共查询到20条相似文献,搜索用时 31 毫秒
1.
O M Onagbesan B Vleugels N Buys V Bruggeman M Safi E Decuypere 《Domestic animal endocrinology》1999,17(2-3):299-313
In the past three decades, overwhelming evidence has accumulated to show that insulin-like growth factor (IGF)-I and -II, their receptors and binding proteins (IGFBP) (the IGF system), have major roles to play in the regulation of ovarian function in mammals. Although studies in birds did not start until 5-6 years ago, the limited information thus far available suggests that the IGFs act as autocrine/paracrine regulators of follicular growth and differentiation, just as observed in mammals. The genes for IGF-I and -II, type-I IGF receptor, IGFBP-2, and IGFBP-5 are expressed in both granulosa and theca cells of the chicken ovary. The mechanisms by which the IGF system controls ovarian function in the avian species are complex and involve interactions with the gonadotrophins (LH and FSH), growth hormone, and even other growth factors. Effects are different between strains and nutritional status. 相似文献
2.
It is well known that in protein‐starved chickens, small amounts of amino acid supplement, especially methionine, reduces nitrogen excretion and thereby improves nitrogen balance. On the other hand, excess intake of methionine causes growth depression and the growth‐depressive effect of excess methionine can be alleviated by consumption of dietary glycine. Insulin‐like growth factor‐I (IGF‐I) is one of various growth‐promoting factors relating to the efficiency of animal production and is known to be very sensitive to changes in nutritional status. In the present study, the interactive effect of glycine on nitrogen sparing effect of methionine in protein‐starved chickens was examined. In addition, the relation of IGF‐I and its specific binding protein to the nitrogen sparing effect of supplemented methionine was also investigated. Two‐days refeeding of methionine supplemented to protein‐free diet could promptly alleviate body weight loss in protein‐starved chickens, and the alleviation of body weight loss by methionine was not improved by glycine supplements. Moreover, such acute alleviation of body weight loss by dietary methionine was independent of the change in plasma IGF‐I concentration. 相似文献
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D E Bauman 《Domestic animal endocrinology》1999,17(2-3):101-116
Bovine somatotropin (bST) results in increased milk yield and an unprecedented improvement in efficiency. Beginning in the 1930s to present day, investigations have examined animal-related factors such as nutrition, bioenergetics, metabolism, health and well being and consumer-related factors such as milk quality, manufacturing characteristics, and product safety. Overall, bST is a homeorhetic control involved in orchestrating many physiological processes. Direct effects involve adaptations in many tissues and the metabolism of all nutrient classes--carbohydrates, lipids, protein, and minerals. Mechanisms include alterations in key enzymes, intracellular signal transduction systems, and tissue response to homeostatic signals. Indirect effects involve the mammary gland and are thought to be mediated by the insulin-like growth factor (IGF) system. Specific changes include increased cellular rates of milk synthesis and enhanced maintenance of secretory cells. Indirect effects are modulated by environment and management factors, especially nutritional status. This modulation is a central component in allowing ST to play a key role in regulating nutrient utilization across a range of physiological situations. U.S. commercial use began in 1994, and adoption has been extensive. From a consumer perspective, bST was unique, and special interest groups loudly predicted dire consequences. However, introduction of bST had no impact on milk consumption, and milk labeled as recombinant bST-free occupies a minor niche market. From a producer perspective, commercial use verified scientific studies and enhanced net farm income. Overall, ST is a key homeorhetic control regulating nutrient partitioning, and the ST/IGF system plays a key role in animal performance and well being across a range of physiological situations. 相似文献
5.
Endocrine and metabolic aspects in milk-fed calves. 总被引:1,自引:0,他引:1
In neonatal calves besides adaptations in organ function there are marked metabolic and endocrine changes. The growth hormone (GH)-insulin-like growth factor (IGF) axis is basically functioning, but needs maturation. Various metabolic and endocrine traits do not exhibit marked ontogenetic changes after the first week of life, but others remain different from the adult stage. Thus, plasma oxytocin or an oxytocin-like substance and nitrate concentrations are elevated for months. The ability to digest colostrum (C) and milk involves great alterations in structure and function of the gastrointestinal (GI) tract. C intake is important for passive immunity, provision of nutrients, minerals and vitamins, and contains biologically active substances. IGF-I, present in C in high amounts, appears to enhance GI tract development and function. For sufficient absorption not only of immunoglobulins, but also of fatty acids and fat-soluble vitamins, C should be ingested immediately after birth. The amino acid pattern and the glutamine/glutamate ratio depends greatly on whether C is fed or not. Effects on insulin, IGF-I, and IGF binding proteins depend on time-point and amounts of C fed. After the colostral period calves are almost exclusively fed milk and milk substitutes or weaned. Low iron intake, required for the production of pale meat, besides anemia causes metabolic and endocrine adaptations, such as enhanced insulin-dependent glucose utilization and appears to reduce IGF-I responses to GH. Metabolic and endocrine changes, such as insulin resistance and disturbed glucose metabolism, can be observed in part in association with high feeding intensity in veal calves. 相似文献
6.
