Hormone storage granules in the beef anterior pituitary. I. Isolation, ultrastructure, and some biochemical properties

Functional Mammalian Amyloids and Amyloid-Like Proteins

Amyloids are highly ordered fibrous cross-β protein aggregates that are notorious primarily because of association with a variety of incurable human and animal diseases (termed amyloidoses), including Alzheimer’s disease (AD), Parkinson’s disease (PD), type 2 diabetes (T2D), and prion diseases. Some amyloid-associated diseases, in particular T2D and AD, are widespread and affect hundreds of millions of people all over the world. However, recently it has become evident that many amyloids, termed “functional amyloids,” are involved in various activities that are beneficial to organisms. Functional amyloids were discovered in diverse taxa, ranging from bacteria to mammals. These amyloids are involved in vital biological functions such as long-term memory, storage of peptide hormones and scaffolding melanin polymerization in animals, substrate attachment, and biofilm formation in bacteria and fungi, etc. Thus, amyloids undoubtedly are playing important roles in biological and pathological processes. This review is focused on functional amyloids in mammals and summarizes approaches used for identifying new potentially amyloidogenic proteins and domains.

Analytical subcellular fractionation of rat pituitary homogenates, with special reference to prolactin proteolysis by lysosomes

Prolactin proteolysis by rat pituitary homogenates was assayed by measuring the release of trichloroacetic acid-soluble peptides from 125I-labelled rat prolactin. There was a distinct optimum at pH 4.3, with only trace amounts of activity at neutral and alkaline pH. Rat pituitary homogenates were subjected to analytical subcellular fractionation by sucrose density gradient centrifugation in a Beaufay automatic zonal rotor. The principal organelles were characterized by their respective marker enzymes, including: cytosol (lactate dehydrogenase); plasma membrane (5'-nucleotidase); lysosomes (N-acetyl-beta-glucosaminidase, beta-glucuronidase); mitochondria (particulate malate dehydrogenase); endoplasmic reticulum (neutral alpha-glucosidase); prolactin granules (radioimmunoassayable prolactin). Acid prolactin protease had a similar distribution to the lysosomal marker enzymes. A localisation of the activity to lysosomes was confirmed by subcellular fractionation experiments in which the lysosomes were selectively disrupted with low concentrations of the membrane perturbant, digitonin. Experiments with specific inhibitors of the lysosomal cathepsins indicate that both cathepsins B and D are implicated in pituitary prolactin proteolysis.

Secretion and crinophagy in prolactin cells

The mammotroph or prolactin-secreting cell, due to its distinctive fine structure, large granules, and sustained survival in vitro, has been a favorite object for studying mechanisms of pituitary secretion and its control. In this review the structural basis of prolactin secretion is summarized and the proposed sequence of intracellular events involved in prolactin secretion together with their site of loaction is outlined. The available evidence validating the various steps in prolactin secretion and their regulation is summarized. Finally, some of the unresolved problems remaining for the future are pinpointed.

Protease and ribonuclease activities in bovine pituitary lobes

1. Acid and alkaline protease activities in bovine anterior and posterior pituitary lobes were reinvestigated by measurement of u.v. and Folin-Ciocalteu colour values of trichloroacetic acid-soluble digestion products of denatured haemoglobin. 2. Both lobes of the pituitary gland contain a cathepsin with a pH optimum at 3.8. 3. When release of u.v.-absorbing material was used as the assay there was also an optimum at pH8.3-9.7, but this proved to be due to the release of nucleosides from an endogenous substrate. 4. The presence of a ;cyclizing' ribonuclease active at alkaline pH on endogenous RNA was confirmed by the inhibitory effects of phosphate, arsenate and bentonite. The activity was unaffected by heat, EDTA or metal ions. The enzyme also acted on exogenous RNA. 5. A purified preparation of neurosecretory granules from fresh bovine posterior pituitary lobes was free from alkaline ribonuclease activity. Most of the activity present in the tissue was recovered in the supernatant plus microsomal material. 6. The distribution of RNA did not follow that of the alkaline ribonuclease.

Isolation and biological properties of secretory granules from rat anterior pituitary glands

A method is described for the isolation of secretory granules from rat anterior pituitary glands. The method consists of differential and isopycnic gradient centrifugations, followed by filtration of the zones containing granules on Nuclepore filters to remove mitochondria. Highly purified granules were obtained as indicated by electron microscopy. Major parts of the thyrotropin (TSH) and adrenocorticotropin (ACTH) were recovered in a single fraction of granules as were follicle-stimulating (FSH) and luteinizing (LH) hormones. The somatotropin (STH) and prolactin (LTH) were recovered in separate granule fractions. The major parts of the six different hormones were associated with their respective granule fractions as shown by bioassays specific for each of the hormones. The diameters of granules in sections of intact rat pituitary glands and in isolated pellets were measured, and the means and ranges were in close agreement. These results contribute to the identification of the cell types which produce the different pituitary hormones.