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1.
ACS Biomater Sci Eng ; 6(2): 1186-1195, 2020 02 10.
Artigo em Inglês | MEDLINE | ID: mdl-33464872

RESUMO

Pancreatic islet transplantation has not yet succeeded as an overall treatment for type 1 diabetes because of limited access to donor islets, as well as low efficacy and poor reproducibility of the current procedure. Herein, a method to create islets-like composite clusters (coclusters) from dispersed endocrine cells and supportive cells is described, attempting to improve compatibility with the recipient and more efficiently make use of the donor-derived material. To mimic the extracellular matrix environment, recombinant spider silk functionalized with cell binding motifs are used as 3D support for the coclusters. A cell binding motif derived from fibronectin (FN) was found superior in promoting cell adherence, while a plain RGD-motif incorporated in the repetitive part of the silk protein (2R) increased the mobility and cluster formation of endocrine cells. Self-assembly of a mixture of FN/2R silk is utilized to integrate endocrine cells together with endothelial and mesenchymal cells into islet-like coclusters. Both xenogenic and allogenic versions of these coclusters were found to be viable and were able to respond to dynamic glucose stimulation with insulin release. Moreover, the endothelial cells were found to be colocalized with the endocrine cells, showing that the silk combined with supportive cells may promote vascularization. This method to engineer combined islet-like coclusters allows donor-derived endocrine cells to be surrounded by supportive cells from the recipient, which have the potential to further promote engraftment in the host and considerably reduce risk of rejection.


Assuntos
Células Endócrinas , Transplante das Ilhotas Pancreáticas , Células Endoteliais , Reprodutibilidade dos Testes , Seda
2.
ACS Chem Biol ; 14(6): 1205-1216, 2019 06 21.
Artigo em Inglês | MEDLINE | ID: mdl-31059222

RESUMO

Access to cryptic binding pockets or allosteric sites on a kinase that present themselves when the enzyme is in a specific conformational state offers a paradigm shift in designing the next generation small molecule kinase inhibitors. The current work showcases an extensive and exhaustive array of in vitro biochemical and biophysical tools and techniques deployed along with structural biology efforts of inhibitor-bound kinase complexes to characterize and confirm the cryptic allosteric binding pocket and docking mode of the small molecule actives identified for hTrkA. Specifically, assays were designed and implemented to lock the kinase in a predominantly active or inactive conformation and the effect of the kinase inhibitor probed to understand the hTrkA binding and hTrkB selectivity. The current outcome suggests that inhibitors with a fast association rate take advantage of the inactive protein conformation and lock the kinase state by also exhibiting a slow off-rate. This in turn shifts the inactive/active state protein conformational equilibrium cycle, affecting the subsequent downstream signaling.


Assuntos
Inibidores de Proteínas Quinases/farmacologia , Receptor trkA/antagonistas & inibidores , Regulação Alostérica , Animais , Simulação por Computador , Humanos , Ligantes , Neuritos , Células PC12 , Inibidores de Proteínas Quinases/metabolismo , Ratos , Receptor trkA/metabolismo
3.
Sci Rep ; 9(1): 6291, 2019 04 18.
Artigo em Inglês | MEDLINE | ID: mdl-31000733

RESUMO

Tissues are built of cells integrated in an extracellular matrix (ECM) which provides a three-dimensional (3D) microfiber network with specific sites for cell anchorage. By genetic engineering, motifs from the ECM can be functionally fused to recombinant silk proteins. Such a silk protein, FN-silk, which harbours a motif from fibronectin, has the ability to self-assemble into networks of microfibers under physiological-like conditions. Herein we describe a method by which mammalian cells are added to the silk solution before assembly, and thereby get uniformly integrated between the formed microfibers. In the resulting 3D scaffold, the cells are highly proliferative and spread out more efficiently than when encapsulated in a hydrogel. Elongated cells containing filamentous actin and defined focal adhesion points confirm proper cell attachment to the FN-silk. The cells remain viable in culture for at least 90 days. The method is also scalable to macro-sized 3D cultures. Silk microfibers formed in a bundle with integrated cells are both strong and extendable, with mechanical properties similar to that of artery walls. The described method enables differentiation of stem cells in 3D as well as facile co-culture of several different cell types. We show that inclusion of endothelial cells leads to the formation of vessel-like structures throughout the tissue constructs. Hence, silk-assembly in presence of cells constitutes a viable option for 3D culture of cells integrated in a ECM-like network, with potential as base for engineering of functional tissue.