G.S.G. Spencer 《Livestock Production Science》1985,12(1):31-46
Growth is a complex, highly integrated process. It involves a host of interactions between nutrients, environment, genotype, many very different hormones and the receptors for these hormones in different tissues. The ultimate hormones for growth are the growth hormone-dependent somatomedins. These are purely anabolic agents that stimulate increases in both the number of cells (hyperplasia) and their size (hypertrophy). Although the growth hormone-somatomedins axis is the central route for growth control, many other hormones influence their effectiveness. Growth hormone — despite being essential for somatomedin production — is also lipolytic and diabetogenic. It thus has both anabolic and catabolic actions. Insulin has some direct effects on hypertrophy, but also controls the ability of growth hormone to stimulate somatomedin production by regulating the growth hormone receptors involved in stimulating production of somatomedins. Similarly, thyroid hormones regulate somatomedin receptors. Just as insulin has direct and indirect anabolic actions, so glucocorticoids have catabolic actions of both a direct and indirect nature. Oestrogens also have direct and indirect effects, but these are antagonistic; on the one hand directly stimulating cell growth by hypertrophy and on the other inhibiting somatomedins production.Clearly there has to be a controlling mechanism which allows a change in the hormonal balance towards anabolism for growth to be stimulated. Identifying and altering this factor(s) will be the key to increasing growth by physiological hormonal manipulation. A major candidate for this role of central growth controller is somatostatin, which inhibits the release of growth hormone, insulin and thyroid hormones, and also acts as a regulator connecting nutrient entry and metabolism. Recent experiments which show that immunization against somatostatin increases growth and food conversion efficiency support this hypothesis. 相似文献
7.
Effects of nutritional status on hormone concentrations of the somatotropin axis and metabolites in plasma and colostrum of Japanese Black cows 
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下载免费PDF全文 Ouanh Phomvisith Hideyuki Takahashi Ha Thi Mai Yuji Shiotsuka Atsuko Matsubara Toshihisa Sugino Christopher D. Mcmahon Tetsuji Etoh Ryoichi Fujino Mitsuhiro Furuse Takafumi Gotoh 《Animal Science Journal》2017,88(4):643-652
We aimed to determine the effects of nutritional status on concentrations of somatotropic axis hormones (growth hormone (GH) and insulin‐like growth factor 1 (IGF‐1)), insulin and metabolites (glucose, total protein and nonesterified fatty acids (NEFA)) in the plasma and colostrum in late antepartum cows. Eight pregnant Japanese Black cows were randomly assigned to two experimental groups (n = 4 per group). Control cows (CON) received 100% of their nutritional requirements until parturition, whereas restricted group cows (RES) received 60% of their nutritional requirements. Blood samples were taken during the antepartum period, and blood and colostrum samples were collected on days 0, 1, and 3 after calving. Compared to the CON group, the RES group had higher concentrations of GH and NEFA in plasma, but significantly lower concentrations of glucose and insulin in plasma. The concentrations of GH in plasma after calving were significantly higher, but total plasma protein was significantly lower in RES than in CON cows. Compared to the CON group, the RES group had significantly higher concentrations of GH in colostrum, but significantly lower total concentrations of protein in colostrum. Concentrations of IGF‐1 were not different between the two groups. These findings suggest that maternal nutritional status during late gestation influences concentrations of GH and total protein in the blood and colostrum of Japanese Black cows. 相似文献
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In humans the IGF binding proteins (BP) are closely related to metabolic status. In this paper we have examined the influence of controlled feed intake and GH treatment on IGF binding proteins in growing lambs. Analyses were performed on plasma samples from animals maintained on two levels of feed intake (1.75% body weight as lucerne pellets or 3% body weight which is approximately equivalent to an ad libitum intake) either with or without recombinant bovine growth hormone (BST; 0.25 mg/kg body weight/day) administration. Samples used for the analyses reported in this paper were collected at 9.00 hr following 41 d of treatment. Total plasma IGF-I was increased on the higher plane of nutrition (P less than .01) and by BST (P less than .001) but only on high feed intake. IGF is associated with BP of 150 kDa and 40-50 kDa in sheep plasma. 