Stuart W. Smith

Factors affecting the chain length of fatty acids synthesised by lactating-rabbit mammary glands.

Abstract 1. 1. Gas-liquid radiochromatography has been used to determine the chain lengths of fatty acids synthesised by extracts of lactating-rabbit mammary glands. 2. 2. The particle-free supernatant fraction synthesised mainly short-chain fatty acids. Addition of “microsomal” protein (and to a lesser extent mitochondrial protein) increased the overall rate of synthesis, particularly that of long-chain fatty acids. 3. 3. The effects of time of incubation, ATP, CoA, bivalent cations, reduced pyridine nucleotides, HCO3- and avidin on the chain lengths of the fatty acids synthesised has been investigated. Results indicate that butyrate can be synthesised by two separate mechanisms. 4. 4. Synthesis was stimulated by a number of dicarboxylic acids, malonate and succinate being the most effective. Citrate caused a greater stimulation, which was competitive with that of malonate. Stimulation by citrate and malonate was greatest for synthesis of longer chain-length fatty acids (C14:0 and C16:0) using the microsomal plus particle-free supernatant fraction, but greatest for C8:0, C10:0 and C10:0 using the particle-free supernatant fraction. 5. 5. Rates of incorporation of acetate, citrate and malonate into individual fatty acids have been compared. 6. 6. The concentration of malonyl-CoA in incubation systems has been found to directly influence the chain lengths of fatty acids synthesised.

ANCA-associated vasculitis is linked to carriage of the Z allele of α1 antitrypsin and its polymers

Background Small studies have linked α1 antitrypsin (α1AT) deficiency to patients with antineutrophil cytoplasmic antibodies (ANCA)-associated vasculitis (AAV). Objective To test the validity and the mechanism of this association between α1AT and AAV. Methods The distribution of α1AT deficiency alleles Z and S was compared between 856 White Europeans with AAV and 1505 geographic and ethnically matched healthy controls. Genotyping was performed by allelic discrimination assay. Results were compared between cases and controls using χ2 tests. The serum and renal biopsies for α1AT polymers were compared using the polymer-specific 2C1 antibody. The role of α1AT polymers in promoting inflammation was investigated by examining their ability to prime neutrophils for ANCA activation as assessed by CD62L shedding, superoxide production and myeloperoxidase degranulation. Results The Z but not the S allele was over-represented in the patients compared with controls (HR=2.25, 95% CI 1.60 to 3.19). Higher concentrations of polymers of α1AT were detected in serum from patients carrying the Z allele than in those not carrying the Z allele (median (IQR) 1.40 (0.91–3.32) mg/dl vs 0.17 (0.06–0.28) mg/dl, p<0.001); polymers of α1AT were also seen in the renal biopsy of a patient with vasculitic glomerulonephritis. Polymers of α1AT primed neutrophils with CD62L shedding and increased superoxide production following ANCA activation. Carriage of the Z allele was not associated with disease severity, survival or relapse. Conclusions The Z but not the S deficiency allele is associated with AAV. Polymers of α1AT are present in the serum and glomeruli of at least some patients with the Z allele, which may promote inflammation through priming of neutrophils.

High expression of nicotinamide N-methyltransferase in patients with idiopathic Parkinson's disease

We have previously speculated that elevated levels of nicotinamide N-methyltransferase (NNMT), the primary catabolic enzyme of nicotinamide, may result in reduced Complex I activity in idiopathic Parkinsons disease (IPD) in two ways: (1) reduction in the levels of nicotinamide available for nicotinamide adenine dinucleotide synthesis; and (2) increased methylation of compounds such as tetrahydroisoquinolines and beta-carbolines, which are potent Complex I inhibitors. Expression of NNMT was assessed in 91 cerebella (53 IPD, 38 control) using immunohistochemistry coupled with quantitative digital image analysis. Control cerebella showed a distribution of expression ascribed to low, intermediate and high expressors with ratios of 1:2:1 categories. Expression in the parkinsonian cerebella was significantly higher than in the control group (control group median expression 17%, mean expression 16.6%, range 0-51%, standard deviation 11.4%, standard error 1.9%; IPD group median expression 46%, mean expression 53.7%, range 21-100%, standard deviation 23.4%, standard error 3.2%; P<0.0001; unpaired t-test with Welch correction (parametric) and Mann-Whitney U-test (non-parametric)). These results confirm that NNMT expression is elevated in IPD, which may ultimately lead to neurodegeneration via a reduction in Complex I activity.

