Optics for future X-ray telescopes will be characterized by very large aperture and focal length, and will be made of lightweight materials like glass or silicon in order to keep the total mass within acceptable limits. Optical modules based on thin slumped g lass foils are being developed at various institutes, aiming at improving the angular resolution to a few arcsec HEW. Th in mirrors are prone to deform, so they require a careful integration to avoid deformations and even correct forming errors. On the other hand, this offers the opportunity to actively correct the residual deformat ion: a viable possibility to improve the mirror figure is the application of p iezoelectric actuators onto the non-optical side of the mirrors, and several groups are already at work on this approach. The concept we are developing consists of actively integrating thin glass foils with piezoelectric patches, fed by voltages driven by the feedback provided by X-rays. The actuators are commercial co mponents, while the tension signals are carried by a p rinted circuit obtained by photolithography, and the driving electronic is a mu lti-channel low power consumption voltage supply developed inhouse. Finally, the shape detection and the consequent voltage signal to be provided to the piezo electric array are determined in X-rays, in intra-focal setup at the XACT facility at INAF/OA PA. In this work, we describe the manufacturing steps to obtain a first active mirror prototype and the very first test performed in X-rays.