Effects of Estrogen on Morphological and Electrophysiological Properties of Arcuate NKB Neurons

Cholanian, Marina

January 2013

Infundibular (arcuate) neurokinin B (NKB) neurons play a critical role in neuroendocrine control of reproduction. Specifically, a local network of arcuate neurons that co-express kisspeptin, neurokinin B, and dynorphin (so-called, KNDy neurons), has emerged as a potential pacemaker driving the pulsatile secretion of gonadotropin-releasing hormone (GnRH) that is required for normal reproduction. These neurons are the target of estrogen and may be an important link in estrogen negative feedback on GnRH functioning. KNDy neurons respond to estrogen withdrawal with dramatic changes in gene expression and somatic hypertrophy, an effect that is reversible by estradiol replacement. Studies addressing the effects of estrogen withdrawal and replacement on morphological and electrophysiological features of KNDy neurons have been hindered by the inability to target this subpopulation of neurons in the live tissue. This dissertation examines estrogen-induced changes in arcuate NKB circuitry and excitability and discusses its implications in reproductive axis. First, the novel Tac2-EGFP transgenic mouse model was characterized. The reproductive function, EGFP-ir distribution in the brain, and co-localization of EGFP with proNKB in the arcuate nucleus were examined and compared to littermate controls. Indices of reproductive function (puberty onset, estrous cyclicity, and LH pulsatility) were comparable between Tac2 and wildtype mice, suggesting that the transgenic animals have preserved estrogen negative feedback. The long-term estrogen withdrawal via ovariectomy and estradiol replacement model was used to examine electrophysiological and morphological changes in arcuate NKB neurons. We found that low-dose chronic estradiol replacement results in decreased excitability of arcuate NKB neurons, a finding that is consistent with the proposed role of this neuronal population in estrogen negative feedback on reproductive axis. Changes in excitability were seen despite the overall similarity in intrinsic properties of estradiol-treated and untreated ovariectomized mice. We also demonstrated for the first time that single arcuate NKB neurons form a local network by way of recurrent collaterals. Axonal targets of single NKB neurons included the internal zone of the median eminence, ependymal layer of the 3rd ventricle, and sites lateral and dorsal to the borders of the arcuate nucleus. Long-term treatment with estradiol resulted in decreased somatic volume and decreased dendritic spine density. Together, these data demonstrate that low-dose chronic estradiol replacement in ovariectomized mice resulted in morphological plasticity of arcuate NKB neurons that was accompanied by changes in excitability of this neuronal population, supporting the role of these neurons in estrogen negative feedback on GnRH secretion.

hypothalamus

neurokinin B

transgenic mouse

Neuroscience

estrogen

THE NEURONAL CIRCUITRY OF ESTROGENIC EFFECTS ON THERMOREGULATION

Dacks, Penny Ann Frances

January 2010

Approximately 75% of menopausal women in the United States experience hot flushes but the etiology of this thermoregulatory disorder is unknown. The dominant theory is that estrogen withdrawal sensitizes thermoregulatory areas of the brain, leading to the inappropriate activation of heat loss effectors in response to mild stimuli. This dissertation examines the circuitry of estrogen effects on thermoregulation. First, a rodent model was characterized. In ovariectomized rats, estradiol treatment decreased tail skin vasodilatation, a primary heat loss mechanism, and raised the ambient temperature threshold for tail skin vasodilatation. These results indicate that estradiol does not alter the maximal ability of blood vessels to constrict and dilate, but rather shifts the threshold for thermoregulatory activation in rats. Using this animal model, we examined how estradiol treatment and ambient temperature affect neuronal activity in brain areas involved with thermoregulation and reproduction. Out of 14 examined regions, only 3 areas were significantly affected by both estradiol and temperature and only the median preoptic nucleus (MnPO) exhibited increased activity at warmer ambient temperature. Interestingly, the effects of estradiol and ambient temperature on MnPO activity closely resembled their effects on tail skin vasodilatation. These results identify the MnPO as a plausible site for the integration of estrogen with skin vasodilatation. In the third study, we examined whether thermoregulation can be modified by neurokinin 3 (NK3) receptors, the dominant receptor for neurokinin B (NKB). Core temperature in ovariectomized rats was decreased by microinfusion of a selective NK3 receptor agonist into the MnPO and adjacent septal areas. This transient hypothermia was accompanied by a lack of homeostatic tail skin vasoconstriction but was not caused by tail skin vasodilatation or a global impairment in thermoregulation. These results demonstrate that thermoregulation in rats is modified by NK3 receptors in brain areas that receive projections from NKB neurons. In humans, menopause is associated with hot flushes and the hypertrophy and increased NKB gene expression in arcuate (infundibular) neurons. We propose a novel theory that estrogen withdrawal causes hot flushes by enhancing NKB release from arcuate (infundibular) neurons onto NK3 receptors.

