Decreased number of nucleolar organizing regions in collagen lattice cultured fibroblasts

Overexpression of the nucleolar protein nucleophosmin/B23 in collagen lattice-cultured fibroblasts: potential role in the control of protein synthesis

Fibroblasts cultivated in tridimensional collagen lattices exhibit a downregulation of protein synthesis, related to decreased ribosomal RNA (rRNA) content and half life, when compared to monolayer cultivated cells. The involvement in this process of nucleophosmin/B23, a nucleolar phosphoprotein with ribonuclease properties, was checked. We compared production of nucleophosmin/B23 in monolayer and collagen lattice cultured fibroblasts. A significant increase of nucleophosmin/B23 mRNA levels was noticed in lattice-cultured fibroblasts vs monolayers (+154%, p < 0.05). A concomitant enhancement of nucleolar nucleophosmin/B23 content was found (+112%, p < 0.001). Simultaneously, ribonuclease activity contained in nucleolar extracts from collagen lattice-cultured fibroblasts was significantly increased (+54%, p < 0.01). These data demonstrate that extracellular collagen matrix induces the overexpression of nucleophosmin/B23, and suggest that the regulation of protein syntheses in collagen lattice cultures may be explained, at least partly, by an increased degradation of neosynthesized rRNAs dependent on nucleophosmin.

Modulation of collagen metabolism by the nucleolar protein fibrillarin

Metabolic functions of fibroblasts are tightly regulated by the extracellular environment. When cultivated in tridimensional collagen lattices, fibroblasts exhibit a lowered activity of protein synthesis, especially concerning extracellular matrix proteins. We have previously shown that extracellular collagen impaired the processing of ribosomal RNA (rRNA) in nucleoli by generating changes in the expression of nucleolar proteins and a premature degradation of neosynthesized rRNA. In this study, we have investigated whether inhibiting the synthesis of fibrillarin, a major nucleolar protein with decreased expression in collagen lattices, could mimic the effects of extracellular matrix. Monolayer-cultured fibroblasts were transfected with anti-fibrillarin antisense oligodeoxynucleotides, which significantly decreased fibrillarin content. Downregulation of fibrillarin expression inhibited procollagen secretion into the extracellular medium, without altering total collagen production. No changes of pro1(I)collagen mRNA expression or proline hydroxylation were found. A concomitant intracellular retention of collagen and its chaperone protein HSP47 was found, but no effect on the production of other extracellular matrix macromolecules or remodelling enzymes was observed. These data show that collagen processing depends on unknown mechanisms, involving proteins primarily located in the nucleolar compartment with other demonstrated functions, and suggest specific links between nucleolar machinery and extracellular matrix.