Reproduction in Domestic Animals

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328 CR Barb, GJ Hausman and CA LentsFig. 2. Schematic illustration of leptin coordination of energy homeostasisand neuroendocrine function: Leptin is secreted in response tochanges in energy balance. Leptin acts on the hypothalamus to controlfood intake, reproduction and, by suppressing expression of neuropeptideY (NPY) and agouti related peptide (AGRP) and upregulationof proopiomelanocortin (POMC), a-melanocyte stimulating hormone(a-MSH) and kisspeptin (KiSS)while peripheral administration of kisspeptin increasedserum concentrations of LH but not FSH or GH. Thesedata illustrate that kisspeptin can activate the brainpituitaryaxis and may be part of an importantmechanism regulating activation of the GnRH ⁄ LHrelease and initiating onset of puberty in swine. Moreoverit is tempting to speculate that the kisspeptinneuronal pathway may play a role in interfacingmetabolic status of the post-partum sow with theGnRH ⁄ gonadotropic axis and hence may affect thepost-weaning fertility of the sow.In conclusion evidence presented supports the conceptthat metabolic signals, which reflect changes in energybalance, affect both the hypothalamic GnRH ⁄ LH pulsegenerator and appetite. Changes in fat metabolism inresponse to changes in feed intake and energy balancealter adipocyte function and circulating concentrationsof IGF-I and leptin. A preponderance of evidence citedabove suggests that leptin may serve as the primarymetabolic signal interacting with neuropeptides such askisspeptin and NPY that link energy status with theneuroendocrine axis and subsequent reproduction(Fig. 2).ReferencesAherne FX, Kirkwood RN, 1985: Nutrition and sow prolificacy.J Reprod Fertil 33, 169–183.Ahima RS, Qi Y, Singhal NS, Jackson MB, Scherer PE, 2006:Brain adipocytokine action and metabolic regulation. Diabetes55, S145–S154.Almeida FR, Mao J, Novak S, Cosgrove JR, Foxcroft GR,2001: Effects of different patterns of feed restriction andinsulin treatment during the luteal phase on reproductive,metabolic, and endocrine parameters in cyclic gilts. J AnimSci 79, 200–212.Angell CA, Tubbs RC, Moore AB, Barb CR, Cox NM, 1996:Depressed luteinizing hormone response to estradiol in vivoand gonadotropin-releasing hormone in vitro in experimentallydiabetic swine. Domest Anim Endocrinol 13, 453–463.Arreguin-Arevalo JA, Lents CA, Farmerie TA, Nett TM, ClayCM, 2007: KiSS-1 peptide induces release of LH by a directeffect on the hypothalamus of ovariectomized ewes. AnimReprod Sci 101, 265–275.Barb CR, Kraeling RR, 2004: Role of leptin in the regulationof gonadotropin secretion in farm animals. Anim ReprodSci 82–83, 155–167.Barb CR, Chang W-C, Leshin LS, Rampacek GB, KraelingRR, 1994: Opioid modulation of gonadotropin releasinghormone release from the hypothalamic preoptic area in thepig. Domest Anim Endocrinol 11, 375–382.Barb CR, Kraeling RR, Rampacek GB, Dove CR, 1997:Metabolic changes during the transition from the fed to theacute feed-deprived state in prepuberal and mature gilts. JAnim Sci 75, 781–789.Barb CR, Yan X, Azain MJ, Kraeling RR, Rampacek GB,Ramsay TG, 1998: Recombinant porcine leptin reduces feedintake and stimulates growth hormone secretion in swine.Domest Anim Endocrinol 15, 77–86.Barb CR, Barrett JB, Kraeling RR, Rampacek GB, 1999: Roleof leptin in modulating neuroendocrine function: a metaboliclink between the brain-pituitary and adipose tissue.Reprod Domest Anim 34, 111–125.Barb CR, Barrett JB, Kraeling RR, Rampacek GB, 2001a:Serum leptin concentrations, luteinizing hormone andgrowth hormone secretion during feed and metabolic fuelrestriction in the prepuberal gilt. Domest Anim Endocrinol20, 47–63.Barb CR, Hausman GJ, Houseknecht KL, 2001b: Biology ofleptin in the pig. Domest Anim Endocrinol 21, 297–317.Barb CR, Kraeling RR, Rampacek GB, 2002: Metabolicregulation of the neuroendocrine axis in pigs. ReproductionSuppl 59, 203–217.Barb CR, Barrett JB, Kraeling RR, 2004: Role of leptin inmodulating the hypothalamic-pituitary axis in the pig.Domest Anim Endocrinol 26, 201–214.Barb CR, Hausman GJ, Ramsay TG, 2006a: Leptin in farmanimals. in: Castracane VD, Henson MC (eds), Leptin.Endocrinology Update