combination of clustering and graph theoretic methods, and address whether these relationships differ between HC and SCZ
Inflammatory and Glutamatergic Homeostasis Are Involved in Successful Aging
Whole body studies using long-lived growth hormone receptor gene disrupted or knock out (GHR-KO) mice report global GH resistance, increased insulin sensitivity, reduced insulin-like growth factor 1 (IGF-1), and cognitive retention in old-age, however, little is known about the neurobiological status of these mice. The aim of this study was to determine if glutamatergic and inflammatory markers that are altered in aging and/or age-related diseases and disorders, are preserved in mice that experience increased healthspan. We examined messenger ribonucleic acid (mRNA) expression levels in the brain of 4- to 6-, 8- to 10-, and 20- to 22-month GHR-KO and normal aging control mice. In the hippocampus, glutamate transporter 1 (GLT-1) and anti-inflammatory nuclear factor kappa-light-chain-enhancer of activated B cells (NFκB)-p50 were elevated in 8- to 10-month GHR-KO mice compared with age-matched controls. In the hypothalamus, NFκB-p50, NFκB-p65, IGF-1 receptor (IGF-1R), glutamate/aspartate transporter (GLAST), and 2-amino-3-(5-methyl-3-oxo 2,3-dihydro-1,2 oxazol-4-yl) propanoic acid receptor subunit 1 (GluA1) were elevated in 8- to 10- and/or 20- to 22-month GHR-KO mice when comparing genotypes. Finally, interleukin 1-beta (IL-1β) mRNA was reduced in 4- to 6- and/or 8- to 10-month GHR-KO mice compared with normal littermates in all brain areas examined. These data support the importance of decreased brain inflammation in early adulthood and maintained homeostasis of the glutamatergic and inflammatory systems in extended longevity
Oś hormon wzrostu–insulinopodobny czynnik wzrostu a karcynogeneza
The growth hormone (GH) and insulin-like growth factor (IGF) system plays an important role in the regulation of cell proliferation, differentiation, apoptosis, and angiogenesis. In terms of cell cycle regulation, the GH-IGF system induces signalling pathways for cell growth that compete with other signalling systems that result in cell death; thus the final effect of these opposed forces is critical for normal and abnormal cell growth. The association of the GH-IGF system with carcinogenesis has long been hypothesised, mainly based on in vitro studies and the use of a variety of animal models of human cancer, and also on epidemiological and clinical evidence in humans. While ample experimental evidence supports a role of the GH-IGF system in tumour promotion and progression, with several of its components being currently tested as central targets for cancer therapy, the strength of evidence from patients with acromegaly, GH deficiency, or treated with GH is much weaker. In this review, we will attempt to consolidate this data. (Endokrynol Pol 2016; 67 (4): 414–426)
Oś hormon wzrostu (GH)–insulinopodobny czynnik wzrostu (IGF) odgrywa istotną rolę w regulacji proliferacji i różnicowania komórek, apoptozy i angiogenezy. Oś GH–IGF wpływa na regulację cyklu komórkowego przez pobudzenie szlaku wzrostu komórki w stosunku do szlaków sygnałowych prowadzących do śmierci komórki, a ostateczny efekt oddziaływania tych dwóch sił ma podstawowe znaczenie dla prawidłowego lub nieprawidłowego wzrostu komórki. Hipotezy na temat powiązań osi GH–IGF z karcynogenezą pojawiły się wiele lat temu, głównie w oparciu o wyniki badań in vitro oraz badań z wykorzystaniem różnych zwierzęcych modeli raka występującego u ludzi. Chociaż liczne dane doświadczalne potwierdzają rolę osi GH–IGF sprzyjającą rozwojowi i progresji nowotworów, a nad kilkoma składowymi tej osi trwają obecnie badania oceniające ich przydatność jako główne cele terapii przeciwnowotworowej, to jednak siła dowodów uzyskanych u chorych z akromegalią, niedoborem GH lub osób leczonych GH jest znacznie słabsza. W niniejszej pracy przeglądowej spróbowano zebrać wszystkie te dane. (Endokrynol Pol 2016; 67 (4): 414–426)
Relative Contributions of Myostatin and the GH/IGF-1 Axis in Body Composition and Muscle Strength
