Mitogen- and stress-activated protein kinase (MSK1/2) regulated gene expression in normal and disease states

Sattarifard, Hedieh; Safaei, Akbar; Khazeeva, Enzhe; Rastegar, Mojgan; Davie, James R.

doi:10.1139/bcb-2022-0371

Cited by 6 publications

(5 citation statements)

References 137 publications

(197 reference statements)

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“…MeCP2 is expressed by both glutamatergic and GABAergic neurons, and its activity is critical for proper brain development and striatal function (48). MSK1 substrates include several transcription factors such as CREB, Histone H3 and the DNA binding proteins of the high mobility group (HMG) (53, 54). We hypothesized that MSK1 could also mediates BDNF-dependent MeCP2 phosphorylation in striatal neurons.…”

Section: Resultsmentioning

confidence: 99%

MSK1 absence hinders BDNF-dependent striatal neurodevelopment and leads to schizophrenia symptoms

Varela-Andrés,

Cebrián-León,

Hernández-del Caño

et al. 2024

Preprint

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It is becoming evident that impairments of the neuronal circuitry during development are the basis for some human disorders including autism and schizophrenia. To understand how synaptic wiring is formed and maintained is not only a major scientific challenge, but also has an important biomedical implication. The striatal GABAergic projection neurons, also called Medium Spiny Neurons (MSNs), represent more than 95% of the neuronal population in the striatum. This inhibitory brain hub is associated to voluntary body movements, reward-associated learning, and social behaviour control. The functional loss of the striatum has been associated with several neurological disorders including Huntington disease, Rett syndrome, and schizophrenia. The aetiology of these pathologies implies not only a decrease in the glutamatergic and dopaminergic inputs that reaches into the striatum, but also alterations of the GABAergic brain circuits occurring during development. Using a new MSK1 knockout murine model, we describe that mitogen- and stress-activated protein kinase-1 (MSK1) controls MSNs arborization during mouse brain development, phosphorylation of serine 421 in methyl-CpG binding protein-2 (MeCP2) and regulation of genes involved in gamma-aminobutyric acid (GABA) and dopamine functions, factors that finally cause behaviours reminiscent of schizophrenia in patients.

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Section: Resultsmentioning

confidence: 99%

MSK1 absence hinders BDNF-dependent striatal neurodevelopment and leads to schizophrenia symptoms

Varela-Andrés,

Cebrián-León,

Hernández-del Caño

et al. 2024

Preprint

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“…BI2B had inhibited not only the activation of CREB through phosphorylation (Figure 5 A; Figure 6 A) but also the activation of p38 MAPK in α-MSH-activated melanocyte cultures (Figure 7 B). We then considered MSK1 as a candidate of linker between p38 MAPK and CREB, since MSK1 can be activated by p38 MAPK -catalyzed phosphorylation 35 , 36 , and kinase activity of MSK1 phosphorylates CREB 13 , 37 . B16F0 cells increased the phosphorylation of MSK1 at the T581 residue after stimulation with α-MSH, which was inhibited by treatment with BI2B (Figure 7 C).…”

Section: Resultsmentioning

confidence: 99%

“…Pyridinylimidazole derivatives SB202190 and SB203580 were employed as ATP-competitive inhibitors of p38 MAPK -catalyzed kinase activity 38 . Structurally unrelated chemicals SB-747651A and RMM-46 were employed as MSK1 inhibitors, in which SB-747651A targets to the kinase activity of N -terminal kinase domain on protein substrates including CREB, and RMM-46 to C -terminal kinase domain-catalyzed autophosphorylation (activation) of N -terminal kinase domain 37 .…”

Section: Resultsmentioning

confidence: 99%

Interruption of p38^MAPK-MSK1-CREB-MITF-M pathway to prevent hyperpigmentation in the skin

Kim,

Lee,

Jung

et al. 2024

Int. J. Biol. Sci.

