Toward Immunocompetent 3D Skin Models

Pupovac, Aleta; Şentürk, Berna; Griffoni, Chiara; Maniura‐Weber, Katharina; Rottmar, Markus; McArthur, Sally L.

doi:10.1002/adhm.201701405

Cited by 48 publications

(43 citation statements)

References 86 publications

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“…Considering the limitations of the monolayer systems, the employment of more complex and stratified models is expected to provide further information on the effect and the role of key cytokines on the pathogenesis and thereby, on the pathology of psoriasis itself [ 119 ]. Indeed, although monolayer psoriatic models are very useful to study deregulated genes associated with pathological keratinocytes, this type of model does not provide a transcriptomic profile that highlights all the different interactions existing between the different components of psoriatic skin, hence the interest in 3D models for transcriptomic studies.…”

Section: Transcriptomic Studies Using In Vitro Modelsmentioning

confidence: 99%

Transcriptome Profiling Analyses in Psoriasis: A Dynamic Contribution of Keratinocytes to the Pathogenesis

Rioux

Ridha

Simard

et al. 2020

Genes

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Psoriasis is an immune-mediated inflammatory skin disease with a complex etiology involving environmental and genetic factors. A better insight into related genomic alteration helps design precise therapies leading to better treatment outcome. Gene expression in psoriasis can provide relevant information about the altered expression of mRNA transcripts, thus giving new insights into the disease onset. Techniques for transcriptome analyses, such as microarray and RNA sequencing (RNA-seq), are relevant tools for the discovery of new biomarkers as well as new therapeutic targets. This review summarizes the findings related to the contribution of keratinocytes in the pathogenesis of psoriasis by an in-depth review of studies that have examined psoriatic transcriptomes in the past years. It also provides valuable information on reconstructed 3D psoriatic skin models using cells isolated from psoriatic patients for transcriptomic studies.

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Section: Transcriptomic Studies Using In Vitro Modelsmentioning

confidence: 99%

Transcriptome Profiling Analyses in Psoriasis: A Dynamic Contribution of Keratinocytes to the Pathogenesis

Rioux

Ridha

Simard

et al. 2020

Genes

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“…In the current study, exchanging hASCs for lipoaspirate alters the tissue model and may be better suited to study obesity, for example, because the entire adipose tissue is exploited, including the immune component. The silk scaffold with lipoaspirate was used as a patient‐specific model . The main advantage of using lipoaspirate, as opposed to a single‐cell source such as hASCs, is that numerous primary, human cell types are contributed from the lipoaspirate (adipocytes, preadipocytes, endothelial cells, and smooth muscle cells, immune cells including macrophages) which results in a more physiologically relevant system than a stem‐cell‐only model .…”

Section: Discussionmentioning

confidence: 99%

“…The main advantage of using lipoaspirate, as opposed to a single‐cell source such as hASCs, is that numerous primary, human cell types are contributed from the lipoaspirate (adipocytes, preadipocytes, endothelial cells, and smooth muscle cells, immune cells including macrophages) which results in a more physiologically relevant system than a stem‐cell‐only model . However, the disadvantages include patient variability and variability in cell‐type composition which may differ from patient‐to‐patient, or even in different samples from the same patient source …”

Section: Discussionmentioning

confidence: 99%

“…There is interest in the neurological and immune components in skin, but most studies only focus on one system at a time, not both . The in vitro HSE system described herein is a multilayered, full thickness skin model, containing only primary human cells, including human induced neural stem cells (hiNSCs), and tissue‐inherent immune cells from lipoaspirate utilized in the hypodermis .…”

Section: Introductionmentioning

confidence: 99%

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Human Skin Equivalents Demonstrate Need for Neuro‐Immuno‐Cutaneous System

