Naoki Tomori scite author profile

The distribution and characterization of immunoreactive corticotropin-releasing factor (I-CRF) in human tissues were examined using a rat CRF RIA, immunoaffinity chromatography, gel filtration chromatography, and high performance liquid chromatography. High concentrations of I-CRF were found in the hypothalamus and pituitary stalk. In addition, I-CRF was found in the posterior pituitary, thalamus, cerebral cortex, cerebellum, pons, medulla oblongata, spinal cord, and outside the brain and in the adrenal, lung, liver, stomach, duodenum, and pancreas. The major component of I-CRF from these tissues eluted in the position of rat CRF on gel filtration chromatography. High performance liquid chromatography of this major component showed two main peaks which eluted in the positions of CRF and oxidized CRF. These elution positions were the same in all tissues. These results indicate the presence of I-CRF outside the brain and suggest that this CRF is identical to hypothalamic CRF.

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Immunoreactive Corticotropin and Corticotropin Releasing Factor in Human Hypothalamus, Adrenal, Lung Cancer, and Pheochromocytoma*

Suda

Tomori

Tozawa

et al. 1984

The Journal of Clinical Endocrinology & Metabolism

134

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Immunoreactive corticotropin-releasing factor (I-CRF) and ACTH (I-ACTH) were examined using RIA, immunoaffinity chromatography, and gel filtration chromatography in human hypothalamus, adrenal (cortex and medulla), lung cancer, and pheochromocytoma. I-CRF and I-ACTH were present in these tissues. Gel filtration of I-ACTH in the adrenal, pheochromocytoma, and lung cancer showed the presence of larger amounts of I-ACTH with large molecular weight forms in contrast to the hypothalamus. Gel filtration of I-CRF in these tissues showed the main peak eluted at the position of synthetic rat CRF. High performance liquid chromatography of this main peak showed two components which eluted in the positions of synthetic rat CRF and oxidized CRF. These elution positions were the same in all tissues and identical with those in the hypothalamus. These results suggest the presence of I-ACTH and I-CRF in these tissues and that CRF outside the brain is identical to hypothalamic CRF.

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Characterization of Corticotropin-Releasing Hormone Binding Protein in Human Plasma by Chemical Cross-Linking and its Binding during Pregnancy*

Suda

Iwashita

Tozawa

et al. 1988

The Journal of Clinical Endocrinology & Metabolism

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A human plasma CRH-binding protein (CRH-BP) was identified and characterized by chemical cross-linking of 125I-Tyr-hCRH to human plasma using disuccinimidyl suberate. The apparent mol wt of the cross-linked complex determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by autoradiography was approximately 43,000. The mol wt was slightly lower in the nonreduced state, suggesting the presence of intramolecular disulfide bonds. Subtracting the mol wt of 125I-Tyr-CRH, the BP appeared to have a mol wt of approximately 38,000. Binding was specific since the appearance of the 43,000 dalton band was not affected by unlabeled ACTH, vasopressin, serum albumin, or gamma-globulin, but was inhibited by unlabeled hCRH dose dependently. Pretreatment of plasma with 0.1 mol/L HCl, 0.01 mol/L NaOH, 10 mmol/L dithiothreitol, or trypsin before cross-linking abolished its ability to bind 125I-Tyr-hCRH. Rat, rabbit, or goat plasma or human cerebrospinal fluid did not bind 125I-Tyr-CRH. It is unlikely that CRH-BP is a CRH receptor, because the estimated mol wt of the CRH-BP is smaller than the reported size of CRH receptors, and the CRH-BP did not bind to ovine CRH. The binding of 125I-Tyr-CRH to CRH-BP decreased in the third trimester of pregnancy, when plasma CRH levels were markedly elevated. However, after dissociating endogenous CRH from the CRH-BP, the binding was almost the same as in nonpregnant subjects. In addition, CRH-BP inhibited CRH-induced ACTH secretion from cultured rat anterior pituitary cells. We conclude that most of the increased plasma CRH found in pregnant women is bound to CRH-BP, and so is inactive, therefore plasma ACTH levels do not increase to above the normal range.

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Naoki Tomori

Distribution and Characterization of Immunoreactive Corticotropin-Releasing Factor in Human Tissues*

Immunoreactive Corticotropin and Corticotropin Releasing Factor in Human Hypothalamus, Adrenal, Lung Cancer, and Pheochromocytoma*

Characterization of Corticotropin-Releasing Hormone Binding Protein in Human Plasma by Chemical Cross-Linking and its Binding during Pregnancy*

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