| 1. |
- de la Vega, Maria Pagnon, et al.
(author)
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The Uppsala APP deletion causes early onset autosomal dominant Alzheimer's disease by altering APP processing and increasing amyloid beta fibril formation
- 2021
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In: Science Translational Medicine. - : American Association for the Advancement of Science (AAAS). - 1946-6234 .- 1946-6242. ; 13:606
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Journal article (peer-reviewed)abstract
- Point mutations in the amyloid precursor protein gene (APP) cause familial Alzheimer's disease (AD) by increasing generation or altering conformation of amyloid beta (A beta). Here, we describe the Uppsala APP mutation (Delta 690-695), the first reported deletion causing autosomal dominant AD. Affected individuals have an age at symptom onset in their early forties and suffer from a rapidly progressing disease course. Symptoms and biomarkers are typical of AD, with the exception of normal cerebrospinal fluid (CSF) A beta 42 and only slightly pathological amyloid-positron emission tomography signals. Mass spectrometry and Western blot analyses of patient CSF and media from experimental cell cultures indicate that the Uppsala APP mutation alters APP processing by increasing beta-secretase cleavage and affecting alpha-secretase cleavage. Furthermore, in vitro aggregation studies and analyses of patient brain tissue samples indicate that the longer form of mutated A beta, A beta Upp1-42(Delta 19-24), accelerates the formation of fibrils with unique polymorphs and their deposition into amyloid plaques in the affected brain.
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| 2. |
- Larsson-Nyrén, G, et al.
(author)
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Anion-selective amplification of glucose-induced insulin secretion.
- 2002
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In: Acta Diabetologica. - 0940-5429 .- 1432-5233. ; 39:1, s. 41-7
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Journal article (peer-reviewed)abstract
- The functional roles of anions on glucose-induced insulin secretion are poorly understood. We investigated the effects of the monovalent anions thiocyanate, iodide, bromide, nitrate and chloride on the dynamics of insulin secretion in isolated pancreatic islets from non-inbred Umeå ob/ob mice. All anion species (12 mM), except Cl-, significantly amplified glucose-induced (20 mM) first- and second-phase insulin secretion (selectivity sequence: SCN->NO3->I->Br->Cl-). Simultaneously, the anions reduced the lag-time prior to the initiation of the secretion (SCN-=I-=NO3->Br->Cl-). The results indicate that pancreatic beta-cell activation can be initiated and amplified by an anion-selective mechanism showing increasing degrees of activation in the order of the anion series of Hofmeister. On the basis of the strikingly similar anion selectivity of amplified secretion and shortened lag-phase, we suggest that both types of anion effects are caused by action at a single site on the beta-cell.
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| 3. |
- Ravier, M A, et al.
(author)
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Disorganization of cytoplasmic Ca(2+) oscillations and pulsatile insulin secretion in islets from ob/ obmice
- 2002
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In: Diabetologia. - : Springer-Verlag New York. - 0012-186X .- 1432-0428. ; 45:8, s. 1154-1163
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Journal article (peer-reviewed)abstract
- AIMS/HYPOTHESIS: In normal mouse islets, glucose induces synchronous cytoplasmic [Ca(2+)](i) oscillations in beta cells and pulses of insulin secretion. We investigated whether this fine regulation of islet function is preserved in hyperglycaemic and hyperinsulinaemic ob/ obmice.METHODS: Intact islets from ob/ ob mice and their lean littermates were used after overnight culture for measurement of [Ca(2+)](i) and insulin secretion.RESULTS: We observed three types of [Ca(2+)](i) responses during stimulation by 9 to 12 mmol/l of glucose: sustained increase, rapid oscillations and slow (or mixed) oscillations. They occurred in 8, 18 and 74% of lean islets and 9, 0 and 91% of ob/ ob islets, respectively. Subtle desynchronisation of [Ca(2+)](i) oscillations between regions occurred in 11% of lean islets. In ob/ ob islets, desynchronisation was frequent (66-82% depending on conditions) and prominent: oscillations were out of phase in different regions because of distinct periods and shapes. Only small ob/ ob islets were well synchronised, but sizes of synchronised lean and desynchronised ob/ ob islets were markedly overlapped. The occurrence of desynchronisation in clusters of 5 to 50 islet cells from ob/ obmice and not from lean mice further indicates that islet hypertrophy is not the only causal factor. In both types of islets, synchronous [Ca(2+)](i) oscillations were accompanied by oscillations of insulin secretion. In poorly synchronised ob/ ob islets, secretion was irregular but followed the pattern of the global [Ca(2+)](i) changes.CONCLUSIONS/INTERPRETATION: The regularity of glucose-induced [Ca(2+)](i) oscillations is disrupted in islets from ob/ ob mice and this desynchronisation perturbs the pulsatility of insulin secretion. A similar mechanism could contribute to the irregularity of insulin oscillations in Type II (non-insulin-dependent) diabetes mellitus.
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| 4. |
- Sehlin, Dag, 1976-, et al.
(author)
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Brain delivery of biologics using a cross-species reactive transferrin receptor 1 VNAR shuttle.
- 2020
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In: The FASEB Journal. - 0892-6638 .- 1530-6860. ; 34:10, s. 13272-13283
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Journal article (peer-reviewed)abstract
- Transferrin receptor 1 (TfR1) mediated transcytosis is an attractive strategy to enhance brain uptake of protein drugs, but translation remains a challenge. Here, a single domain shark antibody VNAR fragment (TXB2) with similar affinity to murine and human TfR1 was used to shuttle protein cargo into the brain. TXB2 was fused to a human IgG1 Fc domain (hFc) or to the amyloid-β (Aβ) antibody bapineuzumab (Bapi). TXB2-hFc displayed 20-fold higher brain concentrations compared with a control VNAR-hFc at 18 hours post-injection in wt mice. At the same time point, brain concentrations of Bapi-TXB2 was threefold higher than Bapi. In transgenic mice overexpressing human Aβ, the brain-to-blood concentration ratio increased with time due to interaction with intracerebral Aβ deposits. The relatively stable threefold difference between Bapi-TXB2 and Bapi was observed for up to 6 days after injection. PET imaging and ex vivo autoradiography revealed more parenchymal distribution of Bapi-TXB2 compared with Bapi. In conclusion, the TXB2 VNAR shuttle markedly increased brain uptake of protein cargo and increased brain concentrations of the Aβ binding antibody Bapi.
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