Series. Springer Publishing Group,New York, NY, pp. 263–308.Barb CR, Kraeling RR, Rampacek GB, Hausman GJ, 2006b:The role of neuropeptide Y and interaction with leptin inregulating feed intake and luteinizing hormone and growthhormone secretion in the pig. Reproduction 131, 1127–1135.Booth PJ, Cosgrove JR, Foxcroft GR, 1996: Endocrine andmetabolic responses to realimentation in feed-restrictedprepuberal gilts: associations among gonadotropins, metabolichormones, glucose, and uteroovarian development. JAnim Sci 74, 840–848.van den Brand H, Dieleman SJ, Soede NM, Kemp B, 2000:Dietary energy source at two feeding levels during lactationof primiparous sows: I. Effects on glucose, insulin, andluteinizing hormone and on follicle development, weaningto-estrusinterval, and ovulation rate. J Anim Sci 78, 396–404.van den Brand H, Prunier A, Soede NM, Kemp B, 2001: Inprimiparous sows, plasma insulin-like growth factor-I canbe affected by lactational feed intake and dietary energysource and is associated with luteinizing hormone. ReprodNutr Dev 41, 27–39.Brendemuhl JH, Lewis AJ, Poe ER Jr, 1989: Influence ofenergy and protein intake during lactation on body compositionof primiparous sows. J Anim Sci 67, 1478–1488.Campfield LA, Smith FJ, Burn P, 1996: The OB protein(leptin) pathway – a link between adipose tissue mass andcentral neural networks. Horm Metab Res 28, 619–632.Castellano JM, Navarro VM, Fernandez-Fernandez R,Castano JP, Malagon MM, Aguilar E, Dieguez C, MagniP, Pinilla L, Tena-Sempere M, 2006: Ontogeny andÓ 2008 No claim to original government works
Energy and Reproduction in the Pig 329mechanisms of action for the stimulatory effect of kisspeptinon gonadotropin-releasing hormone system of the rat. MolCell Endocrinol 257–258, 75–83.Clowes EJ, Aherne FX, Foxcroft GR, Baracos VE, 2003:Selective protein loss in lactating sows is associated withreduced litter growth and ovarian function. J Anim Sci 81,753–764.Cox NM, Britt JH, 1988: Pulsatile administration of gonadotropinreleasing hormone to lactating sows: endocrinechanges associated with induction of fertile estrus. BiolReprod 27, 1126–1137.Crown A, Clifton DK, Steiner RA, 2007: Neuropeptidesignaling in the integration of metabolism and reproduction.Neuroendocrinology 86, 175–182.Czaja K, Lakomy M, Sienkiewicz W, Kaleczyc J, Pidsudko Z,Barb CR, Rampacek GB, Kraeling RR, 2002: Distributionof neurons containing leptin receptors in the hypothalamusof the pig. Biochem Biophys Res Commun 298, 333–337.Czaja K, Kraeling RR, Barb CR, 2003: Are hypothalamicneurons transsynaptically connected to porcine adiposetissue? Biochem Biophys Res Commun 311, 482–485.De Rensis F, Gherpelli M, Superchi P, Kirkwood RN, 2005:Relationship between backfat depth and plasma leptinduring lactation and sow reproductive performance afterweaning. Anim Reprod Sci 90, 95–100.Dungan HM, Clifton DK, Steiner RA, 2006: Minireview:kisspeptin neurons as central processors in the regulation ofgonadotropin-releasing hormone secretion. Endocrinology147, 1154–1158.Estienne MJ, Harper AF, Barb CR, Azain MJ, 2000:Concentrations of leptin in serum and milk collected fromlactating sows differing in body condition [In ProcessCitation]. Domest Anim Endocrinol 19, 275–280.Estienne MJ, Harper AF, Kozink DM, Knight JW, 2003:Serum and milk concentrations of leptin in gilts fed a highorlow-energy diet during gestation. Anim Reprod Sci 75,95–105.Frisch RE, 1984: Body fat, puberty and fertility. Biol Rev 59,161–188.Guerre-Millo M, 2004: Adipose tissue and adipokines: forbetter or worse. Diabetes Metab 30, 13–19.Hart HA, Azain MJ, Hausman GJ, Reeves DE, Barb CR,2007: Failure of short term feed restriction to affectluteinizing hormone and leptin secretion or subcutaneousadipose tissue expression of leptin in the prepuberal gilt. CanJ Anim Sci 87, 191–197.Hauner H, 2005: Secretory factors from human adipose tissueand their functional role. Proc Nutr Soc 64, 163–169.Hausman GJ, Richardson RL, 1987: Adrenergic innervationof fetal pig adipose tissue. Histochemical and ultrastructuralstudies. Acta Anat (Basel) 130, 291–297.Hausman GJ, Poulos SP, Richardson RL, Barb CR, Andacht T,Mynatt R, Kirk H, 2006: Secreted proteins and genes in fetaland neonatal pig