Wilfried Allaerts

New perspectives in the function of pituitary folliculo-stellate cells

Classical morphological studies of the folliculo-stellate (FS) cells of the anterior pituitary have suggested that these cells play roles as supporting cells, in metabolism and in macromolecular transport. Over the last 10 years the details of their activity in both trophic and catabolic processes has been clarified, and recent work has demonstrated several transport systems in these cells. Various novel peptides with growth factor or cytokine activity have been identified in FS cells and/or FS cell conditioned media. These recent functional experiments confirm and extend previous morphological and experimental studies, and in addition open new perspectives on the physiological roles of FS cells.

Cell-to-cell communication in peptide target cells of anterior pituitary

Publisher Summary This chapter discusses the cell-to-cell communication in peptide target cells of anterior pituitary. It also describes intercellular communication in the anterior pituitary by preparing highly enriched populations of the various pituitary cell types and the influence of one of these cell types on the activity of others in three-dimensional cell cultures (also known as reaggregates, aggregates, or aggregate cell cultures). The existence of regulatory signals from one cell type to another was estimated from the change in secretory response induced by the co-aggregation of both cell types. Secretory responses were followed as a function of time in a perifusion system in that aggregates remained functional for periods up to several weeks. The three-dimensional configuration and tissue just as the organization of the cells in the aggregate most likely favor the expression of these communication systems. As has been shown for brain cells, aggregates express various functional and morphogenetic capabilities that are very similar to the in vivo capabilities of the tissue.

Regulatory activity and topological distribution of folliculo-stellate cells in rat anterior pituitary cell aggregates

An enriched population of cells immunoreactive to antiserum against S-100 protein, a marker of folliculo-stellate (FS) cells in the rat pituitary, was obtained by separation of dispersed pituitary cells from adult female rats by gradient sedimentation at unit gravity. The effect of FS cells on the stimulation and inhibition of prolactin (PRL) and growth hormone (GH) release was studied by coaggregation experiments of the FS cell-enriched population with respectively a lactotroph-enriched and a somatotroph-enriched population from adult female rats. The FS cell population not only attenuated the stimulation of PRL and GH release, but also significantly attenuated the inhibition of PRL release by 10, 30 or 300 nM dopamine (DA), and the inhibition of GH release by 0.1 nM somatostatin (SRIF). The stimulatory action of angiotensin II (AII) on PRL secretion in the presence of DA was also attenuated by the FS cells. Light microscopic evaluation of immunostained semithin sections showed a meshwork of cytoplasmic extensions of FS cells as well as follicular structures in the aggregates. There was no preferential association of FS cells with certain cell types. The permeability of the aggregates to diffusing molecules was tested at the ultrastructural level by the lanthanum hydroxide tracing technique. Lanthanum traced the intercellular gaps over the entire aggregate irrespective of whether the proportional number of FS cells was high or low, indicating that FS cells do not seal off certain areas in the aggregate by the formation of tight junctions. It is suggested that FS cells attenuate the action not only of stimulatory but also inhibitory secretagogues on hormone-secreting pituitary cells. The possible physiological relevance of the present findings is supported by the topological distribution of the FS cells in the aggregates, which closely resembles that of the intact pituitary.

Selectivity of juxtaposition between cup-shaped lactotrophs and gonadotrophs from rat anterior pituitary in culture

SummarySemi-thin sections of three-dimensional reaggregates from adult female rat pituitary, cultured in serum-free defined medium, were stained for prolactin, gonadotropin, thyrotropin, growth hormone and S-100, using the double immunolabelling technique. The frequency of juxtaposition between lactotrophs and gonadotrophs was enumerated and compared with the expected frequency at random distribution of polygonal cell profiles in a hexagonal configuration. The proportions of lactotrophs and gonadotrophs in the aggregate sections were determined using stereometrical analysis. The observed frequency of juxtaposition did not differ significantly from the expected frequency. Hence, no reason was found to assume a selective adhesion between lactotrophs and gonadotrophs in adult female rat pituitary reaggregates. A constant proportion of lactotrophs was found to meet the criteria of a cup-shaped morphology, and 70%±9% (mean ±S.D.) of these so-called cupshaped lactotrophs were found to be juxtaposed at their concave side to gonadotrophs. Administration of 0.01 nM 17β-oestradiol to the culture medium resulted in a significant reduction of the proportion of cup-shaped lactotrophs but did not affect the selectivity of juxtaposition to gonadotrophs. The selectivity of juxtaposition between cup-shaped lactotrophs and gonadotrophs may be the morphological correlate of the functional relationship between these cells, which are known to be involved in an intra-pituitary paracrine communication system.

A diffusion-adsorption model for the computation of the amount of hormone around a secreting cell, detected by the reverse hemolytic plaque assay

The reverse hemolytic plaque assay enables the detection of secretion products from individual cells in cultures by visualizing the plaques formed after complement-mediated hemolysis around the secreting cells. However, the precise quantitation of the amount of secretion remains problematic. In this study we propose a computation model for estimating the spreading of the secreted molecules, based on the underlying processes of diffusion and antigen adsorption by immobilized antibodies. The translational diffusion coefficient of rat prolactin at 37 degrees C, determined by laser light scattering, was 9.89 x 10(-7) cm2/s. The time-dependent concentration distribution around a constantly secreting cell in a flat quasi infinite layer, was derived from the diffusion equation, using an analytical approach based on Laplace transformation. The relations between plaque size, incubation time and secretion level were expressed as a function of the threshold concentration of secretion product that can be detected and the effective diffusion coefficient, taking antigen adsorption into account. We obtained very good agreement between observed and predicted results for plaque formation by dispersed prolactin secreting cells of 14-day-old female rat pituitaries. This study confirms the validity of the assumptions underlying the reverse hemolytic plaque assay, provided that the cell density is low, the incubation time is moderately long and the concentration of specific antiserum is sufficiently high.

On the role of gravity and positional information in embryological axis formation and tissue compartmentalization

The idea that gravity affects dorso-ventral polarization in anouran development contrasts with the theories of self-organization through reaction-diffusion processes. As a result of a literature study we discuss the role of gravity in embryological axis formation and speculate on an influence of gravity on tissue compartmentalization. The involvement of compartmentalization in tissue homeostasis is discussed in the light of the recent progress in mammalian cell culture studies.