With the long term of understanding regulated organellar assembly, we propose to focus on the lysosome. The lysosome and lysosomal storage diseases are one of the clearest examples of human disease states from which hypotheses for the regulation of organelle assembly can be based. The morphological retention of lysosomes in I cell fibroblasts, cells from patients suffering from mucolipidosis II in which lysosomal hydrolases are secreted, indicates that lysosomal membrane synthesis and hydrolase synthesis are differentially regulated. We propose to investigate this hypothesis under two different regulatory conditions. In the first, there is an apparent """"""""induction"""""""" of hydrolase accumulation. In the second, the amine treated or mutant fibroblast, there is extensive secretion of lysosomal hydrolases while cells still maintain abundant lysosomes. In these two cases, we will compare lysosomal membrane protein biosynthesis (and localization) with that of lysosomal hydrolases. In addition to these studies, we propose to determine the mechanism(s) by which newly synthesized lysosomal proteins are transmitted through the organelle population. To do this, experiments will be done to characterize lysosomal proteins, to establish the kinetics of their transfer from Golgi apparatus to lysosomes in vivo and the effects of drugs on this process, and to investigate the exchange of lysosomal molecules between lysosomes by organelle """"""""fusion""""""""/transfer processes. For experiments to establish molecule exchange within the lysosome population, cells with differentially labeled lysosomes will be fused either by viral infection or by transfection with a fusogen protein. Much of the methodology of contemporary cell biology including cell fractionation, antibodies and immunolocalization, cell fusion, radiolabeling, video microscopy, and gel electrophoresis will be employed in these studies.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM036988-02
Application #
3291772
Study Section
Cellular Biology and Physiology Subcommittee 1 (CBY)
Project Start
1987-08-15
Project End
1991-07-31
Budget Start
1988-08-01
Budget End
1989-07-31
Support Year
2
Fiscal Year
1988
Total Cost
Indirect Cost
Name
Virginia Polytechnic Institute and State University
Department
Type
Earth Sciences/Resources
DUNS #
003137015
City
Blacksburg
State
VA
Country
United States
Zip Code
24060
Deng, Y; DeCourcy, K; Storrie, B (1992) Intermixing of resident Golgi membrane proteins in rat-hamster polykaryons appears to depend on organelle coalescence. Eur J Cell Biol 57:1-11
DeCourcy, K; Storrie, B (1991) Osmotic swelling of endocytic compartments induced by internalized sucrose is restricted to mature lysosomes in cultured mammalian cells. Exp Cell Res 192:52-60
Deng, Y P; Griffiths, G; Storrie, B (1991) Comparative behavior of lysosomes and the pre-lysosome compartment (PLC) in in vivo cell fusion experiments. J Cell Sci 99 ( Pt 3):571-82
Xiao, L; Storrie, B (1991) Behavior of a transitional tubulovesicular compartment at the cis side of the Golgi apparatus in in vivo fusion studies of mammalian cells. Exp Cell Res 193:213-8
Ho, W C; Storrie, B; Pepperkok, R et al. (1990) Movement of interphase Golgi apparatus in fused mammalian cells and its relationship to cytoskeletal elements and rearrangement of nuclei. Eur J Cell Biol 52:315-27
Madden, E A; Storrie, B (1989) Effect of acidotropic amines on the accumulation of newly synthesized membrane and luminal proteins in Chinese-hamster ovary (CHO) cell lysosomes. Biochem J 258:843-51
Buckmaster, M J; Ferris, A L; Storrie, B (1988) Effects of pH, detergent and salt on aggregation of Chinese-hamster-ovary-cell lysosomal enzymes. Biochem J 249:921-3
Deng, Y P; Storrie, B (1988) Animal cell lysosomes rapidly exchange membrane proteins. Proc Natl Acad Sci U S A 85:3860-4
Ferris, A L; Brown, J C; Park, R D et al. (1987) Chinese hamster ovary cell lysosomes rapidly exchange contents. J Cell Biol 105:2703-12