1. Abstract Observations of the organization and distribution of telomeres (Tel) in somatic tissues still remain controversial. The Tel topography revealed by modern microscopy shows them to be associated with the nuclear envelope (NE) ... Observations of the organization and distribution of telomeres (Tel) in somatic tissues still remain controversial. The Tel topography revealed by modern microscopy shows them to be associated with the nuclear envelope (NE) in a wide variety of eukaryotic cells, although not at the Rabl orientation (peripheral position at one pole of the nucleus at prophase). We used two cell types that have different nuclear architectures. The cell line L929 shows lack of any rigid Tel architecture in the nucleus. In contrast, spermatozoa have a precise architecture established during spermiogenesis. We observed Tel and membrane Tel binding protein (MTBP/TRF2) position by immunoFISH in L929 cells and by immunofluorescence and immunogold electron microscopy, using antibodies against Membrane Tel Binding Protein (MTBP/TRF2), during different stages of spermiogenesis. At all stages of the L929 cell cycle, MTBP/TRF2 is co-localized with Tel. The only Tel order found in this cell type is similar to the Rabl-orientation, probably due to fast divisions. In the mouse pachytene spermatocytes, the membrane structures abut on the synaptonemal complex (SC) attachment sites contain MTBP/TRF2. In fully formed spermatozoa and during spermiogenesis, apart from the expected MTBP/TRF2 position at the nuclear periphery, MTBP/TRF2 unexpectedly localized at the acrosomal membrane that is adjacent to the nucleus. The difference in the MTBP/TRF2 distribution in the oocyte and spermatozoa leads to the suggestion that the MTBP/TRF2 location might reflect preparation for fertilization events. The Tel distribution is not static in cultured cells throughout the cell cycle or during spermatogenesis. When the Tel are attached to the NE, as during SC formation, MTBP/TRF2 is the member of the protein complex, which appears to be responsible for this attachment.
PMID: [14614800]
A. V. Dolnik, I. S. Kuznetsova, A. P. Voronin and O. I. Podgornaya (2003) Telomere-binding TRF2/MTBP localization during mouse spermatogenesis and cell cycle of the mouse cells L929. J Anti Aging Med 6(2): 107-21. PMID: [14614800]
A. V. Dolnik, I. S. Kuznetsova, A. P. Voronin and O. I. Podgornaya (2003) Telomere-binding TRF2/MTBP localization during mouse spermatogenesis and cell cycle of the mouse cells L929. J Anti Aging Med 6(2): 107-21. PMID: [14614800]
Membrane Tel Binding Protein (MTBP/TRF2) is the member of the protein complex, which appears to be responsible for this attachment. It inhibits cell migration in vitro and suppresses the invasive behavior of tumor cells. It may invovles in synaptonemal complex (SC) formation.
