Annette M. Müller’s research while affiliated with University of Cologne and other places

The purpose of this study was to investigate Müller cells during the fetal development of the human eye. Müller cells in eyes of 39 human fetuses (11–38 weeks of gestation, WOG) and 6 infants (5 died of abusive head trauma, AHT, aged 1–9 months) were immunohistochemically stained and investigated for spatial and temporal immunoreaction of nestin, CD44, collagen IX and GFAP, which are stem cell markers or markers of intermediate filaments, respectively, in one of the hitherto largest cohorts of fetal eyes. Müller cells could be detected immunohistochemically as early as 12 WOG by immunohistochemical staining with nestin. Nestin was more strongly expressed in Müller cells of the peripheral retina and a centroperipheral gradient of immunoreaction over time was observed. CD44 was predominantly expressed in fetal eyes of the late second and early third trimester between (23 and 27 WOG) and significantly stronger in the infant eyes. Collagen IX labeling in the central retina was significantly stronger than in more peripheral sectors and increased with fetal age. GFAP staining in Müller cells was seen in the eye of a fetus of 38 WOG who died postnatally and in the infant eyes with and without history of AHT. Additionally, GFAP staining was present in the astrocytes of fetal and infant eyes. All examined markers were expressed by Müller cells at different developmental stages highlighting the plasticity of Müller cells during the development of the human eye. GFAP should be cautiously used as a marker for AHT as it was also expressed in fetal astrocytes and Müller cells in eyes without history of AHT.

We report a case of a placenta with extensive maternal vascular malperfusion and chronic histiocytic intervillositis corresponding to SARS-CoV‑2 placentitis in the context of fetal demise at 31 weeks of gestation. Placental swamp and PCR of the placental parenchyma, umbilical cord and amnion–chorion membrane showed SARS-CoV-2- and B‑betacoronavirus-specific RNA. Maternal vascular malperfusion has been described in cases of SARS-CoV‑2 infection; however, the manifested severity of this case in the setting of a severe SARS-CoV‑2 placentitis is rare. It emphasizes the need of a maternal prophylactic anticoagulation.

Cancer-testis (CT) antigens were identified by their ability to elicit T- or B-cell immune responses in the autologous host. They are typically expressed in a wide variety of neoplasms and in normal adult tissues are restricted to testicular germ cells. PReferentially expressed Antigen of Melanoma (PRAME) is a member of the family of nonclassical CT antigens being expressed in a few other normal tissues besides testis. Interestingly, knowledge about the protein expression of many CT antigens is still incomplete due to the limited availability of reagents for their immunohistochemical detection. Here, we tested several commercially available serological reagents and identified a monoclonal antibody suitable for the immunohistochemical detection of PRAME in formalin-fixed paraffin-embedded specimens. We also tested a wide array of normal and neoplastic tissues. PRAME protein expression in normal tissues is congruent with original molecular data being present in the testis, and at low levels in the endometrium, adrenal cortex, and adult as well as fetal ovary. In tumors, there is diffuse PRAME immunoreactivity in most metastatic melanomas, myxoid liposarcomas, and synovial sarcomas. Other neoplasms such as seminomas and carcinomas of various origins including endometrial, serous ovarian, mammary ductal, lung, and renal showed an intermediate proportion of cases and variable extent of tumor cells positive for PRAME protein expression. As seen with other CT antigens, hepatocellular and colorectal carcinoma, Leydig cell tumors, mesothelioma, and leiomyosarcoma are poor expressers of PRAME.