Effects of vitamin E supplementation on bone metabolism in nicotine-treated rats.

INTRODUCTION: Nicotine has been shown to exert negative effects on bone. This study determined whether vitamin E supplementation is able to repair the nicotine-induced adverse effects in bone. METHODS: 24 male rats were divided into three groups. The fi rst group was the baseline control and killed untreated at the beginning of the study. Groups 2 and 3 received nicotine at 7 mg per kg for three months but during the second and third months, group 2 was supplemented with alpha-tocopherol (N+ATF) while group 3 was given palm tocotrienol mixture (N+TT). Serum interleukin-1 (IL-1), serum interleukin-6 (IL-6), serum osteocalcin, urine deoxypyridinoline (DPD) and bone calcium content were measured. RESULTS: Palm tocotrienol mixture was able to prevent the increment of IL-1 and IL- 6 due to nicotine treatment. No changes were seen in the osteocalcin levels, but the N+ATF group had lower urine DPD levels after treatment. However, bone-remodelling index revealed no significant changes. No significant differences were seen in the femoral bone calcium content results, although the fourth lumbar bone calcium content was reduced in both groups with 66.5 percent reduction in the N+ATF group and 59.6 percent reduction in the N+TT group. CONCLUSION: Palm tocotrienol mixture was better than alpha-tocopherol in reversing the effects of nicotine on IL-1 and IL-6. Both forms of vitamin E were not able to restore the nicotine-induced bone calcium loss, but the N+ATF group suffered a greater loss. Tocotrienol seemed to be superior to alpha-tocopherol in combating against the adverse effect of nicotine.

A multicenter in vivo proton-MRS study of HIV-associated dementia and its relationship to age.

OBJECTIVE: Differences in diagnostic criteria and methods have led to mixed results regarding the metabolite pattern of HIV-associated brain injury in relation to neurocognitive impairment. Therefore, a multicenter MRS consortium was formed to evaluate the neurometabolites in HIV patients with or without cognitive impairment. METHODS: Proton magnetic resonance spectroscopy (MRS) at short-echo time (30 ms) was assessed in the frontal white matter, basal ganglia, and parietal cortex of 100 HIV patients [61 with AIDS dementia complex (ADC) and 39 neuroasymptomatic (NAS)] and 37 seronegative (SN) controls. RESULTS: Compared to SN, NAS had higher glial marker myoinositol-to-creatine ratio (MI/Cr) in the white matter (multivariate analyses, adjusted P=0.001), while ADC showed further increased MI/Cr in the white matter and basal ganglia (both P<0.001), and increased choline compounds (Cho)/Cr in white matter (P=0.04) and basal ganglia (P<0.001). Compared to NAS, ADC showed a reduction in the neuronal marker N-acetyl compound (NA)/Cr in the frontal white matter (P=0.007). CSF, but not plasma, viral load correlated with MI/Cr and Cho/Cr in white matter and NAA/Cr in parietal cortex. HIV infection and aging had additive effects on Cho/Cr and MI/Cr in the basal ganglia and white matter. CONCLUSIONS: The results suggest that glial activation occurs during the NAS stages of HIV infection, whereas further inflammatory activity in the basal ganglia and neuronal injury in the white matter is associated with the development of cognitive impairment. Aging may further exacerbate brain metabolites associated with inflammation in HIV patient and thereby increase the risk for cognitive impairment.

The human Nramp2 gene: characterization of the gene structure, alternative splicing, promoter region and polymorphisms.

Nramp2 is a gene encoding a transmembrane protein that is important in metal transport, in particular iron. Mutations in nramp2 have been shown to be associated with microcytic anemia in mk/mk mice and defective iron transport in Belgrade rats. Nramp2 contains a classical iron responsive element in the 3' untranslated region that confers iron dependent mRNA stabilization. In this report, we describe a splice variant form of human nramp2 that has the carboxyl terminal 18 amino acids substituted with 25 novel amino acids and has a new 3' untranslated region lacking a classical iron-responsive element. This splice form of nramp2, nramp2 non-IRE, was found to be derived from splicing of an additional exon into the terminal coding exon. The nramp2 gene is comprised of 17 exons and spans more than 36 kb. It contains an additional 5' exon and intron (exon and intron 1) and an additional 3' exon (exon 17) and intron (intron 16) as compared to nramp1, a homologous gene. The additional exons and introns account for much of the difference in length between nramp2 (> 36 kb) and nramp1 (12 kb). The exon-intron borders of nramp2 exons 3-15 are homologous to nramp1 exons 2-14. The nramp2 5' regulatory region contains two CCAAT boxes but lacks a TATA box. The 5' regulatory region of nramp2 also contains five potential metal response elements (MRE's) that are similar to the MRE's found in the metallothionein-IIA gene, three potential SP1 binding sites and a single gamma-interferon regulatory element. Five single nucleotide mutations or polymorphisms were identified within the nramp2 gene. One of these, 1303C-->A, occurs in the coding region of nramp2 and results in an amino acid change from leucine to isolecine. A polymorphism, 1254T/C, also occurs in the coding region of nramp2 but does not cause an amino acid change. The other 3 polymorphisms are within introns (IVS2 + 11A/G, IVS4 + 44C/A, and IVS6 + 538G/Gdel). In addition, a polymorphic microsatellite TATATCTATATATC (TA)6-7 (CA)10-11 CCCCCTATA (TATC)3 (TCTG)5 TCCG (TCTA)6 was identified in intron 3. Analysis of cDNA derived by direct amplification of reversed transcribed RNA or cDNA clones isolated from a library provide evidence of skipping of exons 10 and 12 of nramp2. Deletion of either of these exons would result in a sequence that remains in frame yet would generate a protein that would lack transmembrane spanning region 7 or 8 respectively. The deletion of a single transmembrane domain would have severe topological consequences. The coding region of the nramp2 gene of hemochromatosis patients with or without mutations in the hemochromatosis gene, HFE, were examined and found to be normal. One hemochromatosis patient, with a normal HFE genotype, was heterozygous for the 1303C-->A mutation. Furthermore, in an examination of hemochromatosis patients with mutant HFE and normal HFE genes, we did not observe a linkage disequilibrium of either group with a particular nramp2 haplotype. These data suggest that mutations in nramp2 are not commonly associated with hemochromatosis.