Fatty acid biosynthesis: III. Intracellular site of enzymes in lactating-rabbit mammary gland

Abstract 1. 1. Subcellular fractions of lactating-rabbit mammary glands have been characterised by the use of “marker” enzymes and these fractions were then examined for the presence of enzymes involved in fatty acid synthesis. 2. 2. Acetate: CoA ligase (EC 6.2.1.1) was found to be confined to the particle-free supernatant fraction, whereas acetyl-CoA carboxylase (EC 6.4.1.2) was distributed between the microsomal and the particle-free supernatant fractions. Fatty acid synthetase was almost entirely situated in the particle-free supernatant fraction. Much lower levels of acetyl-CoA carboxylase and no fatty acid synthetase were observed in the mitochondrial fraction. The implications of these findings are discussed. 3. 3. Acetyl-CoA carboxylase is the rate-limiting step in fatty acid synthesis in this tissue under the conditions used.

Biology of the renal pericyte

Pericytes are cells of mesenchymal origin that are intimately involved in the development and stabilization of vascular networks. Novel studies of their role in inflammation have identified that pericytes are not only major contributors to the activated matrix depositing myofibroblast populations seen in progressive renal fibrosis but perhaps even more importantly, the detachment of renal pericytes from the vasculature contributes to the microvasculature rarefaction and subsequent hypoxia associated with chronic kidney disease. In this review, our current understanding of the functioning of renal pericytes will be considered and set in the context of the wider literature that is currently available on this neglected population of cells.

Long- term outcome of paediatric patients with ANCA vasculitis.

BackgroundPrimary systemic vasculitis presenting in childhood is an uncommon but serious condition. As these patients transfer to adult clinics for continuing care, defining long term outcomes with emphasis on disease and treatment- related morbidity and mortality is important. The aim of this study is to describe the long- term clinical course of paediatric patients with ANCA vasculitis.MethodsThe adult patients in our vasculitis clinics who had presented in childhood, with a follow up time of greater than 10 years were included. We also reviewed the literature for articles describing the clinical outcome of paediatric patients with ANCA vasculitis.ResultsWe describe the clinical course of 8 adults who presented in childhood with ANCA vasculitis. 7 patients had Wegeners granulomatosis and 1 had microscopic polyangiitis. The median age at presentation was 11.5 years, and follow up time ranged form 11 to 30 years. Induction therapy for all patients was steroids and/or cyclophosphamide. Maintenance therapy was with azathioprine or mycophenolate mofetil. Biological agents were used in 3 patients for relapsed disease in adulthood only.Seven patients achieved complete remission. All patients experienced disease relapse, with a median of 4 episodes. Kidney function was generally well preserved, with median eGFR 76 ml/min. Only one patient developed end-stage renal failure and one patient died after 25 years of disease. Treatment-related morbidity rates were high; 7 suffered from infections, 4 were infertile, 2 had skeletal complications, and 1 developed malignancy.ConclusionClose long- term follow up of paediatric patients with ANCA vasculitis is imperative, as this patient cohort is likely to live long enough to develop significant treatment and disease- related morbidities. Prospective cohort studies with novel therapies including paediatric patients are crucial to help us determine the best approach to managing this complex group of patients. In addition, although not yet observed in our series, late cardiovascular morbidity remains a major longer-term potential concern for adult survivors of paediatric vasculitis.

Protective effects of intracerebral adenoviral-mediated GDNF gene transfer in a rat model of Parkinson's disease.

This study focuses on the potential protective effects of intracerebral adeno-viral mediated glial cell line derived neurotrophic factor (GDNF) gene transfer in a rat model of Parkinsons disease (PD). Thirty-five SD rats were divided into three groups to receive perinigral injections of recombinant adenovirus encoding GDNF (Ad-GDNF), LacZ (Ad-LacZ) or PBS, respectively. One week later, an intrastriatal injection of 6-hydroxydopamine (6-OHDA) was administered to induce the progressive degeneration of dopaminergic neurons. Immunohistochemistry showed that GDNF treatment prior to neuronal damage could promote survival and morphological recovery of tyrosine hydroxylase (TH)-positive neurons in the midbrain. Approximately 70% of nigral TH-positive cells survived in the Ad-GDNF group, compared to approximately 30% for the Ad-LacZ or PBS control group. Histochemical analysis of monoamine levels in the striatum demonstrated that the dopamine content was higher for the Ad-GDNF group than the control groups. Similarly, Ad-GDNF treated animals showed improved apomorphine-induced rotational behavior. The exogenous GDNF gene was efficiently expressed in the brain as detected by ELISA. This work demonstrates that intracerebral adeno-viral mediated GDNF gene transfer can protect dopaminergic neurons in vivo from 6-OHDA-induced injuries. The approach used in this study could potentially be used therapeutically in patients with PD and further work is required to explore this idea in depth.