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Background: Melanocortin 1 receptor (MC1R), a receptor of α-melanocyte-stimulating hormone (α-MSH), is exclusively present in melanocytes where α-MSH/MC1R stimulate melanin pigmentation through microphthalmia-associated transcription factor M (MITF-M). Toll-like receptor 4 (TLR4), a receptor of endotoxin lipopolysaccharide (LPS), is distributed in immune and other cell types including melanocytes where LPS/TLR4 activate transcriptional activity of nuclear factor (NF)-κB to express cytokines in innate immunity. LPS/TLR4 also up-regulate MITF-M-target melanogenic genes in melanocytes. Here, we propose a molecular target of antimelanogenic activity through elucidating inhibitory mechanism on α-MSH-induced melanogenic programs by benzimidazole-2-butanol (BI2B), an inhibitor of LPS/TLR4-activated transcriptional activity of NF-κB. Methods: Ultraviolet B (UV-B)-irradiated skins of HRM-2 hairless mice and α-MSH-activated melanocyte cultures were employed to examine melanogenic programs. Results: Topical treatment with BI2B ameliorated UV-B-irradiated skin hyperpigmentation in mice. BI2B suppressed the protein or mRNA levels of melanogenic markers, such as tyrosinase (TYR), MITF-M and proopiomelanocortin (POMC), in UV-B-exposed and pigmented skin tissues. Moreover, BI2B inhibited melanin pigmentation in UV-B-irradiated co-cultures of keratinocyte and melanocyte cells and that in α-MSH-activated melanocyte cultures. Mechanistically, BI2B inhibited the activation of cAMP response element-binding protein (CREB) in α-MSH-induced melanogenic programs and suppressed the expression of MITF-M at the promoter level. As a molecular target, BI2B primarily inhibited mitogen-activated protein kinase (MAPK) kinase 3 (MKK3)-catalyzed kinase activity on p38 MAPK . Subsequently, BI2B interrupted downstream pathway of p38 MAPK -mitogen and stress-activated protein kinase-1 (MSK1)-CREB-MITF-M, and suppressed MITF-M-target melanogenic genes, encoding enzymes TYR, TYR-related protein-1 (TRP-1) and dopachrome tautomerase (DCT) in melanin biosynthesis, and encoding proteins PMEL17 and Rab27A in the transfer of pigmented melanosomes to the overlaying keratinocytes in the skin. Conclusion: Targeting the MKK3-p38 MAPK -MSK1-CREB-MITF-M pathway was suggested as a rationale to inhibit UV-B- or α-MSH-induced facultative melanogenesis and as a strategy to prevent acquired pigmentary disorders in the skin.

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“…In addition, mitogen- and stress-activated kinase-1 (MSK1) was recognized to be phosphorylated in M-CSF-stimulated microglia in vitro [ 109 ]. Since MSK1 is phosphorylated by p38 [ 118 , 119 ] and the activated MSK1 (p-MSK1) in turn activates CREB [ 120 ], the p38–MSK1–CREB signaling cascade is assumed to serve in microglial proliferation. ATF2 was also phosphorylated in M-CSF-stimulated microglia in vitro, and a link between p38 and ATF2 was reported in microglia in an LPS-induced neuroinflammation model [ 114 ], suggesting the existence of a p38–ATF2 pathway in M-CSF-dependent microglial proliferation.…”

Section: Signaling Molecules Serving In Microglial Proliferation In V...mentioning

confidence: 99%

Mechanisms of Microglia Proliferation in a Rat Model of Facial Nerve Anatomy

Ishijima

Nakajima

2023

Biology

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Although microglia exist as a minor glial cell type in the normal state of the brain, they increase in number in response to various disorders and insults. However, it remains unclear whether microglia proliferate in the affected area, and the mechanism of the proliferation has long attracted the attention of researchers. We analyzed microglial mitosis using a facial nerve transection model in which the blood–brain barrier is left unimpaired when the nerves are axotomized. Our results showed that the levels of macrophage colony-stimulating factor (M-CSF), cFms (the receptor for M-CSF), cyclin A/D, and proliferating cell nuclear antigen (PCNA) were increased in microglia in the axotomized facial nucleus (axotFN). In vitro experiments revealed that M-CSF induced cFms, cyclin A/D, and PCNA in microglia, suggesting that microglia proliferate in response to M-CSF in vivo. In addition, M-CSF caused the activation of c-Jun N-terminal kinase (JNK) and p38, and the specific inhibitors of JNK and p38 arrested the microglial mitosis. JNK and p38 were shown to play roles in the induction of cyclins/PCNA and cFms, respectively. cFms was suggested to be induced through a signaling cascade of p38-mitogen- and stress-activated kinase-1 (MSK1)-cAMP-responsive element binding protein (CREB) and/or p38-activating transcription factor 2 (ATF2). Microglia proliferating in the axotFN are anticipated to serve as neuroprotective cells by supplying neurotrophic factors and/or scavenging excite toxins and reactive oxygen radicals.

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Mitogen- and stress-activated protein kinase (MSK1/2) regulated gene expression in normal and disease states

Cited by 6 publications

References 137 publications

MSK1 absence hinders BDNF-dependent striatal neurodevelopment and leads to schizophrenia symptoms

MSK1 absence hinders BDNF-dependent striatal neurodevelopment and leads to schizophrenia symptoms

Interruption of p38^MAPK-MSK1-CREB-MITF-M pathway to prevent hyperpigmentation in the skin

Mechanisms of Microglia Proliferation in a Rat Model of Facial Nerve Anatomy

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Mitogen- and stress-activated protein kinase (MSK1/2) regulated gene expression in normal and disease states

Cited by 6 publications

References 137 publications

MSK1 absence hinders BDNF-dependent striatal neurodevelopment and leads to schizophrenia symptoms

MSK1 absence hinders BDNF-dependent striatal neurodevelopment and leads to schizophrenia symptoms

Interruption of p38MAPK-MSK1-CREB-MITF-M pathway to prevent hyperpigmentation in the skin

Mechanisms of Microglia Proliferation in a Rat Model of Facial Nerve Anatomy

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Interruption of p38^MAPK-MSK1-CREB-MITF-M pathway to prevent hyperpigmentation in the skin