Corticotrophin‐Releasing Hormone Receptor Type 1: Generation and Characterization of Polyclonal Antipeptide Antibodies and their Localization in Pituitary Cells and Cortical Neurones <i>in vitro</i>

Castro, María G.; Morrison, Ewan E.; Perone, Marcelo J.; Brown, Oscar A.; Murray, Christian; Ahmed, Irshad; Perkins, Anthony V.; Europe‐Finner, G. Nicholas; Löwenstein, Pedro R.; Linton, Elizabeth A.

doi:10.1046/j.1365-2826.1996.04866.x

Cited by 26 publications

(26 citation statements)

References 32 publications

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“…Castro and colleagues reported a molecular mass for rat CRH R1 receptor in the pituitary ranging from 115-40 kDa (22). More recent studies have demonstrated sizes of 72 and 59 kDa in the mouse and rat (40).…”

Section: Discussionmentioning

confidence: 99%

“…In addition, CRH R1 receptor protein levels decreased after the precocious elevation of plasma cortisol levels in fetuses before term. In the aforementioned studies, CRH R1 receptor protein with molecular masses of 40, 45, 59, 72, 99, 110, and 115 kDa (22,40) have been explained as potentially due to differences in glycosylation and alternative splicing and as a function of the quality of the membrane preparation (22,40). It is possible that the different molecular masses observed in the present study may be related to the ovine species, as no other studies have reported the molecular size of the CRH R1 in the sheep.…”

Section: Discussionmentioning

confidence: 99%

“…1), was identified with enhanced chemiluminescence (ECL Plus, Amersham Pharmacia Biotech, Arlington Heights, IL), and relative intensity was normalized by the intensity of the internal control adult pituitary membrane preparation (PelFreez, Rogers, AR). The specificity of the primary antibody and validation of its use for detecting the presence of the CRH R1 receptor have been previously described (22).…”

Section: Western Immunoblottingmentioning

confidence: 99%

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Corticotropin-Releasing Hormone Type I Receptor Messenger Ribonucleic Acid and Protein Levels in the Ovine Fetal Pituitary: Ontogeny and Effect of Chronic Cortisol Administration

Green

2000

Endocrinology

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In sheep, the ACTH secretory response to CRH in vivo or in vitro changes as a function of development, with peak responses occurring several weeks before term (145 days of gestation). CRH-stimulated ACTH secretion is mediated via the G protein-coupled CRH type I (CRH R1) receptor. We used a quantitative ribonuclease protection assay and Western immunoblotting to determine messenger RNA (mRNA) and protein levels of the CRH R1 receptor in immature and mature fetuses and adults. In addition, we precociously elevated fetal plasma cortisol levels to determine whether the fetal CRH R1 receptor is sensitive to increases in plasma cortisol.CRH R1 receptor mRNA levels decreased markedly throughout gestation and into the transition to adult life (immature fetus, 1.24 Ϯ 0.17; mature fetus, 0.75 Ϯ 0.13; adult, 0.18 Ϯ 0.093 pg/g total anterior pituitary RNA). Also, continuous cortisol infusion in immature fetuses significantly decreased CRH R1 mRNA levels by 41%. Similar decreases were noted in protein levels. Thus, the decreased ACTH response to CRH stimulation during late gestation may be related to decreased CRH R1 receptor expression. In addition, plasma cortisol levels may influence corticotroph responsiveness to CRH by decreasing CRH R1 receptor expression. (Endocrinology 141: 2870 -2876, 2000) C RH, A 41-AMINO acid neuropeptide produced in the paraventricular nucleus of the hypothalamus, is a major regulator of pituitary secretion of ACTH. In the fetus, ACTH plays an important role in the maturation of the adrenal gland and the resultant rise in plasma glucocorticoids during late gestation. In fetal sheep this rise in plasma cortisol in late gestation is essential for triggering the initiation of parturition as well as the preparation of the fetus for extrauterine life. Therefore, the mechanisms that control pituitary responsiveness to ACTH throughout fetal life are critical for the timely delivery of the fetus and survival of the neonate (1, 2).ACTH secretory responses, particularly those involved with CRH, appear to vary as a function of development. The relative responsiveness of the fetal pituitary to CRH stimulation is greater before 130 days of gestation (dg), with less mature fetal pituitaries exhibiting a greater ACTH secretory response to CRH stimulation than mature pituitaries both in vitro and in vivo. (3-9). Interestingly, adrenalectomy of fetuses at around 120 dg can prevent the loss of corticotroph responsiveness to CRH during late gestation (8).The maturation of the corticotroph response to CRH depends on changes occurring among the population of ACTHsecreting cells. During early gestation, CRH stimulation increases the proportion of corticotrophs actively secreting ACTH. However, during late gestation CRH is unable to recruit nonsecreting corticotrophs (9). Therefore, the maturation of the fetal hypothalamic-pituitary-adrenal axis may involve alterations in the secretory responses of individual corticotrophs, a process that may rely upon plasma cortisol levels. An important determinant of c...