Myostatin, a negative regulator of muscle growth, is considered a potential therapeutic agent for individuals suffering from various muscle wasting and strength declining diseases because inhibiting Mstn signaling leads to muscular hypertrophy. In this study we investigate the interaction between myostatin and the growth hormone/insulin-like growth factor-1 (GH/IGF-1) axis in muscle function and strength. To this end, we measured hind limb grip strength and myostatin levels in two mouse models of GH gene manipulation; GH receptor knockout (GHR-/-) mice which have reduced GH/IGF-1 action, and bovine GH transgenic (bGH) mice which have excess GH/IGF-1 action. We found that specific muscle force was significantly reduced in bGH mice, and significantly increased in GHR-/- mice, compared to their respective littermate wild type controls. The expression of the mature form of myostatin was significantly increased in bGH mice, and unchanged in GHR-/- mice. In the bGH mice, the high levels of mature myostatin were accompanied by increase body weight and lean mass, consistent with other published results indicating that the IGF-1 signaling pathway is dominant over that of Mstn. Our results also suggest that in these mouse models there is an inverse relationship between muscle strength and levels of myostatin and GH, since constitutive overexpression of GH resulted in elevated levels of mature myostatin in muscle, accompanied by a reduction in strength. By contrast, in the GHR-/- mice with reduced levels of IGF-1, mature myostatin levels were unchanged and muscle strength was increased
Odkrycie i zastosowanie pegwisomantu: antagonisty hormonu wzrostu
Growth hormone (GH) is a well established participant in several complex physiological processes including growth, differentiation,
and metabolism. Recombinant human GH is a drug that has been approved for use for several clinical conditions
where the action of GH is diminished or completely lacking. Thus there is considerable interest in developing novel
drugs that modify the function of GH. Only in the last several decades have the detailed structural features of GH along
with its interaction with its receptor been elucidated. In this review we summarise the basic structural and functional
properties of GH, its receptor and their interaction. In addition, we discuss the discovery and development of an effective
GH receptor antagonist, pegvisomant, and summarise potential therapeutic uses of this drug.
(Pol J Endocrinol 2007; 58 (4): 322-329)Hormon wzrostu (GH, growth hormone) uczestniczy w wielu fizjologicznych procesach dotyczących wzrastania, różnicowania
i metabolizmu. Leczenie rekombinowanym ludzkim GH jest akceptowane w wielu schorzeniach wiążących się
z całkowitym brakiem lub zmniejszeniem działania GH. Wynika stąd znaczne zainteresowanie rozwojem nowych leków
mogących modyfikować czynność GH. Dopiero niedawno wyjaśniono dokładną strukturę GH i jego interakcje z receptorem.
W niniejszej pracy autorzy podsumowują wiedzę dotyczącą podstawowej budowy GH, jego receptora i interakcji
między nimi. Ponadto, omówiono odkrycie i rozwój skutecznego antagonisty receptora GH, pegvisomantu i przedstawiono
potencjalne możliwości zastosowania terapeutycznego tego leku
A proteomic approach to obesity and type 2 diabetes
The incidence of obesity and type diabetes 2 has increased dramatically resulting in an increased interest in its biomedical relevance. However,
the mechanisms that trigger the development of diabetes type 2 in obese patients remain largely unknown. Scientific, clinical and pharmaceutical
communities are dedicating vast resources to unravel this issue by applying different omics tools. During the last decade, the advances in
proteomic approaches and the Human Proteome Organization have opened and are opening a new door that may be helpful in the identification
of patients at risk and to improve current therapies. Here, we briefly review some of the advances in our understanding of type 2 diabetes that
have occurred through the application of proteomics. We also review, in detail, the current improvements in proteomic methodologies and new
strategies that could be employed to further advance our understanding of this pathology. By applying these new proteomic advances, novel
therapeutic and/or diagnostic protein targets will be discovered in the obesity/Type 2 diabetes areaThis work is funded by Ministerio de Ciencia e Innovación (BFU2011–27492),
Fondos de Investigación Sanitaria (PI1302195), Centro de Investigación
Biomédica en Red Fisiopatología de Obesidad y Nutrición (CIBERobn), Instituto
de Salud Carlos III and Fundación de Endocrinología y Nutrición. Dr. Elena
López Villar is supported by ISCIII Spanish Health System (SNS BOE 2012)
and she is Delegate of HUPO (Human Proteome Organization) supporting clinical
proteomic studies at Hospital Niño Jesús of Madrid, Spain, to improve
diagnosis and therapies via researc
