Author Interviews, Autism, Pharmacology / 07.11.2017

MedicalResearch.com Interview with: Dr. Mark E. Gurney, PhD MBA Chairman & CEO, Tetra Discovery Partners Inc. MedicalResearch.com: What is the background for this study? What are the main findings? Response: Fragile X is a genetic condition. Affected patients display a range of behavioral and other symptoms, including seizures, sleep disorders, anxiety, irritability, hyperactivity, autism, mild-to-severe cognitive impairment and intellectual disability. BPN14770 is a novel therapeutic agent that selectively inhibits phosphodiesterase-4D (PDE4D). Inhibition of PDE4 has been validated as a treatment strategy by many research groups in the Fragile X field, but non-selective PDE4 inhibitors have been associated with significant GI side-effects that have limited those drugs’ use. As a selective inhibitor, such side-effects were not seen for BPN14770 in a Phase 1 clinical trial in healthy young and elderly adults. In the current study, daily treatment of Fragile X knock-out (FXS) mice with BPN14770 showed a reduction in hyperarousal, improved social interactions and natural behaviors, and changes in nerve structure in the prefrontal cortex of the brain, the portion of that brain associated with cognition. Moreover, the drug’s benefit persisted for two weeks after all drug was cleared from the mice. At the same time, the behavior of normal mice treated with the drug remained unchanged. Examination of neurons from the prefrontal cortex of the treated FXS mice showed an improvement in dendritic spine morphology. (more…)
Author Interviews, Autism, Genetic Research, NIH / 16.08.2016

MedicalResearch.com Interview with: Karen Usdin, Ph. D. Senior Investigator Chief, Gene Structure and Disease Section Laboratory of Cell and Molecular Biology National Institute of Diabetes, Digestive and Kidney Diseases National Institutes of Health Bethesda MD 20892 MedicalResearch.com: What is the background for this study? What are the main findings? Response: Our laboratory is interested in the causes and consequences of the unusual repeat expansion mutation that causes the Fragile X-related disorders. However these disorders are challenging to study, in part because the repeat tract is difficult to amplify by PCR. This makes monitoring of repeat length, as well as other factors we are interested in such as methylation status and the presence of AGG interruptions, quite difficult. In our experience, both repeat number and methylation status are very variable in patient stem cells and in disease-relevant cell types derived from them. This variability arises because the repeat is prone to both expansion and contraction and because at different times there can be selection for smaller alleles or against unmethylated ones. Thus the frequent monitoring of repeat length and methylation status is critical for work with patient cells, particularly when those cells are to be used for drug screening or to examine the consequences of expansion. While other assays are available to determine one or more of these parameters, some are cumbersome to use or lack the necessary robustness and sensitivity, whilst others are prohibitively expensive for routine laboratory work. We thus saw a need for assays that are robust, sensitive and cost-effective for preclinical studies. (more…)