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  • 1. Eter, Wael A.
    et al.
    Parween, Saba
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Joosten, Lieke
    Frielink, Cathelijne
    Eriksson, Maria
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Brom, Maarten
    Ahlgren, Ulf
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Gotthardt, Martin
    SPECT-OPT multimodal imaging enables accurate evaluation of radiotracers for beta-cell mass assessments2016Inngår i: Scientific Reports, E-ISSN 2045-2322, Vol. 6, artikkel-id 24576Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Single Photon Emission Computed Tomography (SPECT) has become a promising experimental approach to monitor changes in beta-cell mass (BCM) during diabetes progression. SPECT imaging of pancreatic islets is most commonly cross-validated by stereological analysis of histological pancreatic sections after insulin staining. Typically, stereological methods do not accurately determine the total beta-cell volume, which is inconvenient when correlating total pancreatic tracer uptake with BCM. Alternative methods are therefore warranted to cross-validate beta-cell imaging using radiotracers. In this study, we introduce multimodal SPECT - optical projection tomography (OPT) imaging as an accurate approach to cross-validate radionuclide-based imaging of beta-cells. Uptake of a promising radiotracer for beta-cell imaging by SPECT, In-111-exendin-3, was measured by ex vivo-SPECT and cross evaluated by 3D quantitative OPT imaging as well as with histology within healthy and alloxan-treated Brown Norway rat pancreata. SPECT signal was in excellent linear correlation with OPT data as compared to histology. While histological determination of islet spatial distribution was challenging, SPECT and OPT revealed similar distribution patterns of In-111-exendin-3 and insulin positive beta-cell volumes between different pancreatic lobes, both visually and quantitatively. We propose ex vivo SPECT-OPT multimodal imaging as a highly accurate strategy for validating the performance of beta-cell radiotracers.

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  • 2.
    Hörnblad, Andreas
    et al.
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Nord, Christoffer
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Parween, Saba
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Ahnfelt-Rønne, J.
    Ahlgren, Ulf
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    The pancreas2015Inngår i: Kaufman's atlas of mouse development supplement: with coronal sections / [ed] Richard Baldock, Jonathan Bard, Duncan R. Davidson and Gillian Morriss-Kay, Elsevier, 2015, 1, s. 85-94Kapittel i bok, del av antologi (Fagfellevurdert)
    Abstract [en]

    This chapter aims to provide a three-dimensional description of the key morphological events, through which a discrete region of the early gut epithelium, as well as its associated mesenchyme, gives rise to the adult pancreas. Facilitated by recent advances in optical imaging techniques, including light sheet fluorescence microscopy and optical projection tomography, we present image series illustrating the growth of the organ and the formation of key morphological and anatomical features. Given the close developmental relationship between the pancreas-associated mesenchyme and the spleen anlage, and thus the potential for the developing spleen to influence pancreas morphogenesis, we include a brief section which covers the early development of this organ. Finally, we describe the spatial and quantitative distribution of the pancreatic endocrine (β-cell) component in adult mice and highlight lobular heterogeneities that may affect phenotypical evaluations of the gland.

  • 3. Medina, Anya
    et al.
    Parween, Saba
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Ullsten, Sara
    Siu, Yuk Ting
    Quach, My
    Bennet, Hedvig
    Balhuizen, Alexander
    Åkesson, Lina
    Wierup, Nils
    Carlsson, Per Ola
    Ahlgren, Ulf
    Lernmark, Åke
    Fex, Malin
    Early deficits in insulin secretion, β−cell mass and islet blood perfusion precedes onset of autoimmune Type 1 Diabetes in diabetes prone Bio-Breeding (BB) ratsManuskript (preprint) (Annet vitenskapelig)
  • 4. Medina, Anya
    et al.
    Parween, Saba
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Ullsten, Sara
    Vishnu, Neelanjan
    Siu, Yuk Ting
    Quach, My
    Bennet, Hedvig
    Balhuizen, Alexander
    Åkesson, Lina
    Wierup, Nils
    Carlsson, Per Ola
    Ahlgren, Ulf
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Lernmark, Åke
    Fex, Malin
    Early deficits in insulin secretion, beta cell mass and islet blood perfusion precede onset of autoimmune type 1 diabetes in BioBreeding rats2018Inngår i: Diabetologia, ISSN 0012-186X, E-ISSN 1432-0428, Vol. 61, nr 4, s. 896-905Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Aims/hypothesis: Genetic studies show coupling of genes affecting beta cell function to type 1 diabetes, but hitherto no studies on whether beta cell dysfunction could precede insulitis and clinical onset of type 1 diabetes are available.