estrogen

hot flush

neurokinin 3 receptor

neurokinin B

temperature

thermoregulation

The Effects of KNDy Neuron Peptides on Prolactin and Luteinizing Hormone in Pup-Deprived Lactating Rats

Barnard, Amanda Leann

01 August 2014

Lactation is the final stage of reproduction in mammals and is characterized by chronically elevated prolactin and suppressed luteinizing hormone. The neuroendocrine regulation of prolactin and luteinizing hormone during lactation are not fully understood. In the hypothalamic arcuate nucleus is a population of neurons known as KNDy neurons because they co-express the neuropeptides Kisspeptin, Neurokinin B and Dynorphin. These neurons are known to project to gonadotropin-releasing hormone cell bodes in the preoptic area and nerve terminals in the median eminence, which regulate the secretion of luteinizing hormone, and to dopaminergic tuberoinfundibular neurons in the arcuate nucleus, which are known to regulate prolactin. Because KNDy neurons project to neuronal populations known to regulate both prolactin and luteinizing hormone, the general hypothesis for these studies is that neuropeptides Kisspeptin, Neurokinin B and Dynorphin play a role in regulating these hormones or are regulated by these hormones during lactation. In a model of lactating rats deprived of their pups for 24 hours, intracerebroventricular injection of an endogenous Kisspeptin receptor ligand, Kp-10, modestly increased prolactin secretion and markedly increased luteinizing hormone secretion. Neither Neurokinin B nor the Neurokinin B receptor agonist, Senktide, had a significant effect on either hormone in this rat model. Dynorphin and U-50,488, a kappa opioid receptor agonist, robustly increased prolactin although no changes were measured in luteinizing hormone levels. In this model of 24-hour pup-deprived lactating rats, prolactin was responsive to kappa opioid receptor agonists and luteinizing hormone was responsive to Kisspeptin receptor agonists. In a second set of experiments, sense and anti-sense in situ hybridization probes were developed for Kiss1, the Kisspeptin gene, and Tac2, the gene encoding Neurokinin B. It was confirmed that the cDNA sequences cloned for these mRNAs were correct and were highly homologous to published rat mRNA sequences. In situ hybridization was performed using the Kiss1 and Tac2 probes, as well as a probe for Pdyn, which encodes Dynorphin. No specific cytoplasmic signal was observed using any of the three sense probes. With the anti-sense probes, clusters of reduced silver grains representing Kiss1, Tac2 and Pdyn mRNAs were observed in the arcuate nucleus, lateral to the third ventricle and superior to the median eminence. These expression patterns were consistent with the published literature. Also, the expression patterns for all three neuropeptides were similar to each other, suggesting that many of the arcuate nucleus neurons lateral to the third ventricle and superior to the median eminence are KNDy neurons.

Dynorphin

Kisspeptin

KNDy neurons

Luteinizing hormone

Neurokinin B

Prolactin

Distinct Regional Distributions of nk1 and nk3 Neurokinin Receptor Immunoreactivity in Rat Brainstem Gustatory Centers

Harrison, Theresa A., Hoover, Donald B., King, Michael S.

