Peter M. Barling

Distribution of EGF and its receptor in growing red deer antler.

Autografts of the osteogenic part of early antler buds placed elsewhere on the skull have been shown by others to give rise to an antler at the site of grafting. This antler becomes covered in velvet skin, is shed at the end of the growing season and will regrow the following year. Thus, it can be concluded that the nature of antler velvet skin is primarily determined by the underlying osteogenic antler tissue to which it is attached. We hypothesise that a paracrine mechanism operates here and is central to communication between the antler osseous compartment and the integument. A signalling system comprising epidermal growth factor (EGF) and its receptor (EGFR) is known to be expressed in osteogenic cells and to play an important role in skin development and growth. This system may therefore play a significant role in determining the nature and speed of growth of velvet skin via paracrine signalling from osteogenic tissue. We have used bright‐field microscope immunohistochemistry to determine the distribution of EGF and its receptor in developing red deer antler osseous compartment and integument. EGF was localized throughout the epidermis and epidermal appendages, in cells of the mesenchyme, in chondrocytes, and in cells of the osteoblastic lineage, including osteoprogenitor cells, osteoblasts and osteocytes. There was strong evidence supporting nuclear and nucleolar staining in sebaceous glands and in keratinocytes. The EGFR was similarly expressed in mesenchyme, chondrocytes and osteoblasts. In skin, the distribution of the EGFR was more localized, being expressed strongly in the deeper cells of the epidermis but not in superficial layers, and was absent from nuclei of cells of the epidermis and its appendages. We conclude that this signalling system is widely distributed in growing antler in a manner which suggests it is predominantly autocrine. No clear‐cut evidence for paracrine signalling pathways for this system in either integument or osseous compartments was found. The pattern of distribution of the EGFR in the integument was similar to that seen by others in adult human skin. By contrast, in developing antler osseocartilage, the patterns of distribution were similar to those seen in rodent fetal bone. We conclude that antler consists of rapidly growing fetal osseocartilage overlayed by mature velvet.

Mitotic activity in the growing red deer antler.

Antlers grow rapidly through the coordinated development of both osseocartilage and skin (velvet). The regional patterns of cell division in these two compartments were assessed by immunochemical detection of proliferating cell nuclear antigen (PCNA) in antlers from one‐year‐old red deer. The whole antler integument was in a state of growth and/or renewal, particularly the keratinocytes of the basal cell layer of the epidermis near the tip, and hair bulbs and sebaceous glands. More proximally, a zone of weaker mitotic activity was detected. Within the osseocartilagenous compartment, rapid mitosis was particularly apparent within the distal mesenchyme, visible as a dome‐shaped band of staining. Mitotic activity of chondrocytes and osteoblasts was more extensive in peripheral areas of developing bone than in the centre. We conclude that the antler tip is the site of most active epidermal growth, and hypothesise that other mechanisms in addition to mechanical stretching play a role in growth of the integument.

Expression of PTHrP and the PTH/PTHrP receptor in growing red deer antler

Antler growth is highly co‐ordinated, so that trabecular bone and antler skin (velvet) develop together, at a rapid rate and in a manner reminiscent of their development in the fetus. Parathyroid hormone‐related peptide (PTHrP) is expressed in both bone and skin, and is therefore a candidate to effect co‐ordination between these tissues. The aim of this study was to localize the expression of PTHrP and its principal receptor, the parathyroid hormone/parathyroid hormone‐related peptide receptor (PTH/PTHrPR), in antler (“spiker”) of one‐year‐old red deer. Using immunohistochemistry and in situ hybridization, intense and overlapping expression of PTHrP and its receptor was seen in developing osseocartilaginous structures and in the underlying layers of velvet epidermis. PTHrP was located on both the cell surface and within the nuclei. Our results strongly suggest that PTHrP, acting via the PTH/PTHrPR and possibly other intracrine mechanisms, plays a central role in the co‐ordinated regulation of cell division and differentiation of developing antler bone and skin.

Identification of tyrosine O-sulfate in proteins by reverse-phase high-performance liquid chromatography: Use of base hydrolysis combined with precolumn derivatization using phenyl isothiocyanate

A procedure has been developed for the analysis of tyrosine O-sulfate in proteins. Samples are subjected to base hydrolysis with Ba(OH)2, neutralized with sulfuric acid, and the majority of other amino acids removed by chromatography on Dowex AG 50 X 8. The average recovery of tyrosine O-sulfate from these procedures was 43%. Tyrosine O-sulfate was identified by reverse-phase HPLC as the phenylthiocarbamyl derivative following precolumn derivatization with phenyl isothiocyanate. The method has been applied to bovine fibrinogen giving a tyrosine O-sulfate content ranging from 0.59 to 1.23 mol/mol. These procedures were also shown to be suitable for the analysis of the incorporation of [35S]sulfate into tyrosine O-sulfate residues in proteins by intact cells.

