The majority of the alpha-tubulin in cultured neurons is acetylated (Black and Keyser, 1987). The present studies examine the relationships of the acetylation and deacetylation reactions to tubulin assembly and disassembly in intact neurons. Extraction assays which separate assembled and unassembled tubulin pools reveal that greater than or equal to 99% of the total acetylated, as well as newly acetylated, tubulin is cytoskeletal associated. Treatment of neurons with depolymerizing drugs results in a progressive decrease in the levels of total tubulin in polymer and a corresponding increase in the levels of soluble tubulin. These drugs also cause a progressive decrease in the levels of acetylated alpha-tubulin in polymer that closely parallels in rate and extent that of total alpha-tubulin. However, there is no corresponding increase in soluble acetylated tubulin. Because the total levels of alpha-tubulin remain unchanged during drug treatment, the decrease in levels of acetylated alpha-tubulin during depolymerization must reflect its rapid conversion to nonacetylated alpha-tubulin. These findings suggest alpha-tubulin is acetylated in the polymeric form and that deacetylation is closely coupled to depolymerization. The close coupling between alpha-tubulin deacetylation and depolymerization provided a means of estimating the rate at which subunits cycle off microtubules in intact neurons. Acetate turnover on tubulin in intact neurons was determined both by pulse-chase protocols with 3H-acetate and by measuring the loss of acetylated subunits (using quantitative immunoblotting) under conditions of net microtubule depolymerization induced by colchicine. Both methods yielded similar results. Acetate turnover occurred biphasically; 30-50% of the acetate on tubulin turns over with a t1/2 of 1.5-2 hr, and the remaining half or more turns over with a t1/2 of 5-10 hr. We suggest that these kinetically distinguishable pools of acetylated alpha-tubulin reflect distinct pools of acetylated microtubules that differ in their average rates of subunit turnover.
In both humans and experimental animals, dietary induced magnesium deficiency is correlated with insulin resistance. The purpose of this study was to determine whether dietary magnesium intake is associated with insulin sensitivity or blood pressure in a sample of nondiabetic, young adult black Americans. We also examined dietary calcium, potassium, and sodium intake. The study was conducted on a sample (n = 179) of young adults aged 30 +/- 3.4 years who had been followed longitudinally. Nutrient intake was assessed by obtaining a 24-h recall interview of dietary intake. Intake data were entered in a nutrient analysis program (Nutritionist III), which quantitated micronutrients, macronutrients, and minerals. We classified the sample into insulin-sensitive (IS) and insulin-resistant (IR) groups, according to insulin-stimulated glucose use (M) measured during insulin clamp. M correlated positively with magnesium intake in mg/kg of fat-free mass (r = 0.15, P < .05 overall; in men, r = 0.25, P < .02). There was a significant negative correlation of total dietary magnesium intake with the sum of insulin levels measured during an oral glucose tolerance test (OGTT) (r = -0.13, P < .05). When corrected for body fat, in men there was also a significant correlation of dietary magnesium intake, measured in mg/kg of fat-free mass, with the sum of insulin concentrations on the OGTT (r = -0.22, P < .05). When cases were categorically classified as IS versus IR, magnesium intake in mg/kg of fat-free mass was lower in IR (2.97 +/- 1.4) than in IS (3.68 +/- 2.2; P = .022). These results suggest a possible role for dietary magnesium in insulin resistance.
Peer review is a widely accepted instrument for raising the quality of science. Peer review limits the enormous unstructured influx of information and the sheer amount of dubious data, which in its absence would plunge science into chaos. In particular, peer review offers the benefit of eliminating papers that suffer from poor craftsmanship or methodological shortcomings, especially in the experimental sciences. However, we believe that peer review is not always appropriate for the evaluation of controversial hypothetical science. We argue that the process of peer review can be prone to bias towards ideas that affirm the prior convictions of reviewers and against innovation and radical new ideas. Innovative hypotheses are thus highly vulnerable to being "filtered out" or made to accord with conventional wisdom by the peer review process. Consequently, having introduced peer review, the Elsevier journal Medical Hypotheses may be unable to continue its tradition as a radical journal allowing discussion of improbable or unconventional ideas. Hence we conclude by asking the publisher to consider re-introducing the system of editorial review to Medical Hypotheses.
Previous studies in our laboratory have demonstrated that cell-free systems translating the Mahoney strain of poliovirus type I RNA utilize two unique initiation sites. In this study, defective-interfering particles of poliovirus, which contain deletions in the region encoding the capsid proteins, are shown to initiate translation of proteins in vitro at these same two sites. Both the standard virus and the defective-interfering virus RNA direct the synthesis of two polypeptides labeled with n-formyl-methionine (fmet) at their amino termini. The size of the smaller fmet polypeptide synthesized in vitro by the defective virus appears identical in size to that of the standard virus. However, the larger-molecularweight fmet polypeptide is reduced in size from 115,000 to 69,000 daltons. This
To reduce the toxicity of traditional conditioning regimens for allogeneic stem cell transplantation (allo-SCT), we used single-agent chemotherapy conditioning with either busulfan (total cumulative dose, 16 mg/kg) or melphalan (200 to 240 mg/m 2 ), followed by the anti-T cell-specific monoclonal antibody T10B9 (MEDI-500) daily for 3 days. T cell-replete SCT was performed from HLA-identical sibling donors. Acute graft-versus-host disease (aGVHD) prophylaxis consisted of 7 additional days of T10B9 and delayed onset of cyclosporine (ie, on day +4 or +5). Twenty-six high-risk hematologic malignancy patients were entered onto this study. All 24 patients who survived longer than 8 days engrafted, although 1 patient experienced late graft failure. Deaths occurred in 21 of 26 patients because of infection (n = 7), progression/recurrence of primary disease (n = 6), aGVHD (n = 4), regimen-related toxicity (n = 1), and other causes (n = 3). Five of these patients are enjoying disease-free survival with a median survival of 1193 days after allo-SCT. The conditioning regimen induced modulation of surface expression of CD3 (but not CD4 or CD8) and was associated with decreasing tumor necrosis factor-alpha (but not interleukin-6) serum levels. In conclusion, single-agent chemotherapy conditioning with T10B9 produced durable engraftment and long-term survival in some patients who would not have qualified for a traditional allo-SCT.
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