150 kDa bound IGF-I was increased on the higher plane of nutrition (P less than .05) and by BST treatment (P less than .001) but only on the higher feed intake. By contrast no change in 40-50 kDa bound IGF-I was observed with treatment. Unbound IGF-I was also found in sheep plasma (2-5% of total) but demonstrated only minor changes in relation to treatment. Saturation analysis gave estimates of total binding capacity and saturation of the IGF-BP. In ovine plasma the binding capacity of the 150 kDa species is in excess of bound IGF (P less than .001). Saturation did not change with treatment despite the observed differences in 150 kDa bound IGF-I. Thus BP(s) contained in the 150 kDa fraction were responsive to treatment. By contrast large differences in saturation of the 40-50 kDa species were observed (P less than .001) despite little treatment dependent change in bound IGF-I. IGF-BP(s) in the 40-50 kDa fraction were elevated in the low nutrition group and suppressed on the higher feed intake resulting in near saturation. These data strongly suggest that the IGF BP are modulated according to metabolic status in the sheep. 相似文献
9.
Julie P Richmond John Skinner James Gilbert Lisa M Mazzaro Steven A Zinn 《Journal of zoo and wildlife medicine》2008,39(3):342-348
The somatotropic axis, including growth hormone (GH), insulin-like growth factor (IGF)-I, and IGF binding proteins (IGFBP), is a bridge between growth physiology, developmental age, and nutritional status in domestic animals. However, the importance of the somatotropic axis in nutrition, growth, and development of harbor seals has not been previously explored. Given the difficulty of conducting longitudinal studies in free-ranging harbor seals, this study focused on the potential use of harbor seals in rehabilitation facilities as a model for free-ranging seals. The purpose of this research was to compare concentrations of components of the somatotropic axis in free-ranging versus rehabilitated harbor seal pups. The hypothesis was that measurements of the somatotropic axis will be similar between individuals of comparable age and nutritional status (fasting versus feeding). To investigate this hypothesis, harbor seal pups (n=8) brought to The Marine Mammal Center (Sausalito, California, USA) or Mystic Aquarium (Mystic, Connecticut, U.S.A.) were initially assessed and determined to be healthy but abandoned. All pups were less than 2 wk of age upon arrival at rehabilitation facilities. Standard length was assessed at the time of arrival and again at release. Body mass was measured every week and blood samples were collected from each pup at 0, 4, and 8 wk of rehabilitation. Blood was collected and morphometrics assessed in free-ranging harbor seal pups (n=8) from the Gulf of Maine. Sera were analyzed for GH, IGF-I, and IGFBP concentrations. Concentrations of GH, IGF-I, and IGFBP-2 and -3 in rehabilitated pups were within a similar range compared with free-ranging pups when considered in the context of presumed nutrient intake. These data suggest that rehabilitated harbor seals may provide a useful model to investigate the effects of nutrient intake on growth and development of harbor seals, and will provide insight into phocid endocrinology and metabolism. 相似文献
10.
Immunohistochemical Expression of Growth Factors in the Follicular Wall of Normal and Cystic Ovaries of Sows 下载免费PDF全文
下载免费PDF全文 FJF Sant'Ana JL Reis Junior GR Blume EJ Gimeno F Rey HH Ortega 《Reproduction in domestic animals》2015,50(2):327-332
The expression of growth factors was evaluated immunohistochemically in normal and cystic ovaries of sows. The immunohistochemically stained area (IHCSA) was quantified by image analysis to analyse the expression of these proteins in the follicular wall of secondary, tertiary and cystic follicles. IGF‐I immunoreactivity was strong in the granulosa cell layer (GC), moderate in the theca interna (TI) and mild in the theca externa (TE) of the normal follicles. There was severe reduction of the labelling to IGF‐I in the GC of the follicular and luteinized cysts. In the normal follicles, the reactivity for IGF‐II was very similar to pattern noted in IGF‐I. There was reduction of the IHCSAs in the GC of the follicular and luteinized cysts, but the decrease was not significant. The staining of the IGF‐II in the TI and TE of the cysts was increased, in comparison with normal follicles. The IHCSAs for VEGF were higher in the GC and TE of the normal follicles in contrast to TI, but this difference was noted only in the tertiary follicle. The VEGF reactivity increased in the GC of the cysts, in relation to normal follicles. The results of the current study show that the formation of ovarian cysts in sows is associated with alterations in the immunohistochemical expression of some growth factors. 相似文献
11.
