Ustekinumab treats psoriasis by suppressing RORC and T-box but its suppression of GATA restrains its efficacy

Psoriasis is a T-cell mediated disease that involves IL-23/Th17 and IL-12/Th1 axes. Ustekinumab, a fully human monoclonal antibody targeting the p40 subunit of both IL-12 and IL-23, has proven to be efficient and safe for treating patients with psoriasis. Yet, there have been no reports with human skin/blood samples that would elucidate the molecular mechanisms by which ustekinumab calms psoriasis skin lesions. To investigate the efficacy and molecular pathway (RORC, t-BOX and GATA) of ustekinumab in treating patients with psoriasis skin lesions. A total of 30 patients with psoriasis were randomized into placebo group and treatment group. PASI of each patient was calculated at 0, 12 and 24 weeks post-treatment. The mRNA levels of RORC, t-BOX and GATA in peripheral blood mononuclear cells separated from patients' whole blood were analyzed using qPCR. Decreased mRNA of RORC, t-BOX and GATA were observed after continuous injections, indicating that ustekinumab exerts its effect by interacting with these molecules; while no significant difference in foxp3 mRNA levels were found between placebo group and treatment group.

Panax notoginseng saponins induced up-regulation, phosphorylation and binding activity of MEK, ERK, AKT, PI-3K protein kinases and GATA transcription factors in hematopoietic cells / 中国结合医学杂志

<p><b>OBJECTIVE</b>To investigate the effects of panax notoginseng saponins (PNS) on expression, regulation and phosphorylation of multiple protein kinases in mitogen activated protein kinase (MAPK) intracellular signal pathway and GATA transcription factors in hematopoietic cells, so as to explore its mechanism of proliferation and differentiation activity on hematopoiesis.</p><p><b>METHODS</b>The human granulocytic HL-60, erythrocytic K562, megakaryocytic CHRF-288 and Meg-01 cell lines were treated by PNS, the positive control of K562, CHRF-288 cells treated by recombination human erythropoietin (Epo) and thrombopoietin (Tpo) respectively. The total cell lysate and nuclei protein were extracted after being treated by PNS, subsequently, analyzed by both Western blot and immune-precipitation. Meanwhile, the nuclei extract was performed for electrophoretic mobility shift assay (EMSA) by using (32)P radio labeled double-stranded GATA consensus oligonucleotide.</p><p><b>RESULTS</b>The expression levels of kinase MEK-1, MEK-2, ERK-1, ERK-2, AKT-1, AKT-2 and PI-3K were increased by PNS treatment to different extent in four cell lines, depending on cellular heterogeneity and sensitivity to PNS, also phosphorylation of MEK-1, ERK-1 was differentially promoted by PNS respectively P<0.05, 0.01, 0.001). The expression levels of transcription factors GATA-1 and GATA-2 were increased, moreover, their DNA binding activities were raised dramatically in PNS treated K562, CHRF-288 and Meg-01 cells compared with the controls respectively (P<0.05, 0.01, 0.001). The positive control of K562, CHRF-288 cells treated by Epo or Tpo respectively also displayed up-regulation of protein kinases and GATA transcription factors respectively (P<0.05, 0.01, 0.001).</p><p><b>CONCLUSION</b>The results indicated that intracellular signal pathway initiated by PNS was involved in MAPK pathway and transcription factors of GATA family in hematopoietic cells. PNS displayed the role to promote proliferation and differentiation, by means of increasing expression level and phosphorylation status of multiple protein kinases, also inducing synthesis of GATA transcription factors and upregulation its DNA binding activity.</p>

GATA family of transcription factors of vertebrates: phylogenetics and chromosomal synteny.

GATA genes are an evolutionarily conserved family, which encode a group of important transcription factors involved in the regulation of diverse processes including the development of the heart, haematopoietic system and sex gonads. However, the evolutionary history of the GATA family has not been completely understood. We constructed a complete phylogenetic tree with functional domain information of the GATA genes of both vertebrates and several invertebrates,and mapped the GATA genes onto relevant chromosomes. Conserved synteny was observed around the GATA loci on the chromosomes. GATAs have a tendency to segregate onto different chromosomes during evolution. The phylogenetic tree is consistent with the relevant functions of GATA members. Analysis of the zinc finger domain showed that the domain tends to be duplicated during evolution from invertebrates to vertebrates. We propose that the balance between duplications of zinc finger domains and GATA members should be maintained to exert their physiological roles in each evolutionary stage. Therefore,evolutionary pressure on the GATAs must exist to maintain the balance during evolution from invertebrates to vertebrates. These results reveal the evolutionary characteristics of the GATA family and contribute to a better understanding of the relationship between evolution and biological functions of the gene family, which will help to uncover the GATAs' biological roles,evolution and their relationship with associated diseases.

A Comparative Genome-Wide Analysis of GATA Transcription Factors in Fungi

GATA transcription factors are widespread eukaryotic regulators whose DNA-binding domain is a class IV zinc finger motif in the form CX(2)CX(17-20)CX(2)C followed by a basic region. In fungi, they act as transcriptional activators or repressors in several different processes, ranging from nitrogen source utilization to mating-type switching. Using an in-house bioinformatics portal system, we surveyed 50 fungal and 9 out-group genomes and identified 396 putative fungal GATA transcription factors. The proportion of GATA transcription factors within a genome varied among taxonomic lineages. Subsequent analyses of phylogenetic relationships among the fungal GATA transcription factors, as well as a study of their domain architecture and gene structure, demonstrated high degrees of conservation in type IVa and type IVb zinc finger motifs and the existence of distinctive clusters at least at the level of subphylum. The SFH1 subgroup with a 20-residue loop was newly identified, in addition to six well-defined subgroups in the subphylum Pezizomycotina. Furthermore, a novel GATA motif with a 21-residue loop (CX(2)CX(21)CX(2)C, designated 'zinc finger type IVc') was discovered within the phylum Basidiomycota. Our results suggest that fungal GATA factors might have undergone multiple distinct modes of evolution resulting in diversified cellular modulation in fungi.