Post-transcriptional regulation of IGF1R by key microRNAs in long-lived mutant mice
Long-lived mutant mice, both Ames dwarf and growth hormone receptor genedisrupted or knockout strains, exhibit heightened cognitive robustness and altered IGF1 signaling in the brain. Here, we report, in both these long-lived mice, that three up-regulated lead microRNAs, miR-470, miR-669b, and miR-681, are involved in posttranscriptional regulation of genes pertinent to growth hormone/IGF1 signaling. All three are most prominently localized in the hippocampus and correspond to reduced expression of key IGF1 signaling genes: IGF1, IGF1R, and PI3 kinase. The decline in these genes expression translates into decreased phosphorylation of downstream molecules AKT and FoxO3a. Cultures transfected with either miR-470, miR-669b, or miR-681 show repressed endogenous expression of all three genes of the IGF1 signaling axis, most significantly IGF1R, while other similarly up-regulated microRNAs, including let-7g and miR-509, do not induce the same levels of repression. Transduction study in IGF1-responsive cell cultures shows significantly reduced IGF1R expression, and AKT to some extent, most notably by miR-681. This is accompanied by decreased levels of downstream phosphorylated forms of AKT and FoxO3a upon IGF1 stimulation. Suppression of IGF1R by the three microRNAs is further validated by IGF1R 3\u27UTR reporter assays. Taken together, our results suggest that miR-470, miR-669b, and miR-681 are all functionally able to suppress IGF1R and AKT, two upstream genes controlling FoxO3a phosphorylation status. Their up-regulation in growth hormone signaling-deficient mutant mouse brain suggests reduced IGF1 signaling at the posttranscriptional level, for numerous gains of neuronal function in these long-lived mice
Assessment of growth parameters and life span of GHR/BP gene-disrupted mice
GH has many biological roles, including promotion of growth. Most, if not all, of its roles are achieved through interaction with its receptor. We chose to study the effects of loss of GH signaling on growth and aging in a mouse model for Laron Syndrome (LS) in which the GHR/BP gene has been disrupted. We observed that mice homozygous for the disruption (−/−) were significantly smaller than normal wild-type (+/+) mice as well as mice heterozygous for the disruption, even at 1.5 yr of age. IGF-I levels were also significantly lower in the −/− mice and remained low as the mice aged. IGFBP-3 levels were severely reduced in the −/− mice, whereas IGFBP-1, -2, and -4 levels remained unchanged. Finally, the −/− mice lived significantly longer than +/+ and +/− mice. The latter result contradicts the anti-aging GH data and suggests the need for further analysis of GH and aging
Structure and function of a dual antagonist of the human growth hormone and prolactin receptors with site-specific PEG conjugates
Human growth hormone (hGH) is a pituitary-derived endocrine protein that regulates several critical postnatal physiologic processes including growth, organ development, and metabolism. Following adulthood, GH is also a regulator of multiple pathologies like fibrosis, cancer, and diabetes. Therefore, there is a significant pharmaceutical interest in developing antagonists of hGH action. Currently, there is a single FDA-approved antagonist of the hGH receptor (hGHR) prescribed for treating patients with acromegaly and discovered in our laboratory almost 3 decades ago. Here, we present the first data on the structure and function of a new set of protein antagonists with the full range of hGH actions—dual antagonists of hGH binding to the GHR as well as that of hGH binding to the prolactin receptor. We describe the site-specific PEG conjugation, purification, and subsequent characterization using MALDI-TOF, size-exclusion chromatography, thermostability, and biochemical activity in terms of ELISA-based binding affinities with GHR and prolactin receptor. Moreover, these novel hGHR antagonists display distinct antagonism of GH-induced GHR intracellular signaling in vitro and marked reduction in hepatic insulin-like growth factor 1 output in vivo. Lastly, we observed potent anticancer biological efficacies of these novel hGHR antagonists against human cancer cell lines. In conclusion, we propose that these new GHR antagonists have potential for development towards multiple clinical applications related to GH-associated pathologies.</p
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