01 March 2004

Tachykinins and their receptors are present in gustatory centers, but little is known about tachykinin function in gustation. In this study, immunohistochemical localization of substance P and two centrally prevalent neurokinin receptors, NK1 and NK3, was carried out in the rostral nucleus of the solitary tract and the caudal parabrachial nucleus to evaluate regional receptor/ligand correspondences. All three proteins showed regional variations in labeling density that correlated with distinct sites in gustatory centers. In the rostral nucleus of the solitary tract, the relative densities of substance P and NK1 receptors varied in parallel across subnuclei, with both being moderate to dense in the dorsocentral, chemoresponsive zone. NK3 receptors had a distinct distribution in the caudal half of this zone, suggesting a unique role in processing taste input from the posterior tongue. In the caudal parabrachial nucleus, substance P and NK1 receptor immunoreactivities were dense in the pontine taste area, while NK3 receptor labeling was sparse. The external medial subnucleus had substantial NK3 receptor and substance P labeling, but little NK1 receptor immunoreactivity. These findings suggest that distinct tachykinin ligand/neurokinin receptor combinations may be important in local processing of information within brainstem gustatory centers.

immunohistochemistry

neurokinin B

pontine taste area

rostral nucleus of the solitary tract

substance P

tachykinin

Biomedical Sciences

Development of Neuropeptide Receptor Ligands for the Control of Reproductive Systems / 生殖内分泌系を制御する神経ペプチド受容体リガンドの創製研究

Misu, Ryosuke

23 March 2015

京都大学 / 0048 / 新制・課程博士 / 博士(薬科学) / 甲第18929号 / 薬科博第43号 / 新制||薬||5(附属図書館) / 31880 / 京都大学大学院薬学研究科医薬創成情報科学専攻 / (主査)教授 大野 浩章, 教授 高須 清誠, 教授 竹本 佳司 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

gonadotropin-releasing hormone

GPR54

kisspeptin

neurokinin B

neurokinin-3 receptor

peptidomimetics

499.3

THE ROLE OF ENDOGENOUS OPIOID PEPTIDES IN THE OVINE ESTROUS CYCLE

FORADORI, CHAD D.

04 September 2003

No description available.

Biology, Neuroscience

progesterone

luteal phase

dynorphin

kappa opioid receptors

neurokinin B

Pesquisa de mutações na neurocinina B e no seu receptor em pacientes com distúrbios puberais centrais idiopáticos / Analysis of mutations in the neurokinin B and its receptor in patients with idiopathic central pubertal disorders