Evidence is discussed which indicates that nutrient partitioning between muscle and adipose tissue can be altered by growth hormone administration in meat animals. In the limited number of studies conducted with meat animals, growth rate, feed efficiency and carcass composition were improved by growth hormone administration. When insulin was administered to normally growing swine no improvement in growth performance was observed. The mechanisms by which growth hormone affects growth performance are not clear but considerable data from rodent studies exist to indicate that many of the growth promoting effects of this hormone are due to somatomedins. However, few data are available for meat animals to indicate whether the growth promoting effects of growth hormone are mediated by somatomedins. Knowledge about the mechanisms that regulate growth hormone synthesis, secretion and biological action is accumulating. It is apparent that growth hormone administration induces an insulin-resistant state in rodents and meat animals. It is not clear whether chronic growth hormone administration in meat animals induces a growth hormone resistant state. Based on the available information, manipulation of systemic hormone concentrations and(or) tissue sensitivity to hormones involved in growth and differentiation may result in means to manipulate fetal and postnatal growth and development. 相似文献
12.
Basic principles of muscle development and growth in meat-producing mammals as affected by the insulin-like growth factor (IGF) system 总被引:11,自引:0,他引:11
This presentation aims to describe how the basic events in prenatal muscle development and postnatal muscle growth are controlled by the insulin-like growth factor system (IGF). The prenatal events (myogenesis) cover the rate of proliferation, the rate and extent of fusion, and the differentiation of three myoblast populations, giving rise to primary fibers, secondary fibers, and a satellite cell population, respectively. The number of muscle fibers, a key determinant of the postnatal growth rate, is fixed late in gestation. The postnatal events contributing to myofiber hypertrophy comprise satellite cell proliferation and differentiation, and protein turnover. Muscle cell cultures produce IGFs and IGF binding proteins (IGFBPs) in various degrees depending on the origin (species, muscle type) and state of development of these cells, suggesting an autocrine/paracrine mode of action of IGF-related factors. In vivo studies and results based on cell lines or primary cell cultures show that IGF-I and IGF-II stimulate both proliferation and differentiation of myoblasts and satellite cells in a time and concentration-dependent way, via interaction with type I IGF receptors. However, IGF binding proteins (IGFBP) may either inhibit or potentiate the stimulating effects of IGFs on proliferation or differentiation. During postnatal growth in vivo or in fully differentiated muscle cells in culture, IGF-I stimulates the rate of protein synthesis and inhibits the rate of protein degradation, thereby enhancing myofiber hypertrophy. The possible roles and actions of the IGF system in regulating and determining muscle growth as affected by developmental stage and age, muscle type, feeding levels, treatment with growth hormone and selection for growth performance are discussed. 相似文献
13.
J. A. Mol I.S. Lantinga‐van Leeuwen E. van Garderen P.J. Selman M.A. Oosterlaken‐Dijksterhuis J.A. Schalken 《The Veterinary quarterly》2013,33(4):111-115
Abstract The discovery in the early 1990s that progestin‐induced growth hormone (GH) excess in the dog originates in the mammary gland can be seen as a hallmark in the research on the pathogenesis of mammary cancer in the dog. The local biosynthesis and release of GH may provide a highly proliferative environment in the mammary gland, which contributes to the development and/or progression of mammary tumours. Before final goals such as prevention of tumour formation or inhibition of tumour promotion can be achieved it is of eminent importance to elucidate the mechanism of progesterone‐induced mammary Gil production and the mechanism of local autocrine/paracrine action of GH. These local GH effects may be achieved through direct growth stimulating effects of GH as well as by indirect effects mediated by the stimulation of the biosynthesis of insulin‐like growth factor‐I (IGF‐I). The biological effects of the IGFs largely depend on the presence of IGF binding proteins (IGFBPs) which may both enhance or inhibit the activity of the IGFs. This review concentrates on recent advances in the understanding of the local mammary GH‐IGF axis and the lessons which can be drawn from the dog for mammary cancer research in other species. 相似文献
14.
