RPL22 Overexpression Promotes Psoriasis-Like Lesion by Inducing Keratinocytes Abnormal Biological Behavior

Zeng, Jinrong; Zhang, Yue; Zhang, Hanyi; Zhang, Yuezhong; Gao, Lihua; Tong, Xiaoliang; Xie, Yajie; Hu, Qian; Chen, Chunli; Ding, Shilei; Lu, Jianyun

doi:10.3389/fimmu.2021.699900

Cited by 9 publications

(4 citation statements)

References 31 publications

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“…RSK is reportedly involved in numerous skin cancers by inducing cell cycle progression, cell proliferation and anchorage-independent cell transformation [ 52 ]. Since psoriatic keratinocytes are also characterized by excessive proliferation and anti-apoptotic properties, the inhibition of RSK in PS +T is consistent with the observed decrease in keratinocyte proliferation [ 53 , 54 ].…”

Section: Discussionsupporting

confidence: 65%

Gene Profiling of a 3D Psoriatic Skin Model Enriched in T Cells: Downregulation of PTPRM Promotes Keratinocyte Proliferation through Excessive ERK1/2 Signaling

Rioux

Turgeon

Le‐Bel

et al. 2022

Cells

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Psoriasis is a complex, immune-mediated skin disease involving a wide range of epithelial and immune cells. The underlying mechanisms that govern the epidermal defects and immunological dysfunction observed in this condition remain largely unknown. In recent years, the emergence of new, more sophisticated models has allowed the evolution of our knowledge of the pathogenesis of psoriasis. The development of psoriatic skin biomaterials that more closely mimic native psoriatic skin provides advanced preclinical models that will prove relevant in predicting clinical outcomes. In this study, we used a tissue-engineered, two-layered (dermis and epidermis) human skin substitute enriched in T cells as a biomaterial to study both the cellular and molecular mechanisms involved in psoriasis’ pathogenesis. Gene profiling on microarrays revealed significant changes in the profile of genes expressed by the psoriatic skin substitutes compared with the healthy ones. Two genes, namely, PTPRM and NELL2, whose products influence the ERK1/2 signaling pathway have been identified as being deregulated in psoriatic substitutes. Deregulation of these genes supports excessive activation of the ERK1/2 pathway in psoriatic skin substitutes. Most importantly, electrophoresis mobility shift assays provided evidence that the DNA-binding properties of two downstream nuclear targets of ERK1/2, both the NF-κB and Sp1 transcription factors, are increased under psoriatic conditions. Moreover, the results obtained with the inhibition of RSK, a downstream effector of ERK1/2, supported the therapeutic potential of inhibiting this signaling pathway for psoriasis treatment. In conclusion, this two-layered human psoriatic skin substitute enriched in T cells may prove particularly useful in deciphering the mechanistic details of psoriatic pathogenesis and provide a relevant biomaterial for the study of potential therapeutic targets.

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Section: Discussionsupporting

confidence: 65%

Gene Profiling of a 3D Psoriatic Skin Model Enriched in T Cells: Downregulation of PTPRM Promotes Keratinocyte Proliferation through Excessive ERK1/2 Signaling

Rioux

Turgeon

Le‐Bel

et al. 2022

Cells

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“…The NES comparisons highlighted the inverted transcriptomic pro le of translational pathways and insulin secretion (Fig. 1e); translational activities induced by cell growth and differentiation, enhanced by the in ammatory pro le, are dysregulated during the hyperproliferation of keratinocytes in psoriasis [25,29] and the bioenergetic burden from the accumulated body fat in obesity, a discrepancy hypothesized to compile a homeostatic protective mechanism in MHO individuals [30,31]. Consistently, MHO patients exhibit an increased insulin secretion in comparison to lean [32] and insulin resistant [33] individuals, an expression pro le postulated to represent a transient state towards the exacerbation of metabolic complications and accompanied cardiovascular disorders [34].…”

Section: Discussionmentioning

confidence: 99%

Transcriptomic meta-analysis characterizes molecular commonalities between psoriasis and obesity