The biological properties of bovine parathyroid hormone (1–41), a fragment generated from the native hormone by human leukocytes

Native bovine parathyroid hormone (bPTH) was found to be readily cleaved with human leukocyte elastase to yield the fragments bPTH(1–41) and bPTH(42–84). These were then isolated by reverse-phase HPLC and characterised by gas-phase sequencing and amino acid analysis. The biological activities of these fragments were assessed in an adenylate cyclase bioassay using the rat osteosarcoma cell line UMR106. bPTH(1–41) was found to have approximately twice the molar potency of the native hormone from which it was derived, bPTH(42–84) had no biological activity and did not modulate the adenylate cyclase response to these cells to the native hormone. The possible physiological significance of these observations is discussed.

The isolation and characterization of lysozyme from human foetal membranes: A comparison with the enzyme from other sources

Lysozyme (muramidase) was isolated from an acidic extract of human foetal membranes by adsorption and elution from octadecyl silica. It was further purified by gel-filtration and ion-exchange. The final product was homogeneous by high performance liquid chromatography (h.p.l.c.) and electrophoresis. It was indistinguishable from human milk lysozyme by all criteria investigated, including amino acid composition, electrophoretic mobility, retention time on h.p.l.c. and sequence of the first nine residues. Human uterine decidual tissue was shown to contain a similar concentration of lysozyme to foetal membranes. The enzyme was also present at lower concentrations in amnion, placenta and amniotic fluid.

Specificity of a human leukocyte neutral proteinase with bovine parathyroid hormone as substrate

A neutral proteinase, located on the surface of human granulocytes and lymphocytes, degraded bovine parathyroid hormone in vitro. The observed sites of cleavage were between residues 5 and 6 (--ile--gln--), 8 and 9 (--met--his--), 38 and 39 (--gly--ala--) and 41 and 42 (--ile--ala--). Possible physiological implications of these findings are discussed.

Diaphorase activity in sebaceous glands and related structures of the male red deer.

The localisation of diaphorase was visualised by light microscopy using the dye nitro blue tetrazolium and NADPH as substrates. Under appropriate conditions, diaphorase reduces this dye to a dark blue insoluble formazan. The enzyme was located at very low activity in many tissue and glandular structures of the deer, but at very much higher activity in sebaceous glands in the dermal velvet of the antler and skin, and in additional sebaceous gland-related structures in the ear canal, prepuce and tail (scent) gland. Within sebaceous glands, activity was greatest in the outermost layers of the acini, but decreased as the cells progressed and differentiated centripetally. There was little or no difference between the staining observed when NADH was used as a substrate, compared to NADPH. There was generalised staining (usually light) for glucose-6-phosphate dehydrogenase, lactate dehydrogenase, and glycerol-3-phosphate dehydrogenase. However, this staining was not specifically localised to sebaceous glands and related structures, showing that the observed activity in these structures was due to a diaphorase that was distinct from any of the dehydrogenase activities tested. The possible role of diaphorase in sebaceous development and secretion is discussed.

The adenylate cyclase response to parathyroid hormone in fetal lung fibroblasts is enhanced by cortisol

Parathyroid hormone (PTH, <10−8 M) stimulated adenylate cyclase in fibroblasts, but not epithelial cells, isolated from fetal rat lung. In contrast to osteosarcoma cells (UMR 106), the response of fibroblasts to PTH was increased by pretreatment with cortisol (< 10−8–10−7 M).

Preparation of desulphated bovine fibrinopeptide B and demonstration of its sulphation in vitro by an enzyme system from neuroblastoma-glioma hybrid cells

A method is described for isolating bovine fibrinopeptide B (bFPB) in a highly purified form from crude bovine fibrinogen, using ion-exchange chromatography on DEAE cellulose. Desulphated bFPB (designated DSbFPB) was prepared by treatment of the product with acid. After incubating DSbFPB with [35S]PAPS, in the presence of a particulate preparation from neuroblastoma-glioma hybrid cells, radioactivity was incorporated into a product identified as [35S]bFPB from its position of elution on reverse-phase HPLC. The possible significance of this observation is discussed.