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Western Immunoblottingmentioning

confidence: 99%

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Corticotropin-Releasing Hormone Type I Receptor Messenger Ribonucleic Acid and Protein Levels in the Ovine Fetal Pituitary: Ontogeny and Effect of Chronic Cortisol Administration

Green

2000

Endocrinology

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“…Previous reports describing molecular weights of CRFR1 from brain were controversial. By Western blot analysis using another polyclonal antibody against CRFR1 (Castro et al, 1996), 115-40 kDa forms of CRFR1 were found. On the basis of chemical cross-linking experiments, a 53 kDa form has 11.1 Ϯ 4.6 9.8 Ϯ 2.3 10.8 Ϯ 3.9 12.1 Ϯ 3.1 Statistically significant differences: *P Ͻ 0.05, **P Ͻ 0.01, ***P Ͻ 0.001 when compared to the corresponding value of the rat.…”

Section: Molecular Weights Of Crfr1 In Brain and Pituitary Tissuesmentioning

confidence: 99%

Characterization of native corticotropin-releasing factor receptor type 1 (cRFR1) in the rat and mouse central nervous system

1998

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Corticotropin releasing factor (CRF), the most important regulator of various responses to stress, acts through CRF receptors (CRFR). For their characterization in brain tissue of Sprague-Dawley rats and C57BL/6J mice, a recently described polyclonal antibody directed against the N-terminus of rat CRFR1 (rCRFR1) was used. The molecular weights of rat and mouse brain receptors were determined by Western blot analysis to be 80,000-76,000 and 83,000-79,000, respectively, whereas molecular weights of 72,000-59,000 were observed for CRFR1 from rat and mouse pituitary. Immunohistochemical analysis was performed with brain sections of naive rats and mice. Strong CRFR1 staining was detected in the cortex, cerebellum, mesencephalon and pons of both species, whereas weak staining was observed in amygdala and hippocampus. The striatum did not show immunoreactivity. The density of immunostaining was significantly lower in murine than in rat cortex. In contrast, in the pons and mesencephalon of mice, higher density of immunostaining was observed than in the same brain structures of rats. On the basis of the observed differences, it is suggested that CRFR1 is differentially processed in rats and mice. In addition, the density of CRFR1 staining differed between both species.

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“…The predicted molecular weights (MW) of both CRHR1 and V1b receptors are 40-45 kilo Dalton (kDa). However, CRHR1 Western Blots show large molecular weight bands of 118 and 200 kDa in sheep anterior pituitaries (Green et al, 2000) and 115 kDa in rat anterior pituitaries (Castro et al, 1996). In addition, solubilization of radiolabeled CRH receptors in rat pituitary shows bands of 100-130 kDa in addition to a major band of 75 kDa (Grigoriadis and De Souza, 1988;Flores et al, 1990).…”

Section: Introductionmentioning

confidence: 99%

Dimerization Between Vasopressin V1b and Corticotropin Releasing Hormone Type 1 Receptors

2007

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1. Increasing evidence indicates that guanyl protein coupled receptors (GPCRs), including members of the vasopressin (VP) receptor family can act as homo- and heterodimers. Regulated expression and interaction of pituitary VP V1b receptor (V1bR) and corticotropin releasing hormone receptor type 1 (CRHR1) are critical for hypothalamic pituitary adrenal (HPA) axis adaptation, but it is unknown whether this involves physical interaction between these receptors.2. Bioluminescence resonance energy transfer (BRET) experiments using V1bR and CRHR1 fused to either Renilla luciferase (Rluc) or yellow fluorescent protein (YFP) at the N-terminus, but not the carboxyl-terminus, revealed specific interaction (BRET(50) = 0.39 +/- 0.08, V1bR) that was inhibited by untagged V1b or CRHR1 receptors, suggesting homo- and heterodimerization. The BRET data were confirmed by coimmunoprecipitation experiments using fully bioactive receptors tagged at the aminoterminus with c-myc and Flag epitopes, demonstrating specific homodimerization of the V1b receptor and heterodimerization of the V1b receptor with CRHR1 receptors.3. Heterodimerization between V1bR and CRHR1 is not ligand dependent since stimulation with CRH and AVP had no effect on coimmunoprecipitation. In membranes obtained from cells cotransfected with CRHR1 and V1bR, incubation with the heterologous nonpeptide antagonist did not alter the binding affinity or capacity of the receptor.4. The data demonstrate that V1bR and CRHR1 can form constitutive homo- and heterodimers and suggests that the heterodimerization does not influence the binding properties of these receptors.

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Corticotrophin‐Releasing Hormone Receptor Type 1: Generation and Characterization of Polyclonal Antipeptide Antibodies and their Localization in Pituitary Cells and Cortical Neurones in vitro

Cited by 26 publications

References 32 publications

Corticotropin-Releasing Hormone Type I Receptor Messenger Ribonucleic Acid and Protein Levels in the Ovine Fetal Pituitary: Ontogeny and Effect of Chronic Cortisol Administration

Corticotropin-Releasing Hormone Type I Receptor Messenger Ribonucleic Acid and Protein Levels in the Ovine Fetal Pituitary: Ontogeny and Effect of Chronic Cortisol Administration

Characterization of native corticotropin-releasing factor receptor type 1 (cRFR1) in the rat and mouse central nervous system

Dimerization Between Vasopressin V1b and Corticotropin Releasing Hormone Type 1 Receptors

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