et al. 2018

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There is interest in the neurological and immune components in skin, but most studies only focus on one system at a time, not both. [1,4,16] The in vitro HSE system described herein is a multilayered, full thickness skin model, containing only primary human cells, including human induced neural stem cells (hiNSCs), and tissue-inherent immune cells from lipoaspirate utilized in the hypodermis. [6] In order to compare the effect of the tissue components (i.e., hiNSCs, hypodermis, and the dermis/ epidermis), a parametric study was performed of the system in vitro. Through RNA Sequencing (RNASeq) and protein analysis it was determined that each sample group (dermis/epidermis alone, dermis/epidermis + hiNSCs, etc.) was distinct in terms of functions, gene expression profiles, and enriched biological pathways. Each sample group expressed genes related to several phenomena key to skin biology, including skin development, neuronal system development, inflammation, and immune system process.Through RNASeq, numerous genes were up-or downregulated in a distinct manner with respect to the specific HSE study group (i.e., each HSE group had distinct gene expression) that would not have been possible to identify as quickly or thoroughly by other techniques such as real-time reverse transcriptase polymerase chain reaction (qRT-PCR) or microarrays due to lower sensitivity and throughput. [17,18] Further, RNASeq allowed the identification of genes which may be important for development of an in vitro HSE model, and which were different with the study groups that contained neural or immune components. In comparison to the RNASeq results from less complex skin models (such as a keratinocyte model), the tissue models described herein identified more genes, likely due to the addition of important cell types of the skin including adipose, neural, and immune components. We speculate that such additional complexity and readouts could be useful for studies related to in vitro studies, such as insight into diseases like psoriasis. [19] The skin is a highly organized and complex organ that maintains homeostasis. The neuro-immuno-cutaneous system refers to one of the interconnected systems of the skin, in which neural, immune, and dermal cells, including neuropeptides and cytokines, are in bidirectional communication with A variety of human skin equivalents (HSEs) has been designed for clinical use or for exploratory skin research. In vitro HSE models have been used to target relationships between the skin and nervous or immune systems but have not yet considered the neuro-immuno-cutaneous (NIC) system. In this study, HSEs are described, with and without neural and immune components, to discern these types of effects. These systems are composed of only primary human cells and contain an epidermis, dermis, hypodermis (with immune cells), and human induced neural stem cells for the neuronal component. RNA sequencing is utilized to confirm differences between sample groups and to identify unique or important genes with respect to sample type. O...

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“…Indeed, models based on primary human cells are currently believed to more accurately reflect in vivo responses towards selected compounds, even though their applicability is partially restricted by limited life span and the necessity for cell isolation prior to experiment [ 1 , 5 ]. In addition to the usage of primary cells, significant advances have also been achieved in the field of tissue engineering, a promising approach in approximating in vitro results to observed in vivo responses [ 6 , 7 , 8 , 9 ]. Current research sets a special focus on primitive cell types (e.g., embryonal stem cells, induced pluripotent cells), as these are appreciated to be particularly vulnerable towards exogenous stimuli and also display a model for developmental toxicity testing [ 10 , 11 , 12 , 13 ].…”

Section: Introductionmentioning

confidence: 99%

Metabolite Patterns in Human Myeloid Hematopoiesis Result from Lineage-Dependent Active Metabolic Pathways

Kaiser

Weinschrott

Quint

et al. 2020

IJMS

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Assessment of hematotoxicity from environmental or xenobiotic compounds is of notable interest and is frequently assessed via the colony forming unit (CFU) assay. Identification of the mode of action of single compounds is of further interest, as this often enables transfer of results across different tissues and compounds. Metabolomics displays one promising approach for such identification, nevertheless, suitability with current protocols is restricted. Here, we combined a hematopoietic stem and progenitor cell (HSPC) expansion approach with distinct lineage differentiations, resulting in formation of erythrocytes, dendritic cells and neutrophils. We examined the unique combination of pathway activity in glycolysis, glutaminolysis, polyamine synthesis, fatty acid oxidation and synthesis, as well as glycerophospholipid and sphingolipid metabolism. We further assessed their interconnections and essentialness for each lineage formation. By this, we provide further insights into active metabolic pathways during the differentiation of HSPC into different lineages, enabling profound understanding of possible metabolic changes in each lineage caused by exogenous compounds.

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Toward Immunocompetent 3D Skin Models

Cited by 48 publications

References 86 publications

Transcriptome Profiling Analyses in Psoriasis: A Dynamic Contribution of Keratinocytes to the Pathogenesis

Transcriptome Profiling Analyses in Psoriasis: A Dynamic Contribution of Keratinocytes to the Pathogenesis

Human Skin Equivalents Demonstrate Need for Neuro‐Immuno‐Cutaneous System

Metabolite Patterns in Human Myeloid Hematopoiesis Result from Lineage-Dependent Active Metabolic Pathways

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