Livedoid skin reaction to 2nd dose of mRNA Covid-19 vaccine.

Skin often represents a target organ for adverse drug reactions and this also applies to the mRNA vaccines against Sars-CoV-2. Here we present a case of extensive livedoid reaction after 2nd dose of BNT162b-2 vaccine with massive blood skin extravasation and no systemic symptoms apart from anemization. The 30-year-old woman developed progressively enlarging livedoid lesions on limbs and abdomen. Histology showed a near-normal epidermis and a very mild interstitial mixed inflammatory infiltrate with extensive blood extravasation in mid- and deep dermis. Diagnosis was adverse reaction to vaccine with skin capillary hyperpermeability and anaemization with lower than diagnostic features of cutaneous small vessel vasculitis. To date, no cases of a livedoid skin reaction associated to Covid-19 vaccine have been reported, and this case illustrates that massive livedoid reaction can be another kind of skin reaction to mRNA Covid-19 vaccine.

Effects of vanadium complexes on cell growth of human leukemia cells and protein-DNA interactions.

Vanadium complexes are known to possess potent insulin-mimetic effects, high affinity for several enzymes and anticancer activity, which deserve increasing attention for application to biomedical sciences. Different vanadium complexes have been found to be more effective than the simple vanadium-(IV) and -(V) salts in experiments performed both in vitro and in vivo. Application of polyoxometalates as potential drugs against Herpes Simplex Virus and AIDS have also increased the interest to study the association between vanadium containing species and proteins. The aim of our research was to investigate the in vitro antiproliferative activity of a variety of vanadium-containing compounds, and study their ability to interfere with the molecular interactions between GATA-1 and NF-kappaB transcription factors and target DNA elements, employing electrophoretic mobility shift assays. All of the used vanadium compounds were found to exhibit antiproliferative activity, despite with differences in efficacy. Inhibition of K562 cell growth was not associated with differentiation, but with activation of apoptosis. Vanadium complexes with a +5 oxidation state and their discrete anionic units appear essential for the respective effects on K562 cells; a +4 oxidation state appears to be important in inhibiting transcription factors/DNA interactions.