Transient disruption of spermatogenesis by deregulated expression of neurturin in testis.

Two related ligands, glial cell line-derived neurotrophic factor (GDNF) and neurturin (NRTN), are expressed by Sertoli cells, but their cognate ligand-binding co-receptors, GDNF family receptor alpha1 and alpha2, are displayed by different germ cells suggesting different targets for the ligands. GDNF regulates cell fate decision of undifferentiated spermatogonia 'Science 287 (2000) 1489'. The role of NRTN was now approached by targeted overexpression in mouse testis. Between 3 and 5 weeks of age, transient degeneration of spermatogenic cells was observed in approximately 20% of all five transgenic lines generated. Spermatids and pachytene spermatocytes underwent segmental degeneration, if the rete testis was undilated. When it was dilated, the spermatids and spermatocytes were more generally depleted. After 5 weeks of age, spermatogenic defects were no more observed and the NRTN overexpressing mice were fertile. The data suggest that NRTN might regulate survival and differentiation of spermatocytes and spermatids, but the low penetrance indicates that either the transgene expression has not been high enough or NRTN is not as essential as GDNF for spermatogenesis.

Overexpression of camello, a member of a novel protein family, reduces blastomere adhesion and inhibits gastrulation in Xenopus laevis.

Vertebrate gastrulation involves complex coordinated movements of cells and cell layers to establish the axial structures and the general body plan. Adhesion molecules and the components of extracellular matrix were shown to be involved in this process. However, other participating molecules and detailed mechanisms of the control of gastrulation movements remain largely unknown. Here, we describe a novel Xenopus gene camello (Xcml) which is expressed in the suprablastoporal zone of gastrulating embryos. Injection of Xcml RNA into dorsovegetal blastomeres retards or inhibits gastrulation movements. Database searches revealed a family of mammalian mRNAs encoding polypeptides highly similar to Xcml protein. Characteristic features of the camello family include the presence of the central hydrophobic domain and the N-acetyltransferase consensus motifs in the C-terminal part, as well as functional similarity to Xcml revealed by overexpression studies in Xenopus embryos. Xcml expression results in the decrease of cell adhesion as demonstrated by the microscopic analysis and the blastomere aggregation assay. Cell fractionation and confocal microscopy data suggest that Xcml protein is localized in the secretory pathway. We propose that Xcml may fine tune the gastrulation movements by modifying the cell surface and possibly extracellular matrix proteins passing through the secretory pathway.

A novel murine cathelin-like protein expressed in bone marrow.

A novel cDNA encoding a putative secreted protein was isolated from murine bone marrow. The encoded protein named MCLP (murine cathelin-like protein) was found to be highly homologous to the pig cathelin, and to four neutrophil antimicrobial polypeptides: CAP 18, indolicidin, Bac 5 and FALL-39. Secondary structure prediction studies identified a highly cationic region in the C-terminal part of prepro-MCLP with a tendency to adopt an amphipathic alpha-helical conformation, as observed in many antimicrobial peptides. However, no antibacterial activity was observed with the synthetic peptide corresponding to this region of MCLP.