Dynein light intermediate chains maintain spindle bipolarity by functioning in centriole cohesion

Cytoplasmic dynein 1 (dynein) is a minus end–directed microtubule motor protein with many cellular functions, including during cell division. The role of the light intermediate chains (LICs; DYNC1LI1 and 2) within the complex is poorly understood. In this paper, we have used small interfering RNAs or morpholino oligonucleotides to deplete the LICs in human cell lines and Xenopus laevis early embryos to dissect the LICs’ role in cell division. We show that although dynein lacking LICs drives microtubule gliding at normal rates, the LICs are required for the formation and maintenance of a bipolar spindle. Multipolar spindles with poles that contain single centrioles were formed in cells lacking LICs, indicating that they are needed for maintaining centrosome integrity. The formation of multipolar spindles via centrosome splitting after LIC depletion could be rescued by inhibiting Eg5. This suggests a novel role for the dynein complex, counteracted by Eg5, in the maintenance of centriole cohesion during mitosis.     

Challenges and Opportunities: What Can We Learn from Patients Living with Chronic Musculoskeletal Conditions,Health Professionals and Carers about the Concept of Health Literacy Using Qualitative Methods of Inquiry?

The field of health literacy continues to evolve and concern public health researchers and yet remains a largely overlooked concept elsewhere in the healthcare system. We conducted focus group discussions in England UK, about the concept of health literacy with older patients with chronic musculoskeletal conditions (mean age  = 73.4 years), carers and health professionals. Our research posed methodological, intellectual and practical challenges. Gaps in conceptualisation and expectations were revealed, reiterating deficiencies in predominant models for understanding health literacy and methodological shortcomings of using focus groups in qualitative research for this topic. Building on this unique insight into what the concept of health literacy meant to participants, we present analysis of our findings on factors perceived to foster and inhibit health literacy and on the issue of responsibility in health literacy. Patients saw health literacy as a result of an inconsistent interactive process and the implications as wide ranging; healthcare professionals had more heterogeneous views. All focus group discussants agreed that health literacy most benefited from good inter-personal communication and partnership. By proposing a needs-based approach to health literacy we offer an alternative way of conceptualising health literacy to help improve the health of older people with chronic conditions.     

An electrophysiological and spectroscopic study of the properties and structure of biological calcium channels. Investigations of a model ion channel.

The N- and C-terminally protected peptide N-acetyl-Asp-Phe-Ala-Asn-Arg-Val-Leu-Leu-Ser-Leu-Phe-Thr-Ile-Glu-Met-Leu -Leu-Lys-Met-Leu-NH2, closely based on the sequence of the putative S2 membrane spanning helix of domain II of the dihydropyridine receptor calcium channel of the T-system of skeletal muscle, residues 465-486 (Tanabe et al. (1987) Nature 328, 313-318) has been synthesised. Conductance measurements in planar lipid bilayers show that the peptide is capable of inducing the transmembrane passage of calcium and barium ions, in preference to monovalent cations. No anion conductance is observed. 1H-NMR spectroscopy demonstrates that in an amphilic solvent, methanol, the peptide forms highly stable structures characterised by very slow exchange with solvent of peptide N-H protons. Double-quantum filtered phase-sensitive COSY shows that, on the basis of NH-CH alpha scalar coupling constants, most peptide torsion angles are appropriate to an overall alpha-helical conformation; the presence of some alpha-helix is also supported by CD measurements. Most side-chain connectivities have been identified in a DIPSI-TOCSY experiment. This evidence has been used to construct a low-resolution model of the ion-conducting channel of the muscle T-system dihydropyridine receptor from the sequences of the four homologous putative channel-lining stretches. It is characterised by an association of acidic residues at the putative extra-membranous face of the channel, followed by a predominantly hydrophobic band. The next prominent feature of the model is an ordered array of four acidic residues (glutamates 100, 478, 846 and 1164), followed by four lysines (104, 482, 850 and 1168) which may play a gating role.     

Humoral immune response to herpes simplex virus type 2 glycoproteins in patients receiving a glycoprotein subunit vaccine.

Serial serum specimens from 22 herpes simplex virus (HSV)-seronegative recipients of an HSV type 2 (HSV-2) glycoprotein subunit vaccine were analyzed by radioimmunoprecipitation and polyacrylamide gel electrophoresis for the development of antibodies to HSV-2 gB, gD, and g80, a complex of gC and gE. Volunteers received 50 (n = 12) or 100 micrograms (n = 10) of vaccine at days 0, 28, and 140; sera were drawn weekly for 8 weeks and again at days 140, 147, and 365. Among seronegative volunteers, antibody to gB was detected 2 weeks after the first dose, while antibodies to g80 and gD were detected after the second dose (day 35). Antibodies to nonglycosylated HSV-specific proteins were not detected. A dose-response effect between recipients of 50- and 100-micrograms doses was observed in the proportion of vaccine recipients seroconverting to g80 and in the proportion of recipients retaining antibodies to both gD and g80 over time. Diminishing complement-independent neutralizing antibody titers occurred after the second dose and were associated with loss or reduction of detectable antibody to gD. Volunteers who were seropositive for HSV-1-specific antibody (n = 11) were also enrolled in the trial and received 50-micrograms doses of vaccine. Vaccination resulted in conversion to HSV-2 complement-independent neutralizing antibody specificity or indeterminant specificity in 10 of 11 volunteers. These shifts were accompanied by changes in the radioimmunoprecipitation and polyacrylamide gel electrophoresis profile. These changes, which were apparent by 14 days after the first vaccine dose, included de novo appearance or increased levels of antibody to g80 and increased levels of antibody to gD and gB. These studies document the immunogenicity of solubilized glycoproteins gB, gD, gC, and, possibly, gE in humans.     

Peptide-induced modulation of target cell sensitivity to natural killing.

We have previously shown that the capacity of class I molecules to confer resistance to NK in transfected target cells maps to the Ag-binding site (ABS) of the HLA class I structure. Here we examine the effect of peptide (reagents specific for the ABS) pretreatment on the NK sensitivity of class I+ target cells. Synthetic peptides (10-17 amino acids in length) were used to pretreat C1R target cells expressing either no serologically detectable HLA-A, B class I molecules, or C1R transfectants expressing individual HLA-A or -B locus class I molecules. In each case in which the class I allele had previously been shown to directly bind a given peptide, peptide-pulsing of target cells resulted in increased sensitivity to NK-mediated conjugation and cytolysis. The NK susceptibility of C1R target cells expressing no HLA-A, B class I molecules or the nonprotective HLA-A2.1 or HLA-A2M70 mutant class I molecules was unaffected by pretreatment with HLA-A2-binding peptides. These results support the intimate involvement of the HLA class I ABS and potentially ABS-bound peptides in determining target cell sensitivity to NK. Furthermore, these findings form the basis of an effective screening procedure for discerning peptide class I allele-specific interactions.