    Methods: We used 40-day-old BioBreeding (BB) DRLyp/Lyp rats (a model of spontaneous autoimmune type 1 diabetes) and diabetes-resistant DRLyp/+ and DR+/+ littermates (controls) to investigate beta cell function in vivo, and insulin and glucagon secretion in vitro. Beta cell mass was assessed by optical projection tomography (OPT) and morphometry. Additionally, measurements of intra-islet blood flow were performed using microsphere injections. We also assessed immune cell infiltration, cytokine expression in islets (by immunohistochemistry and qPCR), as well as islet Glut2 expression and ATP/ADP ratio to determine effects on glucose uptake and metabolism in beta cells.

    Results: DRLyp/Lyp rats were normoglycaemic and without traces of immune cell infiltrates. However, IVGTTs revealed a significant decrease in the acute insulin response to glucose compared with control rats (1685.3 +/- 121.3 vs 633.3 +/- 148.7; p < 0.0001). In agreement, insulin secretion was severely perturbed in isolated islets, and both first- and second-phase insulin release were lowered compared with control rats, while glucagon secretion was similar in both groups. Interestingly, after 5-7 days of culture of islets from DRLyp/Lyp rats in normal media, glucose-stimulated insulin secretion (GSIS) was improved; although, a significant decrease in GSIS was still evident compared with islets from control rats at this time (7393.9 +/- 1593.7 vs 4416.8 +/- 1230.5 pg islet-1 h-1; p < 0.0001). Compared with controls, OPT of whole pancreas from DRLyp/Lyp rats revealed significant reductions in medium (4.1 x 109 +/- 9.5 x 107 vs 3.8 x 109 +/- 5.8 x 107 μm3; p = 0.044) and small sized islets (1.6 x 109 +/- 5.1 x 107 vs 1.4 x 109 +/- 4.5 x 107 μm3; p = 0.035). Finally, we found lower intra-islet blood perfusion in vivo (113.1 +/- 16.8 vs 76.9 +/- 11.8 μl min-1 [g pancreas]-1; p = 0.023) and alterations in the beta cell ATP/ADP ratio in DRLyp/Lyp rats vs control rats.

    Conclusions/interpretation: The present study identifies a deterioration of beta cell function and mass, and intra-islet blood flow that precedes insulitis and diabetes development in animals prone to autoimmune type 1 diabetes. These underlying changes in islet function may be previously unrecognised factors of importance in type 1 diabetes development.

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  • 5.
    Parween, Saba
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Diabetes in 3D: β-cell mass assessments in disease models & evaluation of SPECT based imaging2016Doktoravhandling, med artikler (Annet vitenskapelig)
    Abstract [en]

    Diabetes is a rapidly growing disease with 415 million affected adults worldwide. The pancreatic endocrine cells, most importantly the insulin producing β-cells, play an important role in regulating blood glucose homeostasis. Type 1 diabetes (T1D) is characterized by the inability of the pancreas to secrete sufficient amounts of insulin due to autoimmune destruction of insulin producing β-cells. Type 2 diabetes (T2D) on the other hand is characterized by defects in insulin secretion and insulin sensitivity. Alterations in the β-cell mass (BCM) and/or function play a major role in the development and progression of the disease. Understanding BCM dynamics in disease models is therefore a key aspect for better interpretation of research results. In this thesis, we have used optical projection tomography (OPT) as a tool to evaluate a non-invasive imaging modality for β-cell scoring and to study disease dynamics in frequently used animal models for T1D and T2D.

    The possibility to monitor BCM in vivo would radically improve our competence in studying the pathogenesis of diabetes and in therapeutic interventions. Single photon emission computed tomography (SPECT) is a widely used technique that has become a promising approach to monitor changes in BCM in vivo. A key issue for using this approach is to evaluate the β-cell specificity and read out of the utilized radiotracers. This is most commonly performed by conventional stereological approaches, which rely on the extrapolation of 2D data. We developed a protocol for SPECT-OPT multimodal imaging that enables rapid and accurate cross evaluation of SPECT based assessments of BCM. While histological determination of islet spatial distribution was challenging, SPECT and OPT revealed similar distribution patterns of the radiotracer 111In-exendin-3 and insulin positive β-cell volumes respectively between different pancreatic lobes, both visually and quantitatively. We propose SPECT-OPT multimodal imaging as an accurate and better approach for validating the performance of β-cell radiotracers.

