Tuning of Synaptic Integration in the Medial Entorhinal Cortex to the Organization of Grid Cell Firing Fields

SummaryNeurons important for cognitive function are often classified by their morphology and integrative properties. However, it is unclear if within a single class of neuron these properties tune synaptic responses to the salient features of the information that each neuron represents. We demonstrate that for stellate neurons in layer II of the medial entorhinal cortex, the waveform of postsynaptic potentials, the time window for detection of coincident inputs, and responsiveness to gamma frequency inputs follow a dorsal-ventral gradient similar to the topographical organization of grid-like spatial firing fields of neurons in this area. We provide evidence that these differences are due to a membrane conductance gradient mediated by HCN and leak potassium channels. These findings suggest key roles for synaptic integration in computations carried out within the medial entorhinal cortex and imply that tuning of neural information processing by membrane ion channels is important for normal cognitive function

Possibilities of fertility preservation in young patients with ovarian cancer

BACKGROUND Ovarian cancer is a rare disease especially in young patients and surgical treatment often leads to loss of fertility. This study investigated the incidence of the different histological types and discusses the possibility of fertility preservation. PATIENTS AND METHODS A retrospective analysis of patients with an ovarian tumour under the age of 40 who presented either to the Women's University Hospital, Tuebingen or to centres of the FertiPROTEKT network was performed. RESULTS Out of 51 patients with ovarian cancer from Tuebingen, 21 (41.2%) were eligible for fertility-preserving surgery, 11 received chemotherapy and from those 4 (36.4%) chose a fertility preservation technique. From the FertiPROTEKT network, 26/41 patients (63.4%) decided to undergo fertility preservation. No complications and postponement of chemotherapy due to fertility preservation procedures were noted. CONCLUSION With careful consideration of the risks, the correct indication and diligent aftercare, the realisation of conception is possible also for patients with ovarian cancer

Impact of charged particle exposure on homologous dna double-strand break repair in human blood-derived cells

Ionizing radiation generates DNA double-strand breaks (DSB) which, unless faithfully repaired, can generate chromosomal rearrangements in hematopoietic stem and/or progenitor cells (HSPC), potentially priming the cells towards a leukemic phenotype. Using an enhanced green fluorescent protein (EGFP)-based reporter system, we recently identified differences in the removal of enzyme-mediated DSB in human HSPC versus mature peripheral blood lymphocytes (PBL), particularly regarding homologous DSB repair (HR). Assessment of chromosomal breaks via premature chromosome condensation or γH2AX foci indicated similar efficiency and kinetics of radiation-induced DSB formation and rejoining in PBL and HSPC. Prolonged persistence of chromosomal breaks was observed for higher LET charged particles which are known to induce more complex DNA damage compared to X-rays. Consistent with HR deficiency in HSPC observed in our previous study, we noticed here pronounced focal accumulation of 53BP1 after X-ray and carbon ion exposure (intermediate LET) in HSPC versus PBL. For higher LET, 53BP1 foci kinetics was similarly delayed in PBL and HSPC suggesting similar failure to repair complex DNA damage. Data obtained with plasmid reporter systems revealed a dose- and LET-dependent HR increase after X-ray, carbon ion and higher LET exposure, particularly in HR-proficient immortalized and primary lymphocytes, confirming preferential use of conservative HR in PBL for intermediate LET damage repair. HR measured adjacent to the leukemia-associated MLL breakpoint cluster sequence in reporter lines revealed dose dependency of potentially leukemogenic rearrangements underscoring the risk of leukemia-induction by radiation treatment