A novel Ca2+ binding protein associated with caldesmon in Ca2+-regulated smooth muscle thin filaments: evidence for a structurally altered form of calmodulin.

Smooth muscle thin filaments are made up of actin, tropomyosin, the inhibitory protein caldesmon and a Ca2+-binding protein. Thin filament activation of myosin MgATPase is Ca2+-regulated but thin filaments assembled from smooth muscle actin, tropomyosin and caldesmon plus brain or aorta calmodulin are not Ca2+-regulated at 25 degrees C/50 mM KCl. We isolated the Ca2+-binding protein (CaBP) from smooth muscle thin filaments by DEAE fast-flow chromatography in 6 M urea and phenyl sepharose chromatography using sheep aorta as our starting material. CaBP combines with smooth muscle actin, tropomyosin and caldesmon to reconstitute a normally regulated thin filament at 25 degrees C/50 mM KCl. It reverses caldesmon inhibition at pCa5 under conditions where CaM is largely inactive, it binds to caldesmon when complexed with actin and tropomyosin rather than displacing it and it binds to caldesmon independently of [Ca2+]. Amino acid sequencing, and electrospray mass spectrometry show the CaBP is identical to CaM. Structural probes indicate it is different: calmodulin increases caldesmon tryptophan fluorescence but CaBP does not. The distribution of charged species in electrospray mass spectrometry and nozzle skimmer fragmentation patterns are different indicating a less stable N-terminal lobe for CaBP. Brief heating abolishes these special properties of the CaBP. Mass spectrometry in aqueous buffer showed no evidence for the presence of any covalent or non-covalently bound adduct. The only remaining conclusion is that CaBP is calmodulin locked in a metastable altered state.

Structural interactions between actin, tropomyosin, caldesmon and calcium binding protein and the regulation of smooth muscle thin filaments.

The basic structure and functional properties of smooth muscle thin filaments were established about 10 years ago. Since then we and others have been working on the details of how tropomyosin, caldesmon and the Ca(2+)-binding protein regulate actin interaction with myosin. Our work has tended to emphasize the similarities between caldesmon and troponin function whilst others have been more concerned with the differences. The need to resolve the resulting differences has stimulated us to find new and more direct ways of investigating the mechanism of thin filament regulation. In recent years an apparent divergence has opened up between functional measurements, which indicate an allosteric-cooperative regulatory mechanism in which caldesmon and Ca(2+)-binding protein control actin-tropomyosin state in the same way as troponin, and structural measurements which show thin filament structures unlike striated muscle thin filaments. The challenge is to interpret function in terms of structure. We have combined functional studies with expression and mutagenesis of caldesmon and with structural methods including X-ray crystalography of tropomyosin-caldesmon crystals, electron microscopy and helical reconstruction of actin-tropomyosin-caldesmon complexes and high resolution nuclear magnetic resonance spectroscopy of the C-terminus of caldesmon in interaction with actin and calmodulin. We have used this information to propose a structural mechanism for caldesmon regulation of the smooth muscle thin filament.

Alpha interferon gene deletions in post-transplant lymphoma.

Post-transplant lymphoproliferative disorder (PTLD) is a well-recognized complication of organ transplant and has been associated with high mortality using conventional chemotherapy. We have investigated 11 cases of PTLD for alterations to the interferon alpha (IFNA) and p16 genes on chromosome 9p using archival material. 4/9 (44%) cases had deletions of the IFNA genes, in contrast to 1/59 (1.7%) cases of intermediate/high-grade de novo NHL drawn from the same geographical region. PTLD may therefore represent a distinct NHL subgroup exhibiting distinct gene pathology.

Recommendations for TB respiratory protection.

After a long decline, tuberculosis is making a comeback. Because of this risk, several government agencies have developed in-depth recommendations designed to minimize the transmission of tuberculosis. 1990 CDC guidelines have formed the basis for most current recommendations, but those guidelines are undergoing revision. Great controversy surrounds the recommendations, particularly in the area of respiratory protection. According to NIOSH, the inability to adequately fit-test and fit-check disposable respirators is a major flaw that could compromise their ability to protect the wearer. OSHA has been enforcing guidelines for occupational exposure to TB under several existing standards, especially its respiratory protection standard (29 CFR 1910.134), and is currently enforcing the use of dust/mist/fume respirators. The agency can be expected to issue a National Compliance Directive upgrading required respiratory protection to HEPA filters. The author recommends implementing recommendations for appropriate administrative and engineering controls and using low-maintenance, reusable, half-face elastomeric respirators with disposable filter cartridges for employees in identified high-risk, exposure situations.