SummaryThe analysis of cDNA clones encoding novel variant forms of mouse kinectin, an endoplasmic reticulum (ER)-bound receptor for the motor protein kinesin, is reported. Kinesin and cytoplasmic dynein are involved in mediating the anterograde and retrograde movements of intracellular vesicles along the microtubule network. The amino aeid sequence deduced from kinectin cDNA isolated from mouse spleen cell and testis libraries revealed a long signal peptide or transmembrane sequence, and a 328 amino acid residue globular N-terminal domain adjacent to a much larger 858-999-residue C-terminal coiled-coil rod domain. The C-terminal domain was composed of 18 coiled-coil regions formed from muitipie contiguous heptad repeats which undergo alternative spiicing as evidenced by the presence of at least five small (23-33 amino acid residue) insertion sequences scattered throughout. The inserts are present in any one of a number of combinations, generating an array of novel kinectin variants. Insert 5 contains a termination codon, producing a C-terminus that is highiy homologous to that of human kinectin. Three out of five mouse kinectm clones lack insert 5, generating a novel eleven amino acid C-terminus encoded by sequence that extends past the insertion site. The existence of aiternative C-termini may have functional relevance given that the C-termini are exposed for interaction with kinesin, whereas the globular N-terminus is embedded in the ER membrane. Alternative C-termini represent candidate modifications that could determine specificity of binding to kinesin or cytoplasmic dynein, and the switching of directionality of movement. The cDNA hybridized to 4.5 kb transcripts expressed in ail mouse cell lines and tissues examined, which provides the first indication that the kinectins are very widely distributed. Mouse kinectin is 42% similar over a 203 amino acid region to the chicken extracellular cardiac morphogen ES/130, whose canine homologue containing an inserted sequence of 10 amino acids repeated 54 times in tandem, is a ribosome receptor expressed on the ER. Mouse kinectin shares 64 and 83% identity, respectively, with its M^ 160 000 chicken and human kinectin homologues. There is a two-fold molar excess of kinectin over kinesin in unextracted vesicles, suggesting that kinectin might be a dimer. The electrostatic properties of the coited-coil region of mouse kinectin. together with the relative frequencies of residues in particular positions within the heptad repeats support this notion.
The insulin-like growth factors (IGF-I and IGF-II), their receptors and binding proteins (IGFBPs) are endogenously expressed in a number of tissues including the lung during fetal and neonatal development. This endogenous autocrine/paracrine IGF 'system', together with endocrine sources, contributes to the regulation of lung cell proliferation. We investigated the expression of the mRNAs encoding IGF-I, IGF-II, the type 1 IGF receptor (IGF-T1R) and two IGF-binding proteins (IGFBP-2 and IGFBP-4) in rat lung during the perinatum. These were compared in lung with surfactant apoprotein A (Sp-A) mRNA levels. mRNA in extracts of fetal tissues collected between day 17 of gestation (17f) and day 9 after birth (9d) was estimated by Northern blot or RNase protection analysis. At day 20 of gestation IGF-I, IGF-T1R and IGFBP-4 mRNA levels were higher in lung than liver (all P < 0.01), whereas IGF-II and IGFBP-2 mRNA levels were higher in liver than lung (each P < 0.02). The expression of IGF-1, IGFBP-2 and IGFBP-4 in lung was high before birth (days 17-20f) but decreased to low levels at days 21f, 22f or at birth (1d) but increased in the neonatal lung. IGF-II expression in lung was high at 17f but decreased before birth and remained low after birth. The IGF-T1R was expressed at moderate levels before birth, decrease before birth but peaked at days 2-5 after birth. The decrease in expression of these growth regulators before birth expression of these growth regulators before birth was matched by an increased in Sp-A expression which was clearly seen at day 20f, peaked at 1d and then was clearly seen at day 20f, peaked at 1d and then was maintained at high levels after birth. Primary cell cultures of 18f lung epithelia express IGFBP-2 while fibroblasts from the same animals express only IGFBP-4. Cells grown from 22f lung tissue express IGFBP-2 and IGFBP-4 at lower levels, behaving in vitro as they do in vivo. The contrasting levels of expression of different components of the IGF system in the fetal lung and liver indicate organ-specific regulation. IGFBP-2 and IGFBP-4 expression in different cell types within lung but with similar temporal changes suggests cell-specific regulation, perhaps by a common agent. The patterns by a common agent. The patterns of expression of IGF-I, IGF-T1R, IGFBP-2 and IGFBP-4, but not IGF-II, in developing lung correspond to previously described phasic changes in lung cell proliferation rates. The nadir in expression of these four major components of the lung IGF system occurs in the saccular phase when the lung begins to differentiate, probably under the influence of certain endocrine agents.
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