Kamanga-Sollo E White ME Hathaway MR Weber WJ Dayton WR 《Domestic animal endocrinology》2011,40(1):60-66
Although androgenic and estrogenic steroids are widely used to enhance muscle growth and increase feed efficiency in feedlot cattle, their mechanism of action is not well understood. Although in vivo studies have indicated that androgens affect protein synthesis and protein degradation rate in muscle, results from in vitro studies have been inconsistent. We have examined the effects of trenbolone acetate (TBA), a synthetic androgen, on protein synthesis and degradation rates in fused bovine satellite cell (BSC) cultures. Additionally, we have examined the effects of compounds that interfere with binding of TBA or insulin-like growth factor-1 (IGF-1) to their respective receptors on TBA-induced alterations in protein synthesis and degradation rates in BSC cultures. Treatment of fused BSC cultures with TBA results in a concentration-dependent increase (P < 0.05) in protein synthesis rate and a decrease (P < 0.05) in degradation rate, establishing that TBA directly affects these parameters. Flutamide, a compound that prevents androgen binding to the androgen receptor, suppresses (P < 0.05) TBA-induced alterations in protein synthesis and degradation in fused BSC cultures, indicating the androgen receptor is involved. JB1, a competitive inhibitor of IGF-1 binding to the type 1 IGF receptor (IGF1R), suppresses (P < 0.05) TBA-induced alterations in protein synthesis and degradation, indicating that this receptor also is involved in the actions of TBA on both synthesis and degradation. In summary, our data show that TBA acts directly to alter both protein synthesis and degradation rates in fused BSC cultures via mechanisms involving both the androgen receptor and IGF1R. 相似文献
15.
The objective of this study was to determine the mechanism by which insulin-like growth factor-I (IGF1) stimulates proliferation of mammary epithelial cells, using the bovine mammary epithelial cell line MAC-T as a model. IGF1 significantly up- or down-regulated the expression of 155 genes in MAC-T cells. Among the most significantly suppressed was the gene for connective tissue growth factor (CTGF), a secretory protein that has both proliferative and apoptotic effects and is also a low-affinity binding protein of IGF1. IGF1 inhibited CTGF expression through the PI3K-Akt signaling pathway. Administration of growth hormone (GH), a strong stimulator of IGF1 production in vivo, decreased mammary CTGF mRNA in cattle; however, GH did not affect CTGF expression in MAC-T cells, suggesting that IGF1 may also inhibit CTGF expression in the mammary gland. Added alone CTGF stimulated proliferation of MAC-T cells, but in combination with IGF1 it attenuated IGF1's stimulation of proliferation of MAC-T cells. Excess IGF1 reversed this attenuating effect of CTGF. Despite being an IGF binding protein, CTGF did not affect IGF1-induced phosphorylation of IGF1 receptor (IGF1R) or IGF1R expression in MAC-T cells, indicating that the attenuating effect of CTGF on IGF1 stimulated proliferation of MAC-T cells was not mediated by decreasing IGF1's ability to bind to IGF1R or by decreasing IGF1R expression. Overall, these results suggest a novel biochemical and functional relationship between CTGF and IGF1 in the bovine mammary gland, where IGF1 may inhibit CTGF expression to reduce the attenuating effect of CTGF on IGF1 stimulated proliferation of epithelial cells. 相似文献
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M E White T G Ramsay J M Osborne K A Kampman D W Leaman 《Journal of animal science》1991,69(1):134-145
We investigated the effects of weaning or fasting of 21- or 35-d-old swine by monitoring serum mitogenic activity, circulating insulin-like growth factor I (IGF-I) and its binding proteins using L6 myoblast bioassays, RIA and ligand blotting techniques. Serum samples were collected from 21- or 35-d-old animals just before and 36 h after weaning or fasting. Sera from 21- and 35-d-old weaned animals were not significantly altered in their ability to promote myoblast proliferation, whereas sera from 21- and 35-d-old fasted animals caused 29 and 21% decreases (P less than .05) compared with preweaning. The mitogenic activity of control serum was inhibited by serum from fasted animals but not by preweaned or weaned sera. Serum IGF-I levels were decreased 65 to 70% (P less than .05) with weaning or fasting at both ages. Unoccupied binding sites on circulating IGF binding proteins in the 155 kDa range decreased 18 to 19% with weaning at both ages and decreased 40% (P less than .05) with fasting at 21 d but only 17% at 35 d. Ligand blotting revealed that the 43 and 39 kDa IGF binding protein bands decreased with weaning and fasting at both ages, whereas the 29-kDa band increased with weaning and fasting. These data indicate that serum IGF-I and specific IGF binding protein bands decrease during weaning or fasting at 21 and 35 d of age. However, serum mitogenic activity did not always follow serum IGF-I levels. 相似文献
18.