Tusset, Cíntia

10 August 2012

Mutações inativadoras nos genes TAC3 e TACR3, os quais codificam a neurocinina B (NKB) e o seu receptor NK3R, respectivamente, foram descritas em pacientes com hipogonadismo hipogonadotrófico isolado (HHI) normósmico. A partir desse achado, hipotetizamos que mutações ativadoras na NKB e/ou NK3R resultariam na secreção prematura de GnRH e, consequentemente, no desenvolvimento de puberdade precoce dependente de gonadotrofinas (PPDG). Nesse estudo, investigamos a presença de mutações ativadoras e/ou polimorfismos nos genes TAC3 e TACR3 em pacientes com PPDG, bem como mutações inativadoras e/ou polimorfismos nesses genes em pacientes com retardo constitucional do crescimento e desenvolvimento (RCCD), e HHI normósmico. Duzentos e trinta e sete pacientes com distúrbios puberais centrais idiopáticos foram selecionados, sendo 114 com PPDG, 50 com RCCD, e 73 com HHI normósmico. Um grupo de 150 indivíduos que apresentaram desenvolvimento puberal normal foi utilizado como controle. As regiões codificadoras dos genes TAC3 e TACR3 foram amplificadas pela reação em cadeia da polimerase, seguido de purificação enzimática e seqüenciamento automático direto. Análises in silico e in vitro foram realizadas. Um nova variante foi identificada no gene TAC3, p.A63P, em uma paciente do sexo feminino com PPDG, a qual desenvolveu puberdade aos sete anos de idade. Essa variante (p.A63P) está localizada na proneurocinina B, e análises in silico sugeriram que ela não altera sítios constitutivos de splicing e é benigna para a estrutura da proteína. A análise de segregação familiar mostrou que a mãe da paciente, a qual apresentou um desenvolvimento puberal normal, também apresentava a alteração p.A63P em heterozigose, sugerindo que essa variante não desempenha um papel direto no fenótipo de PPDG. Uma nova variante em heterozigose no gene TACR3, p.A449S, foi identificada em uma paciente do sexo feminino com RCCD, que teve início puberal aos treze anos de idade. A análise do grau de conservação da alanina na posição 449 mostrou que esse aminoácido não é conservado entre as diferentes espécies, e análises in silico sugeriram que essa variante não altera os sítios constitutivos de splicing, e é benigna para a estrutura do NK3R. Três novas variantes no NK3R foram identificadas, p.G18D, p.L58L (c.172C>T) e p.W275*, em três pacientes do sexo masculino não relacionados com HHI normósmico. As variantes p.G18D e p.L58L foram identificadas em heterozigose, enquanto que a variante p.W275* foi identificada em heterozigose associada a variante silenciosa p.L58L (c.172C>T), e em homozigose em outro paciente. Análises in silico sugeriram que a variante p.G18D poderia afetar a funcionalidade do NK3R. Estudos in vitro dessa nova variante foram realizados, e mostraram que a mesma não altera a função do NK3R, visto que o aumento na produção de fosfatidil inositol não diferiu significativamente entre o receptor mutado e selvagem. Todas as novas variantes descritas nos genes TAC3 e TACR3 não foram identificadas em 300 alelos controles. Em conclusão, nosso trabalho identificou novas variantes nos genes TAC3 e TACR3 em pacientes brasileiros com distúrbios puberais centrais idiopáticos, e confirmou o envolvimento do complexo NKB/NK3R na etiologia do HHI normósmico / Inactivating mutations of the TAC3 and TACR3 genes, which encode the neurokinin B (NKB) and its receptor, NK3R, respectively, were described in patients with normosmic isolated hypogonadotropic hypogonadism (IHH). Based on these observations, we hypothesized that gain-of-function mutations in the NKB and/or NK3R might be associated with premature activation of GnRH release, leading to gonadotropin-dependent precocious puberty (GDPP). In this study, we investigated the presence of activating mutations and/or polymorphisms in the TAC3 and TACR3 genes in patients with GDPP, and inactivating mutations and/or polymorphisms in these genes in patients with constitutional delay of growth and puberty (CDGP) and normosmic IHH. It was selected 237 patients with idiopathic central pubertal disorders: 114 with GDPP, 50 with CDGP, and 73 with normosmic IHH. Indeed, a group 150 individuals who had puberty at adequate age was used as controls. The coding regions of TAC3 and TACR3 genes were amplified by polymerase chain reaction followed by enzymatic purification and direct automatic sequencing. In silico and in vitro analyses were performed. A new heterozygous variant in the TAC3 gene, p.A63P, was identified in a Brazilian girl with GDPP who had puberty onset at seven years of age. The p.A63P variant was located in the proneurokinin B and in silico analysis suggested that this variant does not alter constitutive splice sites, and it was benign to the protein. The segregation analysis revealed that her mother was heterozygous for the p.A63P variant (who had a normal pubertal development), suggesting that this variant does not play a role in the GDPP phenotype. It was identified a new heterozygous variant, p.A449S, in the TACR3 gene in a Brazilian girl with CDGP, who had puberty onset at thirteen years of age. Conservation degree analysis of alanine at position 449 showed that this amino acid is not a conserved residue among different species. In silico analyses suggested that this new variant does not alter splice sites or affects the structure of NK3R. Indeed, it was identified three new distinct variants in the TACR3 gene, p.G18D, p.L58L (c.172C>T) and p.W275*, in three unrelated males with normosmic IHH. Both p.G18D and p.L58L (c.172C>T) were identified in heterozygous state, and the p.W275* variant was identified in two of these males, since one in homozygous and in another in heterozygous state in association with the silent variant p.L58L (c.172C>T). In silico analyses suggested that p.G18D might be damaging to the NK3R. In vitro studies of this variant (p.G18D) showed that the amount of inositol phosphate (IP) was not significantly different in cells transfected with the p.G18D mutant receptor than in cells transfected with the wild type receptor, indicating that this variant did not alter the function of the neurokinin B receptor. All new variants identified in the TAC3 and TACR3 genes were absent in 300 control alleles. In conclusion, we identified new variants in the TAC3 and TACR3 genes in Brazilian patients with idiopathic central pubertal disorders. We confirm the key role of the NKB/NK3R complex in the etiology of normosmic IHH

