Hydrophobic high-performance liquid chromatography of hormonal polypeptides and proteins on alkylsilane-bonded silica

A new extraction of arginine vasopressin from blood: the use of octadecasilyl-silica

Small columns packed with octadecasilyl-silica were used to extract arginine-vasopressin in femtomole amounts from biological fluids for radioimmunoassay. This method is effective in isolating the peptide from substances in plasma and serum which interfere with its quantitation. Consistent and reproducible results and recoveries > 80% were obtained with this procedure. High pressure liquid chromatography and serial dilution of extracted samples confirm the identity of the extracted product.

Characterisation of an adrenal zona glomerulosa-stimulating component of posterior pituitary extracts as alpha-MSH

The secretion of aldosterone from the zona glomerulosa of the mammalian adrenal cortex is stimulated by ACTH, potassium, angiotensin II and III, growth hormone, serotonin and E series prostaglandins. Some experimental and clinical studies suggest that additional stimulants of the zona glomerulosa must exist, possibly including pituitary factors other than ACTH. The possibility that posterior pituitary extracts may contain a zona glomerulosa stimulant was first suggested 20 years ago, but has since received little attention. We describe here the purification from posterior pituitary extracts of activities that stimulate rat glomerulosa cells and whole tissue in vitro. One of the active compounds has been identified as alpha-MSH (melanocyte stimulating hormone).

Cycloheximide-sensitive synthesis of substance P by isolated dorsal root ganglia

Substance P (Arg-Pro-Lys-Pro-Gln-Gln-Phe-Phe-Gly-Leu-Met-NH2) may be used as a neurotransmitter by certain primary afferent neurones, particularly those carrying pain impulses. Substance P-like immunoreactivity has been localised to the cell bodies of one population of dorsal root ganglion neurones by immunocytochemistry. It is contained in vesicles in the central terminals of these neurones, and has also been demonstrated in the peripheral terminals. As axons and terminals have very little capacity for peptide biosynthesis, it is possible that substance P is synthesised and packaged in the perikaryon and transported to the terminals by an axoplasmic transport process. Consistent with this is the finding that substance P accumulates proximal to a ligature placed on the dorsal root. There has, however, been no direct demonstration of the biosynthesis of substance P in the nervous system. We report here that rat dorsal root ganglia incorporate 35S-methionine into substance P, characterised as authentic by immunoprecipitation followed by HPLC. There is a delay of 1-2 h between addition of label and its incorporation into substance P. Synthesis is blocked by cycloheximde suggesting that, in dorsal root ganglia, substance P is synthesised by a conventional ribosomal process. Synthesis of substance P is reduced by some 90% in ganglia from rats treated neonatally with capsaicin, a drug which is thought to destroy a population of primary afferent neurones.

Prediction of peptide retention times in high-pressure liquid chromatography on the basis of amino acid composition

Analysis of peptides by reverse-phase high-pressure liquid chromatography would be simplified if retention times could be predicted by summing the contribution to retention of each of the peptide's amino acid side chains. This paper describes the derivation of values ("retention coefficients") that represent the contribution to retention of each of the common amino acids and end groups. Peptide retention times were determined on a Bio-Rad "ODS" column at room temperature with a linear gradient from 0.1 M NaclO(4), pH 7.4 or 2.1, at 0 min to 60% acetonitrile/0.1 M NaclO(4) at 80 min. The NaclO(4), a chaotropic agent, was added to improve peak shape and to minimize conformational effects. Retention coefficients for the amino acids were computed by using a Hewlett-Packard 9815A calculator programmed to change the retention coefficients for all amino acids sequentially to obtain a maximum correlation between actual and predicted retention times. Correlations of 0.999 at pH 7.4 and 0.997 at pH 2.1 were obtained for 25 peptides including glucagon, oxytocin, [Met]enkephalin, neurotensin, and somatostatin. This high degree of correlation suggests that, for peptides containing up to 20 residues, retention is primarily due to partition processes that involve all the residues. Although steric or conformational factors do have some effect on retention, the data suggest that under the above chromatographic conditions the retention of peptides containing up to 20 residues can be predicted solely on the basis of their amino acid composition. This possibility was tested by using data taken from the literature.

Use of hydrophobic interaction methods in the isolation of proteins from endocrine and paraendocrine tissues and cells by high-performance liquid chromatography

We have recently described the separation of a large number of polypeptide hormones, related peptides and some protein standards by hydrophobic interaction high-performance liquid chromatography (HPLC). This paper reports the practical application of these methods to the reproducible isolation and separation of components of a mixture of immunoreactive calcitonin-like proteins (less than 25 kD) synthesised and secreted by human tumour cells in vitro. Using hydrophobic interaction HPLC on ODS-silica for both preliminary bulk fractionation and subsequent analytical separation greater than 80% recoveries of small (ng) quantities of immunoreactive proteins were obtained from samples containing less than 100 mg total protein, and characteristic profiles of synthesised and secreted materials were established. Using a partially purified hypothalamic extract, containing a number of small proteins (12--25 kD), we have also examined the effects of varying chromatographic conditions in an attempt to modify the separations obtained with ODS-silica using an acid-saline-acetonitrile gradient elution system at ambient temperature, and achieve further resolution of its components. No useful selective effects were observed when temperature, organic modifier, gradient profile or hydrophobic stationary phase were altered. These techniques may not therefore be inherently capable of completely resolving all components of natural protein mixtures. They do, however, offer an adjunct to and in certain cases a substitute for conventional methods of protein separation.