Testicular Germ Cell Tumours and Proprotein Convertases

Testicular Germ Cell Tumours (TGCT) are widely considered a “curable cancer” due to their exceptionally high survival rate, even if it is reduced by many years after the diagnosis due to metastases and relapses. The most common therapeutic approach to TGCTs has not changed in the last 50 years despite its multiple long-term side effects, and because it is the most common malignancy in young Caucasian men, much research is needed to better the quality of life of the many survivors. Proprotein Convertases (PC) are nine serine proteases responsible for the maturation of inactive proproteins with many diverse functions. Alterations in their expression have been associated with various diseases, including cancer and inflammation. Many of their substrates are adhesion molecules, metalloproteases and proinflammatory molecules, all of which are involved in tumour development. Inhibition of certain convertases has also been shown to slow tumour formation, demonstrating their involvement in this process. Considering the very established link between PCs and inflammation-related malignancies and the recent studies carried out into the immune microenvironment of TGCTs, the study of the involvement of PCs in testicular cancer may open up avenues for being both a biomarker for diagnosis and a therapeutic target.This research was funded by the University of the Basque Country UPV/EHU grant number GIU 20/050

Characterization of dopamine D2 receptor coupling to G proteins in postmortem brain of subjects with schizophrenia

Background: Alterations of dopamine D-1 (D1R) and D-2 receptor (D2R) are proposed in schizophrenia but brain neuroimaging and postmortem studies have shown controversial results in relation to D1R and D2R density. Besides, scarce information on the functionality of brain D1R and D2R is available. The present study characterized G-protein activation by D1R and D2R agonists in postmortem human brain. Furthermore, D2R functional status was compared between schizophrenia and control subjects. Methods: G-protein receptor coupling was assessed in control caudate nucleus and frontal cortex by [S-35]GTP gamma S-binding stimulation induced by increasing concentrations (10(-10)-10(-3) M) of dopamine, and the selective dopaminergic agonists SKF38393 (D1R) and NPA (D2R). Concentration-response curves to NPA stimulation of [S-35]GTP gamma S binding were analyzed in antipsychotic-free (n = 10) and antipsychotic-treated (n = 7) schizophrenia subjects and matched controls (n = 17). Results: In caudate, [S-35]GTP gamma S-binding responses to agonists were compatible with the existence of functional D2R. In contrast, stimulations in cortex showed responses that did not correspond to D1R or D2R. [S-35]GTP gamma S-binding activation by NPA in caudate displayed biphasic curves with similar profile in schizophrenia (EC50H = 7.94 nM; EC50L = 7.08 mu M) and control (EC50H = 7.24 nM; EC50L = 15.14 mu M) subjects. The presence or absence of antipsychotic medication did not influence the pharmacological parameters. Conclusions: Feasibility of functional evaluation of dopamine receptors in postmortem human brain by conventional [S-35]GTP gamma S-binding assays appears to be restricted to signalling through inhibitory G(i/o) proteins. These findings provide functional information about brain D2R status in subjects with schizophrenia and do not support the existence of D2R supersensitive in this mental disorder.This work was supported by the Spanish State Research Agency and EDR Funds (SAF-2017-88126-R to JJM;PID2019-106404RB-100 to LFC), the Basque Government (IT1211/19 to JJM ; ELKARTEK Programme KK-2019/00049 to RD-A), and the National Institutes of Health (R01MH084894 & NIH-R01MH111940 to JG-M)