Assuntos
Matriz Extracelular/genética , Fibronectinas/genética , Proteínas Recombinantes/genética , Seda/genética , Animais , Adesão Celular/genética , Técnicas de Cultura de Células , Diferenciação Celular/genética , Proliferação de Células/genética , Matriz Extracelular/ultraestrutura , Fibronectinas/química , Fibronectinas/ultraestrutura , Engenharia Genética , Humanos , Hidrogéis/química , Proteínas Recombinantes/ultraestrutura , Seda/ultraestrutura , Células-Tronco/metabolismo
4.
Biomaterials ; 90: 50-61, 2016 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-26986856

RESUMO

Ex vivo expansion of endocrine cells constitutes an interesting alternative to be able to match the unmet need of transplantable pancreatic islets. However, endocrine cells become fragile once removed from their extracellular matrix (ECM) and typically become senescent and loose insulin expression during conventional 2D culture. Herein we develop a protocol where 3D silk matrices functionalized with ECM-derived motifs are used for generation of insulin-secreting islet-like clusters from mouse and human primary cells. The obtained clusters were shown to attain an islet-like spheroid shape and to maintain functional insulin release upon glucose stimulation in vitro. Furthermore, in vivo imaging of transplanted murine clusters showed engraftment with increasing vessel formation during time. There was no sign of cell death and the clusters maintained or increased in size throughout the period, thus suggesting a suitable cluster size for transplantation.


Assuntos
Matriz Extracelular/química , Insulina/metabolismo , Transplante das Ilhotas Pancreáticas , Ilhotas Pancreáticas/citologia , Seda/química , Alicerces Teciduais/química , Animais , Células Cultivadas , Glucose/metabolismo , Humanos , Ilhotas Pancreáticas/metabolismo , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Transgênicos , Oligopeptídeos/química , Procedimentos Cirúrgicos Oftalmológicos
5.
Biomaterials ; 74: 256-66, 2016 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-26461118

RESUMO

The cell binding motif RGD is the most widely used peptide to improve cell binding properties of various biomaterials, including recombinant spider silk. In this paper we use genetic engineering to further enhance the cell supportive capacity of spider silk by presenting the RGD motif as a turn loop, similar to the one found in fibronectin (FN), but in the silk stabilized by cysteines, and therefore denoted FNCC. Human primary cells cultured on FNCC-silk showed increased attachment, spreading, stress fiber formation and focal adhesions, not only compared to RGD-silk, but also to silk fused with linear controls of the RGD containing motif from fibronectin. Cell binding to FNCC-silk was shown to involve the α5ß1 integrin, and to support proliferation and migration of keratinocytes. The FNCC-silk protein allowed efficient assembly, and could even be transformed into free standing films, on which keratinocytes could readily form a monolayer culture. The results hold promise for future applications within tissue engineering.


Assuntos
Fibronectinas/química , Integrinas/metabolismo , Mimetismo Molecular , Seda/metabolismo , Animais , Adesão Celular , Células Cultivadas , Humanos , Ligação Proteica , Aranhas
6.
J Biomol Screen ; 20(9): 1112-23, 2015 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-26071243

RESUMO

According to the gate control theory of pain, the glycine receptors (GlyRs) are putative targets for development of therapeutic analgesics. A possible approach for novel analgesics is to develop a positive modulator of the glycine-activated Cl(-) channels. Unfortunately, there has been limited success in developing drug-like small molecules to study the impact of agonists or positive modulators on GlyRs. Eight RNA aptamers with low nanomolar affinity to GlyRα1 were generated, and their pharmacological properties analyzed. Cytochemistry using fluorescein-labeled aptamers demonstrated GlyRα1-dependent binding to the plasma membrane but also intracellular binding. Using a fluorescent membrane potential assay, we could identify five aptamers to be positive modulators. The positive modulation of one of the aptamers was confirmed by patch-clamp electrophysiology on L(tk) cells expressing GlyRα1 and/or GlyRα1ß. This aptamer potentiated whole-cell Cl(-) currents in the presence of low concentrations of glycine. To our knowledge, this is the first demonstration ever of RNA aptamers acting as positive modulators for an ion channel. We believe that these aptamers are unique and valuable tools for further studies of GlyR biology and possibly also as tools for assay development in identifying small-molecule agonists and positive modulators.


Assuntos
Aptâmeros de Nucleotídeos/farmacologia , Receptores de Glicina/agonistas , Animais , Aptâmeros de Nucleotídeos/metabolismo , Linhagem Celular , Membrana Celular/metabolismo , Citoplasma/metabolismo , Avaliação Pré-Clínica de Medicamentos , Cinética , Potenciais da Membrana/efeitos dos fármacos , Camundongos , Pichia , Receptores de Glicina/metabolismo , Técnica de Seleção de Aptâmeros , Ressonância de Plasmônio de Superfície
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