Gonadotropin- releasing hormone

Hipogonadismo

Hormônio liberador de gonadotrofinas

Hypogonadism

Mutação

Mutation

Neurocinina B

Neurokinin B

Neurokinin B receptor

Precocious puberty

Puberdade precoce

Receptor da neurocinina B

Pesquisa de mutações na neurocinina B e no seu receptor em pacientes com distúrbios puberais centrais idiopáticos / Analysis of mutations in the neurokinin B and its receptor in patients with idiopathic central pubertal disorders

Cíntia Tusset

10 August 2012

Mutações inativadoras nos genes TAC3 e TACR3, os quais codificam a neurocinina B (NKB) e o seu receptor NK3R, respectivamente, foram descritas em pacientes com hipogonadismo hipogonadotrófico isolado (HHI) normósmico. A partir desse achado, hipotetizamos que mutações ativadoras na NKB e/ou NK3R resultariam na secreção prematura de GnRH e, consequentemente, no desenvolvimento de puberdade precoce dependente de gonadotrofinas (PPDG). Nesse estudo, investigamos a presença de mutações ativadoras e/ou polimorfismos nos genes TAC3 e TACR3 em pacientes com PPDG, bem como mutações inativadoras e/ou polimorfismos nesses genes em pacientes com retardo constitucional do crescimento e desenvolvimento (RCCD), e HHI normósmico. Duzentos e trinta e sete pacientes com distúrbios puberais centrais idiopáticos foram selecionados, sendo 114 com PPDG, 50 com RCCD, e 73 com HHI normósmico. Um grupo de 150 indivíduos que apresentaram desenvolvimento puberal normal foi utilizado como controle. As regiões codificadoras dos genes TAC3 e TACR3 foram amplificadas pela reação em cadeia da polimerase, seguido de purificação enzimática e seqüenciamento automático direto. Análises in silico e in vitro foram realizadas. Um nova variante foi identificada no gene TAC3, p.A63P, em uma paciente do sexo feminino com PPDG, a qual desenvolveu puberdade aos sete anos de idade. Essa variante (p.A63P) está localizada na proneurocinina B, e análises in silico sugeriram que ela não altera sítios constitutivos de splicing e é benigna para a estrutura da proteína. A análise de segregação familiar mostrou que a mãe da paciente, a qual apresentou um desenvolvimento puberal normal, também apresentava a alteração p.A63P em heterozigose, sugerindo que essa variante não desempenha um papel direto no fenótipo de PPDG. Uma nova variante em heterozigose no gene TACR3, p.A449S, foi identificada em uma paciente do sexo feminino com RCCD, que teve início puberal aos treze anos de idade. A análise do grau de conservação da alanina na posição 449 mostrou que esse aminoácido não é conservado entre as diferentes espécies, e análises in silico sugeriram que essa variante não altera os sítios constitutivos de splicing, e é benigna para a estrutura do NK3R. Três novas variantes no NK3R foram identificadas, p.G18D, p.L58L (c.172C>T) e p.W275*, em três pacientes do sexo masculino não relacionados com HHI normósmico. As variantes p.G18D e p.L58L foram identificadas em heterozigose, enquanto que a variante p.W275* foi identificada em heterozigose associada a variante silenciosa p.L58L (c.172C>T), e em homozigose em outro paciente. Análises in silico sugeriram que a variante p.G18D poderia afetar a funcionalidade do NK3R. Estudos in vitro dessa nova variante foram realizados, e mostraram que a mesma não altera a função do NK3R, visto que o aumento na produção de fosfatidil inositol não diferiu significativamente entre o receptor mutado e selvagem. Todas as novas variantes descritas nos genes TAC3 e TACR3 não foram identificadas em 300 alelos controles. Em conclusão, nosso trabalho identificou novas variantes nos genes TAC3 e TACR3 em pacientes brasileiros com distúrbios puberais centrais idiopáticos, e confirmou o envolvimento do complexo NKB/NK3R na etiologia do HHI normósmico / Inactivating mutations of the TAC3 and TACR3 genes, which encode the neurokinin B (NKB) and its receptor, NK3R, respectively, were described in patients with normosmic isolated hypogonadotropic hypogonadism (IHH). Based on these observations, we hypothesized that gain-of-function mutations in the NKB and/or NK3R might be associated with premature activation of GnRH release, leading to gonadotropin-dependent precocious puberty (GDPP). In this study, we investigated the presence of activating mutations and/or polymorphisms in the TAC3 and TACR3 genes in patients with GDPP, and inactivating mutations and/or polymorphisms in these genes in patients with constitutional delay of growth and puberty (CDGP) and normosmic IHH. It was selected 237 patients with idiopathic central pubertal disorders: 114 with GDPP, 50 with CDGP, and 73 with normosmic IHH. Indeed, a group 150 individuals who had puberty at adequate age was used as controls. The coding regions of TAC3 and TACR3 genes were amplified by polymerase chain reaction followed by enzymatic purification and direct automatic sequencing. In silico and in vitro analyses were performed. A new heterozygous variant in the TAC3 gene, p.A63P, was identified in a Brazilian girl with GDPP who had puberty onset at seven years of age. The p.A63P variant was located in the proneurokinin B and in silico analysis suggested that this variant does not alter constitutive splice sites, and it was benign to the protein. The segregation analysis revealed that her mother was heterozygous for the p.A63P variant (who had a normal pubertal development), suggesting that this variant does not play a role in the GDPP phenotype. It was identified a new heterozygous variant, p.A449S, in the TACR3 gene in a Brazilian girl with CDGP, who had puberty onset at thirteen years of age. Conservation degree analysis of alanine at position 449 showed that this amino acid is not a conserved residue among different species. In silico analyses suggested that this new variant does not alter splice sites or affects the structure of NK3R. Indeed, it was identified three new distinct variants in the TACR3 gene, p.G18D, p.L58L (c.172C>T) and p.W275*, in three unrelated males with normosmic IHH. Both p.G18D and p.L58L (c.172C>T) were identified in heterozygous state, and the p.W275* variant was identified in two of these males, since one in homozygous and in another in heterozygous state in association with the silent variant p.L58L (c.172C>T). In silico analyses suggested that p.G18D might be damaging to the NK3R. In vitro studies of this variant (p.G18D) showed that the amount of inositol phosphate (IP) was not significantly different in cells transfected with the p.G18D mutant receptor than in cells transfected with the wild type receptor, indicating that this variant did not alter the function of the neurokinin B receptor. All new variants identified in the TAC3 and TACR3 genes were absent in 300 control alleles. In conclusion, we identified new variants in the TAC3 and TACR3 genes in Brazilian patients with idiopathic central pubertal disorders. We confirm the key role of the NKB/NK3R complex in the etiology of normosmic IHH