Antonatos,

Georgakilas,

Evangelou

et al. 2024

Genes Immun

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Despite the abundance of epidemiological evidence for the high comorbid rate between psoriasis and obesity, systematic approaches on common in ammatory mechanisms have not been adequately explored. We performed a meta-analysis of publicly available RNA-sequencing datasets to unveil putative mechanisms that are postulated to exacerbate both diseases, utilizing both late-stage, disease-speci c meta-analyses and consensus gene co-expression network (cWGCNA). Single-gene meta-analyses reported several common in ammatory mechanisms fostered by the perturbed expression pro le of pathogenic cell types. Assessment of gene overlaps between both diseases revealed signi cant overlaps between up-(n = 170, P-value = 6.07×10 -65 ) and down-regulated (n = 49, P-value = 7.1×10 − 7 ) genes, associated with increased T cell response and activated transcription factors. Our cWGCNA approach disentangled 48 consensus modules, associated with either the differentiation of leukocytes or metabolic pathways with similar correlation signals in both diseases. Notably, all our analyses con rmed the association of the perturbed T helper (Th)17 differentiation pathway in both diseases. Our novel ndings through whole transcriptomic analyses characterize the in ammatory commonalities between psoriasis and obesity implying the assessment of several expression pro les that could serve as putative comorbid disease progression biomarkers and therapeutic interventions.

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“…Phosphorylated IKK could degrade IκB-α and liberate NF-κB from the complex with IκB-α, and triggering the nuclear translocation of NF-κB to regulate various downstream targets, including inflammatory molecules [52]. The high expression of NF-κB was reported in skin lesions from psoriasis patients, and the NF-κB signaling pathway was also highly activated in psoriatic keratinocytes [53,54]. The inhibition of NF-κB signaling is a potential therapeutic approach for psoriasis [55].…”

Section: Discussionmentioning

confidence: 99%

Coptisine Alleviates Imiquimod-Induced Psoriasis-like Skin Lesions and Anxiety-like Behavior in Mice

et al. 2022

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Psoriasis is a common inflammatory skin disorder, which can be associated with psychological disorders, such as anxiety and depression. This study investigated the efficacy and the mechanism of action of a natural compound coptisine using imiquimod (IMQ)-induced psoriasis mice. Coptisine reduced the severity of psoriasis-like skin lesions, decreased epidermal hyperplasia and the levels of inflammatory cytokines TNF-α, IL-17, and IL-22. Furthermore, coptisine improved IMQ-induced anxiety in mice by increasing the number of entries and time in open arms in the elevated plus maze (EPM) test. Coptisine also lowered the levels of inflammatory cytokines TNF-α and IL-1β in the prefrontal cortex of psoriasis mice. HaCaT keratinocytes and BV2 microglial cells were used to investigate the effects of coptisine in vitro. In M5-treated HaCaT cells, coptisine decreased the production of IL-6, MIP-3α/CCL20, IP-10/CXCL10, and ICAM-1 and suppressed the NF-κB signaling pathway. In LPS-stimulated BV2 cells, coptisine reduced the secretion of TNF-α and IL-1β. These findings suggest that coptisine might be a potential candidate for psoriasis treatment by improving both disease severity and psychological comorbidities.

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RPL22 Overexpression Promotes Psoriasis-Like Lesion by Inducing Keratinocytes Abnormal Biological Behavior

Cited by 9 publications

References 31 publications

Gene Profiling of a 3D Psoriatic Skin Model Enriched in T Cells: Downregulation of PTPRM Promotes Keratinocyte Proliferation through Excessive ERK1/2 Signaling

Gene Profiling of a 3D Psoriatic Skin Model Enriched in T Cells: Downregulation of PTPRM Promotes Keratinocyte Proliferation through Excessive ERK1/2 Signaling

Transcriptomic meta-analysis characterizes molecular commonalities between psoriasis and obesity

Coptisine Alleviates Imiquimod-Induced Psoriasis-like Skin Lesions and Anxiety-like Behavior in Mice

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