CD248+ stromal cells are associated with progressive chronic kidney disease.

Stromal fibroblasts are the primary cells of the kidney that produce fibrotic matrix. CD248 is a stromal marker expressed on fibroblasts and pericytes within the human kidney. Here, we tested whether CD248 expression in the kidney colocalizes with fibrosis and if it is associated with known determinants of chronic kidney disease (CKD). CD248 expression was located and quantified in situ by immunohistochemistry in kidney biopsies from 93 patients with IgA nephropathy and compared with 22 archived biopsies encompassing normal kidney tissue as control. In normal kidney tissue, CD248 was expressed by resident pericytes, stromal fibroblasts, and was upregulated in human CKD. The expression was linked to known determinants of renal progression. This relationship was maintained in a multivariate analysis with CD248 expression linked to renal survival. CD248 was expressed by a population of α-smooth muscle actin (SMA)(+) myofibroblasts and α-SMA(-) stromal cells but not expressed on CD45(+) leukocytes. Thus, CD248 defines a subset of stromal cells, including but not limited to some myofibroblasts, linked to albuminuria and tubulointerstitial damage during tissue remodeling in CKD.

The mesenchymal stem cell marker CD248 (endosialin) is a negative regulator of bone formation in mice

OBJECTIVE CD248 (tumor endothelial marker 1/endosialin) is found on stromal cells and is highly expressed during malignancy and inflammation. Studies have shown a reduction in inflammatory arthritis in CD248-knockout (CD248(-/-) ) mice. The aim of the present study was to investigate the functional effect of genetic deletion of CD248 on bone mass. METHODS Western blotting, polymerase chain reaction, and immunofluorescence were used to investigate the expression of CD248 in humans and mice. Micro-computed tomography and the 3-point bending test were used to measure bone parameters and mechanical properties of the tibiae of 10-week-old wild-type (WT) or CD248(-/-) mice. Human and mouse primary osteoblasts were cultured in medium containing 10 mM β-glycerophosphate and 50 μg/ml ascorbic acid to induce mineralization, and then treated with platelet-derived growth factor BB (PDGF-BB). The mineral apposition rate in vivo was calculated by identifying newly formed bone via calcein labeling. RESULTS Expression of CD248 was seen in human and mouse osteoblasts, but not osteoclasts. CD248(-/-) mouse tibiae had higher bone mass and superior mechanical properties (increased load required to cause fracture) compared to WT mice. Primary osteoblasts from CD248(-/-) mice induced increased mineralization in vitro and produced increased bone over 7 days in vivo. There was no decrease in bone mineralization and no increase in proliferation of osteoblasts in response to stimulation with PDGF-BB, which could be attributed to a defect in PDGF signal transduction in the CD248(-/-) mice. CONCLUSION There is an unmet clinical need to address rheumatoid arthritis-associated bone loss. Genetic deletion of CD248 in mice results in high bone mass due to increased osteoblast-mediated bone formation, suggesting that targeting CD248 in rheumatoid arthritis may have the effect of increasing bone mass in addition to the previously reported effect of reducing inflammation.

Behavioral correction of Parkinsonian rats following the transplantation of immortalized fibroblasts genetically modified with TH and GCH genes.

Eukaryotic plasmid vectors encoding the tyrosine hydroxylase (TH) gene and GTP cyclohydrolase-1 (GCH) gene were constructed and introduced into immortalized fibroblasts obtained from SV40 large antigen (LT(AG)) transformed rat primary fibroblasts. TH and GCH positive clones were selected and identified by immunohistochemistry and RT-PCR, respectively. Hemi-parkinsonian rats created using 6-hydroxydopamine (6-OHDA) were used to assess the therapeutic effect created by the co-implantation of immortalized fibroblasts genetically modified by TH or GCH genes. Animal behavior was significantly improved two weeks following implantation and behavioral correction was maintained for over 14 weeks. Behavioral improvement was paralleled by exogenous TH gene expression, identified by TH immunohistochemistry and RT-PCR analyses. The transplanted cells survived for at least 38 weeks as demonstrated by fibronectin immunohistochemical staining. Tumor formation or host reaction was not seen, although TH expression was negative for 20 weeks after the implantation. This work demonstrates that the co-transplantation of immortalized fibroblasts genetically modified by TH and GCH genes may be developed as a valuable approach to the treatment of Parkinsons disease.