Role of Rad18 in B cell activation and lymphomagenesis.

Maintenance of genome integrity is instrumental in preventing cancer. In addition to DNA repair pathways that prevent damage to DNA, damage tolerance pathways allow for the survival of cells that encounter DNA damage during replication. The Rad6/18 pathway is instrumental in this process, mediating damage bypass by ubiquitination of proliferating cell nuclear antigen.

Mechanism and regulation of secondary immunoglobulin diversification.

Secondary immunoglobulin diversification by somatic hypermutation and class switch recombination in B cells is instrumental for an adequate adaptive humoral immune response. These genetic events may, however, also introduce aberrations into other cellular genes and thereby cause B cell malignancies. While the basic mechanism of somatic hypermutation and class switch recombination is now well understood, their regulation and in particular the mechanism of their specific targeting to immunoglobulin genes is still rather mysterious.

Soluble Enolase 1 of Candida albicans and Aspergillus fumigatus Stimulates Human and Mouse B Cells and Monocytes.

Because of the growing numbers of immunocompromised patients, the incidence of life-threatening fungal infections caused by Candida albicans and Aspergillus fumigatus is increasing. We have recently identified enolase 1 (Eno1) from A. fumigatus as an immune evasion protein.

Cell Cycle-Mediated Regulation of Secondary Ig Diversification.

Secondary Ig diversification in B cells requires the deliberate introduction of DNA damage into the Ig genes by the enzyme activation-induced cytidine deaminase (AID) and the error-prone resolution of AID-induced lesions. These processes must be tightly regulated because they may lead to lymphomagenesis if they act on genes other than the Ig genes. Since B cells may limit secondary Ig diversification mechanisms during the cell cycle to minimize genomic instability, we restricted the activity of AID specifically to the G1 or S/G2 phase to investigate the cell cycle contribution to the regulation of somatic hypermutation, class switch recombination, and Ig gene conversion in human, murine, and avian B cells, respectively.

The TLR-NF-kB axis contributes to the monocytic inflammatory response against a virulent strain of , a causative agent of invasive mucormycosis.

Invasive mucormycosis (IM) is a life-threatening infection caused by the fungal order Mucorales, its diagnosis is often delayed, and mortality rates range from 40-80% due to its rapid progression. Individuals suffering from hematological malignancies, diabetes mellitus, organ transplantations, and most recently COVID-19 are particularly susceptible to infection by Mucorales. Given the increase in the occurrence of these diseases, mucormycosis has emerged as one of the most common fungal infections in the last years.