Abnormal interaction of the human apolipoprotein A-I variant [Lys107----0] with high density lipoproteins

Several isoforms of apoprotein A-I [apoA-I], the major apoprotein of high density lipoproteins [HDL], have been described. We compared the in vivo and in vitro properties of normal human apoA-I with those of apoA-I [Lys107----0]. Fluorescence and circular dichroic spectra showed that deletion of Lys107 decreases apoprotein self-association. In vivo metabolic studies in the rat indicated that the interaction of apoA-I [Lys107----0] with HDL was lower than normal. We conclude that deletion of Lys107 results in a reorganization of the apoprotein structure that decreases its potential to form hydrophobic associations.     

The transition point for protein synthesis in late S-G2 may be delayed by genome bromosubstitution without affecting the time of entry into mitosis

Bromosubstitution for most of the S period in synchronous populations of Allium cepa L. meristematic cells resulted in a delay in the late S-G2 transition point where protein synthesis is needed for later mitotic entrance to occur. This retardation in the position of the transition point was not accompanied by the expected delay in the entrance into mitosis, suggesting that such protein synthesis is a requisite, but not a timer for prophase triggering.     

Survival and activity of Salmonella typhimurium and Escherichia coli in tropical freshwater

The survival of Salmonella typhimurium LT2 and Escherichia coli was studied in situ in a tropical rain forest watershed using membrane diffusion chambers. Numbers were determined by acridine orange staining and a Coulter counter. Population activity was determined by microautoradiography, cell respiration, frequency of dividing cells, and by nucleic acid composition. Numbers of Salm. typhimurium and E. coli decreased less than 1 log unit after 105 h as measured by direct count methods. Activity as measured by respiration, acridine orange activity, frequency of dividing cells, and microautoradiography indicated that both bacteria remained moderately active during the entire study. After 24 h, E. coli was more active than Salm. typhimurium , as measured by nucleic acid composition, and frequency of dividing cells. Both E. coli and Salm. typhimurium survived and remained active in this tropical rain forest watershed for more than 5 d, suggesting that Salm. typhimurium may be of prolonged public health significance once it is introduced into tropical surface waters. As E. coli was active and survived for a long time in this natural environment, it would seem to be unsuitable as an indicator of recent faecal contamination in tropical waters.     

An isozyme-specific selective system for the recovery of mammalian cells deficient in hepatic alcohol dehydrogenase activity

A selective system toxic towards mammalian cells expressing the liver-specific isozyme of alcohol dehydrogenase (L-ADH) has been developed. A number of alpha-unsaturated primary and secondary alcohols were assayed for their ability to serve as substrates for rat liver ADH and were screened for cytotoxicity towards L-ADH+ and L-ADH- cells. 1-Propen-3-ol and 1-penten-3-ol were identified as agents showing selective cytotoxicity. Reconstruction experiments demonstrated that 1-propen-3-ol at a concentration of 15 microM could be used to recover L-ADH- clones from mixed populations of L-ADH+ and L-ADH cells. Cells expressing the non-allelic S-ADH isozyme were not killed under these conditions. The selective system defined in this report is thus isozyme-specific.     

Increased proline transport resulting from growth of normal and Kirsten sarcoma virus-transformed BALB 3T3 cells in the presence of N(6), O(2')-dibutyryl cyclic adenosine 3',5'-monophosphate.

Proline transport in Kirsten sarcoma virus-transformed BALB 3T3 (Ki-3T3) cells was increased approximately twofold by 0.5 mm dibutyryl cAMP (dbcAMP), and the increase was observed whether transport was assayed in the presence or absence of cycloheximide. Two days of exposure to the analog was required for maximum stimulation. Increased proline transport contributed almost entirely to the increased incorporation of [¹⁴C]proline into noncollagen protein but for only 13% of the increased incorporation into collagen of dbcAMP-treated Ki-3T3 cells. Proline transport was further characterized using an assay system containing 0.1 mm cycloheximide, which did not affect transport over a 30-min period. The K_m for proline was decreased from 6.5 to 3.4 mm by dbcAMP treatment of Ki-3T3. Proline transport in Ki-3T3 proceeds almost entirely via the A system, and the effect of dbcAMP appears to be on this system specifically since glycine and glutamine transport, which are heterogeneous, were not affected but transport of N-methylaminoisobutyrate, a specific A system substrate, was increased by dbcAMP treatment. Although 0.5 mm butyrate increased proline transport in Ki-3T3 cells to a similar degree as dbcAMP, the effect of the latter appeared related to its action as a cAMP analog since N⁶-monobutyryl cAMP, having a stable butyryl group, and 8-bromo-cAMP also increased proline transport while dbcGMP did not. The rate of proline transport in normal BALB 3T3 cells was only 30–40% lower than that of Ki-3T3 cells at various growth stages, and dbcAMP and 8-bromo-cAMP treatment also increased proline transport in the normal cells. The results of these studies suggest that dbcAMP and other cAMP analogs induce the synthesis of an altered component of the A system for amino acid transport and that the effect of these compounds is unrelated to the effect of transformation on proline transport.