Upregulation of dynamin II expression during the acquisition of a mature pancreatic acinar cell phenotype.

Members of the dynamin superfamily are GTPases which have been shown to support receptor-mediated endocytosis in vivo and bind to growth factor receptor-associated proteins in vitro. In acinar cells of the pancreas, receptor-mediated endocytosis is very important for the recycling of membranes after secretory granule release. Therefore, characterization of the molecular machinery responsible for this process is critical for a better understanding of this phenomenon. In this study we sought to determine the expression pattern of the endocytic GTPase dynamin II during pancreatic acinar cell differentiation in developing rat embryos and in dexamethasone-treated AR42J cells using Western blot, Northern blot, and immunocytochemical analyses. During pancreatic development, dynamin immunoreactivity is almost undetectable until day E17 but undergoes significant upregulation in acinar cells starting at E18. In addition, the levels of dynamin mRNA and protein in AR42J cells increase approximately threefold during dexamethasone-induced acinar differentiation. The increase in dynamin levels that occurs in both embryonic pancreatic cells and dexamethasone-treated AR42J cells correlates with the establishment of a more differentiated acinar phenotype. Therefore, these results suggest a potential role for dynamin in supporting receptor-mediated endocytosis in mature pancreatic acinar cells.

The Dictyostelium myosin IE heavy chain gene encodes a truncated isoform that lacks sequences corresponding to the actin binding site in the tail.

We have isolated cDNA and genomic clones which together span the entire coding sequence for the 114.8 kDa heavy chain of Dictyostelium myosin IE (DMIE). The deduced primary sequence reveals a pattern characteristic of all myosins I, i.e., a myosin-like globular head domain fused to a tail domain that shows no similarity to the coiled-coil rod-like tail of type II myosins. The approx. 35 kDa tail domain of DMIE shows some sequence similarity to the membrane interaction region of other myosins I (tail-homology-region 1; TH-1), but lacks completely the sequences that correspond to the second actin binding site (the glycine-, proline- and alanine-rich TH-2 region and the src-like TH-3 region). Therefore, DMIE more closely resembles DMIA (Titus et al. (1989) Cell Regul 1, 55-63), which is also truncated, than DMIB and DMID, both of which possess all three tail homology regions. The similarity between the DMIE and DMIA isoforms extends to their pattern of expression, in which the steady state level of transcript for both genes is highest in vegetative cells and falls gradually after five to ten hours of starvation-induced development. Together, these results have important implications for interpreting and prioritizing gene targeting experiments designed to identify the functions of myosins I in vivo.

A Feulgen microspectrophotometric study of the DNA content of essential fatty acid-deficient rat pancreas treated with nitrosomethylurea.

Microspectrophotometric DNA measurements in exocrine pancreas of essential fatty acid-deficient (EFAD) and EFA-sufficient (EFAS) rats which received a single intraperitoneal injection of the carcinogen nitrosomethylurea (NMU) or saline (SAL) was the subject of the present report. The DNA content of acinar pancreatic cells of SAL-injected EFAD and EFAS rats was diploid. NMU-induced pancreatic focal acinar cell hyperplasia (FACH) had one main cell population with a diploid content, whereas in the intervening parenchyma there were diploid and tetraploid cells. The number of tetraploid cells was smaller in EFAD rat pancreas than in EFAS indicating a diet dependent effect. NMU-induced FACH had a diploid distribution pattern indicating that cells are in a G1, quiescent phase, contrasting with AZA-induced similar lesions which showed an abnormal ploidy. It remains to be established whether DNA phenotypic traits of NMU and AZA induced FACH reflect the neoplastic potentials of both types of lesions. The decreased number of tetraploid cells in EFAD rat pancreas is in keeping with data indicating a promoting effect of the EFA linoleic and arachidonic acids on growth rate of certain cell populations in vitro.