TRIM28 regulates transcriptional activity of methyl-DNA binding protein Kaiso by SUMOylation

Kaiso is a methyl DNA binding transcriptional factor involved in cell cycle control, WNT signaling, colon inflammation, and cancer progression. Recently, it was shown that SUMOylation dynamically modulates the transcriptional activity of Kaiso. However, factors involved in SUMOylation of Kaiso are unknown. Here we show that TRIM28 enhances SUMOylation of Kaiso leading to a decreased methyl-dependent repression ability. TRIM28 is a scaffold protein that regulates transcription and posttranslational modifications of factors involved in cell cycle progression, DNA damage, and viral gene expression. It has SUMO and ubiquitin E3 ligase activity. Here, we defined the domains involved in Kaiso-TRIM28 interaction. The RBCC domain of TRIM28 interacts with the BTB/POZ domain and the zinc fingers of Kaiso. The PHD-bromodomain of TRIM28 is sufficient for the interaction with zinc fingers of Kaiso. Additionally, we found that Kaiso enhances SUMOylation of TRIM28. Altogether our data suggest self-enhancement of SUMOylation of both Kaiso and TRIM28 that affects transcriptional activity of Kaiso.

Kaiso Regulates DNA Methylation Homeostasis

Gain and loss of DNA methylation in cells is a dynamic process that tends to achieve an equilibrium. Many factors are involved in maintaining the balance between DNA methylation and demethylation. Previously, it was shown that methyl-DNA protein Kaiso may attract NCoR, SMRT repressive complexes affecting histone modifications. On the other hand, the deficiency of Kaiso resulted in reduced methylation of ICR in H19/Igf2 locus and Oct4 promoter in mouse embryonic fibroblasts. However, nothing is known about how Kaiso influences DNA methylation at the genome level. Here we show that deficiency of Kaiso led to whole-genome hypermethylation, using Kaiso deficient human renal cancer cell line obtained via CRISPR/CAS9 genome editing. However, Kaiso serves to protect genic regions, enhancers, and regions with a low level of histone modifications from demethylation. We detected hypomethylation of binding sites for Oct4 and Nanog in Kaiso deficient cells. Kaiso immunoprecipitated with de novo DNA methyltransferases DNMT3a/3b, but not with maintenance methyltransferase DNMT1. Thus, Kaiso may attract methyltransferases to surrounding regions and modulate genome methylation in renal cancer cells apart from being methyl DNA binding protein.

The murdered child and his killers

The authors studied 112 cases of child homicide in New York City in 1968-1969 to identify contributing social and psychiatric factors and to determine the fate of the surviving siblings and the degree of involvement of the city's social agencies with the families. There was a pattern of long-term familial child maltreatment extending to the siblings and continuing after the murders. The victims were usually illegitimate preschoolers; the assailants, usually the mothers or their paramours, had backgrounds of assaultiveness and social deviance and killed in impulsive rage. Reports of sexual abuse of victims or of suicide or psychosis among assailants were rare. The authors present case illustrations and offer guidelines for improved prevention by psychiatrists and social workers.