LH and PGF(2alpha) are the principal luteotrophic and luteolytic hormones in domestic animals, however, it is becoming increasingly apparent that intra-ovarian factors can modulate luteal function. For example, the insulin-like growth factors (IGF-I and -II) can regulate ovarian function, and have direct effects on ovarian cells. An important role for the IGFs in regulating ovarian function is suggested by the multiple effects of IGFs on both follicular and luteal steroidogenesis. Expression of mRNA encoding IGF-I, IGF-II and the type 1 IGF receptor has also been detected in the ruminant CL and is suggestive of autocrine/paracrine roles for both IGF-I and -II in the regulation of luteal function. The actions of the IGFs are further modulated by their association with specific binding proteins (IGFBPs), which regulate the transport of IGFs and their presentation to specific receptors. IGFBPs have been detected in the CL of domestic animals, and inhibitory effects on IGF-I-stimulated progesterone production have been demonstrated. The rapid cyclical changes in luteal growth and regression are associated with rapid changes in vasculature. The principle angiogenic factors include the fibroblast growth factors (FGFs), vascular endothelial growth factor (VEGF) and the angiopoietins (Ang). Other locally produced factors include cytokines such as TNF-alpha and IL-1beta. One such factor is monocyte chemoattractant protein (MCP-1), which increases after exogenous PGF(2alpha). An influx of macrophages takes place in the CL around luteolysis, possibly in response to MCP-1 release, but these changes are not observed in cattle when luteolysis is inhibited. In conclusion locally produced factors are important in the control of luteal function, although their roles have yet to fully elucidated. 相似文献
19.
Insulin-like growth factor 1 (IGF1) plays an important role in fish growth. This study investigated the IGF1 response to various nutritional conditions in yellowtail. First, we cloned 1,075 bp of yellowtail IGF1 cDNA, which codes for a protein of 185 amino acids (aa). This is composed of 44 aa for the signal peptide; 68 aa for the mature peptide comprising the B, C, A, and D domains; and 73 aa for the E domain. The mature yellowtail IGF1 showed high identity to IGF1 of other teleosts. Insulin-like growth factor 1 mRNA expression in the liver and white muscle was measured to observe the IGF1 response to various nutritional conditions, because the liver has the highest IGF1 expression and white muscle comprises the largest fraction of the fish body. Only white muscle IGF1 mRNA expression decreased significantly by 3 wk of fasting and recovered by refeeding. In subsequent feeding ratio (1%, 2%, and 3%/BW/d) experiments, significant correlations to growth were observed in white muscle IGF1 mRNA expression at 2- and 6-wk points and in hepatic IGF1 mRNA expression at 4 wk point. These data suggest that IGF1 expression both in hepatic and white muscle is important for somatic growth in yellowtail. Furthermore, white muscle IGF1 mRNA expression showed better responses to somatic growth and nutrition status in our two experiments than hepatic IGF1 mRNA expression. 相似文献
20.
胰岛素样生长因子2(insulin-like growth factor 2,IGF2)作为胰岛素类激素家族中重要成员之一,广泛参与机体众多生理代谢过程,在癌症发生、神经调节、糖代谢疾病、骨质疏松、肌肉发育和脂肪沉积等方面具有重要的作用,其功能行使主要通过与受体IGF1R和IGF2R结合或与胰岛素样生长因子结合蛋白IGFBPs和IGF2BPs竞争性结合发挥功能。鉴于IGF2基因在肌肉发育和脂肪沉积中的重要作用,发掘IGF2基因相关分子标记并解析其内在调控机理,在畜牧生产中具有重要的意义。研究发现,众多IGF2基因遗传变异与动物的生长发育之间存在显著相关关系,其可能通过影响IGF2基因印记、甲基化状态、转录因子结合或miRNA靶向结合型转录后调控等方式发挥作用。因此,文章综述了IGF2基因表达调控模式,包括IGF2与其受体的调控关系,基因印记与miRNA参与的表观遗传调控,转录因子对其的调节作用,遗传变异等方面的内容,以期为IGF2基因在动物生长发育调控相关研究中提供相应的借鉴,为分子育种提供有效线索。 相似文献