Hipogonadismo

Hormônio liberador de gonadotrofinas

Mutação

Neurocinina B

Puberdade precoce

Receptor da neurocinina B

Gonadotropin- releasing hormone

Hypogonadism

Mutation

Neurokinin B

Neurokinin B receptor

Precocious puberty

Autoradiographic Localization of NK₁ and NK₃ Tachykinin Receptors in Rat Kidney

Chen, Yuejin, Hoover, Donald B.

01 January 1995

The distribution of neurokinin receptors in rat kidney, renal artery, renal vein, and proximal ureter was evaluated by autoradiography after in vitro labeling of NK1 sites with [125I]Bolton-Hunter substance P (BHSP) or NK3 sites with [125I][MePhe7]neurokinin B ([MePhe7NKB). Film autoradiography using [125I][MePhe7]NKB revealed specific binding sites associated with the renal vein and its large branches, the renal pelvis, the inner strip of outer renal medulla, and the proximal ureter. High-resolution autoradiograms demonstrated that these sites were localized to the smooth muscle layer in the veins, pelvis, and ureter. Neither the renal arterial system nor the renal cortex contained specific [125I][MePhe7]NKB binding sites although a high level of nonspecific binding was associated with the renal artery. Specific binding of [125I]BHSP was associated with the renal artery and renal pelvis but not the renal veins. Arterial NK1 receptors appeared to be localized to the adventitia. The results indicate that at least two types of tachykinin receptor are present in the rat kidney. The distinct localization observed for most of the NK1 and NK3 receptors suggests that they have different functions.

autoradiography

kidney

neurokinin

NK receptor 1

NK receptor 3

pelvis

rat

renal vasculature

substance P

ureter

[MePhe ]neurokinin B 7

Biomedical Sciences