    The leptin deficient ob/ob mouse is a widely used model for studies of metabolic disturbances leading to T2D, including obesity and insulin resistance. By OPT imaging we created the first 3D-spatial and quantitative account of BCM distribution in this model. We observed a previously unreported degree of cystic lesions in hypertrophic islets, that were occupied by red blood cells (RBCs) and/or fibrin mesh. We propose that these lesions are formed by a mechanism involving the extravasation of RBCs/plasma due to increased blood flow and islet vessel instability. Further, our data indicate that the primary lobular compartments of the ob/ob pancreas have different potentials for expanding their β-cell population. Unawareness of these characteristics of β-cell expansion in ob/ob mice presented in this study may significantly influence ex vivo and in vivo assessments of this model in studies of β-cell adaptation and function. The tomographic data, on which this study was based, will be made publically available as a resource to the research community for the planning and interpretation of research involving this model.

    There are limited studies on early metabolic and functional changes of BCM in the settings of T1D. In order to assess initial metabolic alterations in BCM before the onset of diabetes, we characterized congenic diabetes prone Bio-breeding (BB) DR.lyp/lyp rats, a widely used model for T1D diabetes. We observed lower acute insulin response, reduced islet blood flow and a significant reduction in the BCM of small and medium sized islets at a very early stage (40 days), i.e. before insulitis and development of diabetes. Underlying changes in islet function may be a previously unrecognized factor of importance in the development of T1D.

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    Spikblad
  • 6.
    Parween, Saba
    et al.
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Eriksson, Maria
    Nord, Christoffer
    Ahlgren, Ulf
    Spatial and quantitative datasets of the pancreatic β-cell mass distribution in lean and obese (ob/ob) miceManuskript (preprint) (Annet vitenskapelig)
  • 7.
    Parween, Saba
    et al.
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Eriksson, Maria
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Nord, Christoffer
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Kostromina, Elena
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Ahlgren, Ulf
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Spatial and quantitative datasets of the pancreatic beta-cell mass distribution in lean and obese mice2017Inngår i: Scientific Data, E-ISSN 2052-4463, Vol. 4, artikkel-id 170031Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    A detailed understanding of pancreatic β-cell mass distribution is a key element to fully appreciate the pathophysiology of models of diabetes and metabolic stress. Commonly, such assessments have been performed by stereological approaches that rely on the extrapolation of two-dimensional data and provide very limited topological information. We present ex vivo optical tomographic data sets of the full β-cell mass distribution in cohorts of obese ob/ob mice and their lean controls, together with information about individual islet β-cell volumes, their three-dimensional coordinates and shape throughout the volume of the pancreas between 4 and 52 weeks of age. These data sets offer the currently most comprehensive public record of the β-cell mass distribution in the mouse. As such, they may serve as a quantitative and topological reference for the planning of a variety of in vivo or ex vivo experiments including computational modelling and statistical analyses. By shedding light on intra- and inter-lobular variations in β-cell mass distribution, they further provide a powerful tool for the planning of stereological sampling assessments.

    Fulltekst (pdf)
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  • 8.
    Parween, Saba
    et al.
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Kostromina, Elena
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Nord, Christoffer
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Eriksson, Maria
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Lindström, Per
    Umeå universitet, Medicinska fakulteten, Institutionen för integrativ medicinsk biologi (IMB).
    Ahlgren, Ulf
    Umeå universitet, Medicinska fakulteten, Umeå centrum för molekylär medicin (UCMM).
    Intra-islet lesions and lobular variations in β-cell mass expansion in ob/ob mice revealed by 3D imaging of intact pancreas2016Inngår i: Scientific Reports, E-ISSN 2045-2322, Vol. 6, artikkel-id 34885Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    The leptin deficient ob/ob mouse is a widely used model for studies on initial aspects of metabolic disturbances leading to type 2 diabetes, including insulin resistance and obesity. Although it is generally accepted that ob/ob mice display a dramatic increase in β-cell mass to compensate for increased insulin demand, the spatial and quantitative dynamics of β-cell mass distribution in this model has not been assessed by modern optical 3D imaging techniques. We applied optical projection tomography and ultramicroscopy imaging to extract information about individual islet β-cell volumes throughout the volume of ob/ob pancreas between 4 and 52 weeks of age. Our data show that cystic lesions constitute a significant volume of the hyperplastic ob/ob islets. We propose that these lesions are formed by a mechanism involving extravasation of red blood cells/plasma due to increased islet vessel blood flow and vessel instability. Further, our data indicate that the primary lobular compartments of the ob/ob pancreas have different potentials for expanding their β-cell population. Unawareness of the characteristics of β-cell expansion in ob/ob mice presented in this report may significantly influence ex vivo and in vivo assessments of this model in studies of β-cell adaptation and function.

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