Lipase-catalyzed synthesis of aromatic polyesters

The enzymatic synthesis of aromatic polyesters by direct polyesterification between a diacid and a diol is described. The effects of the type of substrate, type and quantities of lipase, temperature, vacuum, and reaction time on the synthesis of aromatic polyesters were studied in detail. Among three lipases investigated, only Novozym 435 worked well for aromatic polyester synthesis. Temperature and vacuum played an important role in obtaining a high molar mass of the aromatic polyesters. Furthermore, with isophthalic acid and 1,6-hexanediol as substrates, the mass average molar mass of the polyester obtained increased with an increase in the lipase quantity up to 0.375 g (11.7%, w/w of total reactor contents). The mass average molar mass of the polyester was as high as 50000 g mol⁻¹ in 168 h, with a polydispersity of PD ≈ 1.4. Received 27 January 1998/ Accepted in revised form 19 May 1998     

Dual actions of procainamide on batrachotoxin-activated sodium channels: open channel block and prevention of inactivation.

We have investigated the action of procainamide on batrachotoxin (BTX)-activated sodium channels from bovine heart and rat skeletal muscle. When applied to the intracellular side, procainamide induced rapid, open-channel block. We estimated rate constants using amplitude distribution analysis (Yellen, G. 1984. J. Gen. Physiol. 84:157). Membrane depolarization increased the blocking rate and slowed unblock. The rate constants were similar in both magnitude and voltage dependence for cardiac and skeletal muscle channels. Qualitatively, this block resembled the fast open-channel block by lidocaine (Zamponi, G. W., D. D. Doyle, and R. J. French. 1993. Biophys. J. 65:80), but procainamide was about sevenfold less potent. Molecular modeling suggests that the difference in potency between procainamide and lidocaine might arise from the relative orientation of their aromatic rings, or from differences in the structure of the aryl-amine link. For the cardiac channels, procainamide reduced the frequency of transitions to a long-lived closed state which shows features characteristic of inactivation (Zamponi, G. W., D. D. Doyle, and R. J. French. 1993. Biophys J. 65:91). Mean durations of kinetically identified closed states were not affected. The degree of fast block and of inhibition of the slow closures were correlated. Internally applied QX-314, a lidocaine derivative and also a fast blocker, produced a similar effect. Thus, drug binding to the fast blocking site appears to inhibit inactivation in BTX-activated cardiac channels.     

Studies of the proliferation and differentiation of immature myeloid cells in vitro: 4: Preculture proto-oncogene expression and the behaviour of myeloid leukemia cells in vitro

Studies were conducted to determine the relationship between the pretherapy characteristics of leukemia cells and their behaviour during culture in vitro. Leukemia cells which proliferated well in vitro also proliferated well in vivo. Cells which manifested myeloid or monocytic differentiation in vivo tended to manifest differentiation along these lines in vitro. Cells which manifested high levels of expression of c-fms, c-fes, or triose phosphate isomerase prior to culture were likely to differentiate in vitro, with high levels of c-fes expression being related to myeloid maturation. These observations suggest that differentiation at the molecular level prior to culture is a requisite for leukemia cell differentiation in vitro. The same may be true for differentiation in vivo under the influence of exogenously administered agents such as cytotoxic chemotherapy or recombinant growth factors.