adipose tissue and stromal-vascular cells.J Anim Sci 84, 1666–1681.Hausman GJ, Barb CR, Dean RG, 2007: Patterns of geneexpression in pig adipose tissue: transforming growthfactors, interferons, interleukins and other cytokines. JAnim Sci 85, 2445–2456.King RH, Martin GB, 1989: Relationships between proteinintake during lactation, LH levels and oestrous activity infirst-litter sows. Anim Reprod Sci 19, 283–292.King RH, Williams IH, 1984: The effect of nutrition on thereproductive performance of first litter sows 2. Protein andenergy intakes during lactation. Anim Prod 38, 249–256.Kojima CJ, Carroll JA, Matteri RL, Touchette KJ, Allee GL,2007: Effects of weaning and weaning weight on neuroendocrineregulators of feed intake in pigs. J Anim Sci 85,2133–2139.Koketsu Y, Dial GD, Pettigrew JE, Xue J, Yang H, Lucia T,1998: Influence of lactation length and feed intake onreproductive performance and blood concentrations ofglucose, insulin and luteinizing hormone in primiparoussows. Anim Reprod Sci 52, 153–163.Kotani M, Detheux M, Vandenbogaerde A, Communi D,Vanderwinden JM, Le Poul E, Brezillon S, Tyldesley R,Suarez-Huerta N, Vandeput F, Blanpain C, Schiffmann SN,Vassart G, Parmentier M, 2001: The metastasis suppressorgene KiSS-1 encodes kisspeptins, the natural ligands of theorphan G protein-coupled receptor GPR54. J Biol Chem276, 34631–34636.Kraeling RR, Barb CR, 1990: Hypothalamic control ofgonadotrophin and prolactin secretion in pigs. J ReprodFertil Suppl 40, 3–17.Lawrence CB, Turnbull AV, Rothwell NJ, 1999: Hypothalamiccontrol of feeding. Curr Opin Neurobiol 9, 778–783.Lents CA, Heidorn NL, Barb CR, Ford JJ, 2008: Central andperipheral administration of kisspeptin activates gonadotropinbut not somatotropin secretion in prepubertal gilts.Reproduction 135, 879–887.Leshin LS, Barb CR, Kiser TE, Rampacek GB, Kraeling RR,1994: Growth hormone-releasing hormone and somatostatinneurons within the porcine and bovine hypothalamus.Neuroendocrinology 59, 251–264.Lin J, Barb CR, Matteri RL, Kraeling RR, Chen X,Meinersmann RJ, Rampacek GB, 2000: Long form leptinreceptor mRNA expression in the brain, pituitary, andother tissues in the pig. Domest Anim Endocrinol 19,53–61.Lin J, Barb CR, Kraeling RR, Rampacek GB, 2001: Developmentalchanges in the long form leptin receptor andrelated neuropeptide gene expression in the pig brain. BiolReprod 64, 1614–1618.Loftus TM, 1999: An adipocyte-central nervous systemregulatory loop in the control of adipose homeostasis. CellDev Biol 10, 11–18.Luque RM, Kinemam RD, Tena-Sempere M, 2007: Regulationof hypothalamic expression of KiSS-1 and GPR54genes by metabolic factors: analyses using mouse modelsand a cell line. Endocrinology 148, 4601–4611.Lutz JB, Rampacek GB, Kraeling RR, Pinkert CA, 1984:Serum luteinizing hormone and estrogen profiles beforepuberty in the gilt. J Anim Sci 58, 686–691.Mao J, Zak LJ, Cosgrove JR, Shostak S, Foxcroft GR, 1999:Reproductive, metabolic, and endocrine responses to feedrestriction and GnRH treatment in primiparous, lactatingsows. J Anim Sci 77, 724–735.Matteri RL, 2001: Overview of central targets for appetiteregulation. J Anim Sci 79, E148–E158.Muller EE, Locatelli V, Cocchi D, 1999: Neuroendocrinecontrol of growth hormone secretion. Physiol Rev 79, 511–607.NRC, 1998: Nutrient Requirements in Swine. National AcademyPress, Washington, DC.Ohtaki T, Shintani Y, Honda S, Matsumoto H, Hori A,Kanehashi K, Terao Y, Kumano S, Takatsu Y, Masuda Y,Ishibashi Y, Watanabe T, Asada M, Yamada T, Suenaga M,Kitada C, Usuki S, Kurokawa T, Onda H, Nishimura O,Fujino M, 2001: Metastasis suppressor gene KiSS-1 encodespeptide ligand of a G-protein-coupled receptor. Nature 411,613–617.Pressing A, Dial GD, Esbenshade KL, Stroud CM, 1992:Hourly administration of GnRH to prepubertal gilts:endocrine and ovulatory responses from 70 to 190 days ofage. J Anim Sci 70, 232–242.Prunier A, Quesnel H, 2000: Nutritional influences on thehormonal control of reproduction in female pigs. LivestProd Sci 63, 1–16.Ó 2008 No claim to original government works
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Reproduction in Domestic AnimalsOff
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Reproductionin Domestic AnimalsTabl
