Subcutaneous granuloma annulare mimicking dermatomyositis.

We present three children who presented with papules and plaques over the knuckles, mimicking Gottron's papules of juvenile dermatomyositis, as well as subcutaneous nodules over the joints of the extremities that were initially thought to represent calcinosis cutis. However, thorough clinical and laboratory evaluation, as well as imaging, failed to support this diagnosis. Skin biopsies were consistent with a diagnosis of subcutaneous granuloma annulare. This unique phenotype of granuloma annulare should be recognized in order to prevent erroneous diagnosis and treatment.

Folate levels modulate oncogene-induced replication stress and tumorigenicity.

Chromosomal instability in early cancer stages is caused by replication stress. One mechanism by which oncogene expression induces replication stress is to drive cell proliferation with insufficient nucleotide levels. Cancer development is driven by alterations in both genetic and environmental factors. Here, we investigated whether replication stress can be modulated by both genetic and non-genetic factors and whether the extent of replication stress affects the probability of neoplastic transformation. To do so, we studied the effect of folate, a micronutrient that is essential for nucleotide biosynthesis, on oncogene-induced tumorigenicity. We show that folate deficiency by itself leads to replication stress in a concentration-dependent manner. Folate deficiency significantly enhances oncogene-induced replication stress, leading to increased DNA damage and tumorigenicity in vitro. Importantly, oncogene-expressing cells, when grown under folate deficiency, exhibit a significantly increased frequency of tumor development in mice. These findings suggest that replication stress is a quantitative trait affected by both genetic and non-genetic factors and that the extent of replication stress plays an important role in cancer development.

Infection with retroviral vectors leads to perturbed DNA replication increasing vector integrations into fragile sites.

Genome instability is a hallmark of cancer. Common fragile sites (CFSs) are specific regions in the human genome that are sensitive to replication stress and are prone to genomic instability in different cancer types. Here we molecularly cloned a new CFS, FRA11H, in 11q13. The genomic region of FRA11H harbors a hotspot of chromosomal breakpoints found in different types of cancer, indicating that this region is unstable during cancer development. We further found that FRA11H is a hotspot for integrations of Murine Leukemia Virus (MLV)-based vectors, following CD34+ infections in vitro as well as ex-vivo during gene therapy trials. Importantly, we found that the MLV-based vector infection in-vitro leads to replication perturbation, DNA damage and increased CFS expression. This suggests that infection by MLV-based vectors leads to replication-induced genome instability, raising further concerns regarding the use of retroviral vectors in gene therapy trials.