N L Eskeland scite author profile

We have recently demonstrated that prosaposin is a neurotrophic and myelinotrophic factor with the active trophic sequence located at the N-terminal region of the saposin C domain. There are also reports that prosaposin mRNA is increased distal to a physical nerve injury and that exogenous prosaposin treatment induces subsequent neuronal sprouting, suggesting involvement in repair processes. In the present study, we show that prosaposin mRNA is significantly (p < 0.05) elevated in the peripheral nerve of streptozotocin-diabetic rats, a model of insulin-deficient diabetes in which nerve injury arises from the metabolic trauma of hyperglycemia and its consequences. A 14 amino acid peptide derived from the neurotrophic region of prosaposin prevented the development of deficits in both large and small fiber function caused by diabetes in rats. The dose-dependent prevention of nerve conduction slowing by TX 14(A) was accompanied by preservation of axonal caliber and sodium-potassium ATPase activity, while prevention of thermal hypoalgesia was associated with attenuation of the decline in nerve substance P levels. It is concluded that nerve subject to the metabolic injury of uncontrolled diabetes responds by increasing prosaposin gene expression, and that prosaposin-derived neurotrophic peptides may provide a novel therapeutic approach to treatment of diabetic and other peripheral neuropathies.

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Stimulation of β-Endorphin Secretion by Corticotropin-Releasing Factor in Primary Rat Leydig Cell Cultures*

Eskeland¹,

Lugo

Pintar

et al. 1989

Endocrinology

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CRF, a hypothalamic peptide, is a potent stimulator of POMC synthesis and secretion in the pituitary. POMC biosynthesis has been documented in the testis, specifically in Leydig cells, and recent studies suggest that CRF is synthesized locally in the testis. A reverse hemolytic plaque assay and immunocytochemistry with Leydig cell-specific antibodies were used to study the effect of CRF on secretion of the POMC peptide beta-endorphin (beta EP) from normal rat primary Leydig cell cultures. In enriched Leydig cell preparations incubated with beta EP antiserum (diluted 1:50) then with complement (diluted 1:25), approximately 15% of immunocytochemically identified Leydig cells formed plaques. Preabsorption of the antiserum with beta EP (2 micrograms/microliters antiserum) overnight at 4 C abolished the formation of plaques. Increasing concentrations of CRF (from 10(-1) to 10(-7) M) resulted in an approximately 80% increase in both the percentage of plaque-forming cells and the mean plaque size. When the CRF antagonist CRF-(9-41) (10(-6) M) was added in the presence of CRF, the increases in plaque number and average size did not occur. These results demonstrate that Leydig cells have functional CRF receptors and that beta EP secretion from these cells is stimulated by CRF.

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Hormone Storage Vesicle Proteins

O’Connor

Gill

et al. 1994

Annals of the New York Academy of Sciences

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Chromogranin A (CgA) is an acidic soluble protein found in the core of secretory vesicles throughout the neuroendocrine system, from which it is coreleased by exocytosis with a variety of amine and peptide hormones and neurotransmitters. Much has now been learned about the structure of CgA, and there is emerging evidence that it plays several biological roles, both within secretory granules and after release from neuroendocrine cells. Factors governing its gene's widespread yet restricted (neuroendocrine) pattern of expression are only now being explored. In an attempt to understand how cells throughout the neuroendocrine system (but not exocrine or other nonendocrine cells) turn on and control the expression of CgA, we have isolated and begun to characterize functional 5' promoter elements from the rodent CgA genes. Within the sympathoadrenal system, interest focuses on a recently proposed (though as yet incompletely investigated) function of CgA: its ability to suppress catecholamine release from adrenal chromaffin cells when such cells are stimulated by their usual physiologic secretagogue. We anticipate that such studies will contribute to an understanding of this abundant, yet previously mysterious protein's role in neuroendocrine function.

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Regulation of beta-endorphin secretion by corticotropin-releasing factor in the intact rat testis.

Eskeland¹,

Molineaux²,

Schachter³

1992

Endocrinology

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CRF stimulates beta-endorphin (beta EP) secretion from adult rat Leydig cells in vitro. To evaluate the relevance of this action of CRF in a physiological context, we studied the effect of CRF on beta EP secretion in the testis in whole animals. In the pubertal rat, intratesticular infusion of CRF resulted in a 3-fold stimulation of immunoreactive beta EP (ir beta EP) levels in testicular interstitial fluid (TIF) compared with levels in contralateral saline-infused testes. Coadministration of the antagonist CRF-(12-41) resulted in TIF ir beta EP concentrations that were reduced compared to levels in paired saline controls. Infusion of the competitive antagonist CRF-(9-41) alone slightly stimulated ir beta EP concentrations in TIF. In adult animals, all of the peptides tested were without effect. These results suggest a developmental regulation of the action of CRF on beta EP levels in the pubertal rat testis. Our studies in conjunction with documented results demonstrate that in the testis, beta EP is actively secreted. These results imply that testicular ir beta EP is derived from a POMC mRNA that encodes a signal peptide containing preprohormone similar or identical to pituitary POMC. Previous studies of rodent testicular mRNA have found only 5'-truncated forms of POMC message. The current study provides direct evidence for a low abundance POMC transcript that could encode the preprohormone. Therefore, the major components of a pituitary-like CRF/POMC stimulus/secretion system appear to be present in the rat testis, including the full-length POMC mRNA and release of POMC-derived beta EP that is stimulated by CRF.

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N L Eskeland

Chromogranin A processing and secretion: specific role of endogenous and exogenous prohormone convertases in the regulated secretory pathway.

Prosaposin Gene Expression and the Efficacy of a Prosaposin-derived Peptide in Preventing Structural and Functional Disorders of Peripheral Nerve in Diabetic Rats

Stimulation of β-Endorphin Secretion by Corticotropin-Releasing Factor in Primary Rat Leydig Cell Cultures*

Hormone Storage Vesicle Proteins

Regulation of beta-endorphin secretion by corticotropin-releasing factor in the intact rat testis.

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