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Minitüb:ProductsforArtificial Inse
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Reprod Dom Anim 43 (Suppl. 2), 1-7
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Embryo Biotechnologies in Farm Anim
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Ethical Models for Studying Reprodu
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Dietary Pollutants as Risk Factors
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Factors Influencing Reproduction in
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GH and IGF-I in Cattle and Pigs 33h
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GH and IGF-I in Cattle and Pigs 35h
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GH and IGF-I in Cattle and Pigs 37B
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GH and IGF-I in Cattle and Pigs 39R
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Seasonality of Reproduction in Mamm
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Dominant Follicle Selection in Cows
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Regulation of Luteal Function 59and
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Regulation of Luteal Function 61bov
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Regulation of Luteal Function 63(+/
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Regulation of Luteal Function 65sys
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Non-invasive Monitoring of Hormones
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Genetic Improvement of Dairy Cow Re
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Reproductive Status Assessed by Mil
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Genetic Aspects of Reproduction in
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Developmental Capabilities of Prepu
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Reproductive Physiology, Pathology
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Canine Anoestrus, Oestrous Inductio
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The Ethics and Role of AI in Dogs 1
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Control of Fertility in Females by
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Controlling Animal Populations Usin
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Recombinant Gonadotropins in Assist
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Farm Animals Embryonic Stem Cells 1
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Postpartum Ovarian Activity in Sout
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Reproduction Augmentation in Yak an
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Follicles and Mares 2251982). Simil
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Follicles and Mares 227Studies invo
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Proteins in Early Equine Conceptuse
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Follicular and Oocyte Competence un
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Fertilization in the Porcine Fallop
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Mastitis in Post-Partum Dairy Cows
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Death Ligand and Receptor Pig Ovari
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Death Ligand and Receptor Pig Ovari
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Lactocrine Programming of Uterine D
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378 GC Althousesemen to the domesti
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380 B Leboeuf, JA Delgadillo, E Man
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388 N Kostereva and M-C HofmannFig.
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402 K Kikuchi, N Kashiwazaki, T Nag
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408 B ObackNumber of publications20
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410 B ObackReprogramming Ability of
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412 B Obackstudies have shown that
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416 B ObackRenard JP, Maruotti J, J
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