Pump assembly, in particular for generating pressure in a brake circuit of a controllable power brake system of a motor vehicle

What is claimed is: 1. A pump assembly for generating pressure in a brake circuit of a controllable power brake system of a motor vehicle, the pump assembly comprising: a piston-cylinder unit including: a hollow steel piston; and a cylinder in which the piston is displaceably received and that delimits a working chamber; a piston drive that is configured to drive the piston and that includes: a nut configured to be driven for rotational movement; and a spindle that executes a translatory movement, cooperates at least indirectly with the nut, and is connected to the piston in a rotationally fixed manner; and at least one first guide element; wherein: the piston has: a piston skirt that is open at one axial end of the piston and that has a radially outwardly extending circumferential lip having an exterior circumferential edge, which, in at least one circumferential region of the piston, is an axial and radial terminating edge of the piston; and a piston head having a plastic deformation forming a device by which the spindle is connected to the piston in a rotationally fixed manner; and each of the at least one first guide element: is positioned at a respective distinct circumferential position of the lip in a respective other circumferential region of the piston; extends radially outward from the lip at a radial position of the lip that is radially the same as a radially outermost position to which the lip extends in the at least one circumferential region of the piston, so that an entirety of the respective first guide element is radially exterior to all of the lip; and is integrally formed with the exterior circumferential edge of the lip. 2. The pump assembly as recited in claim 1 , wherein the plastic deformation forms a cup-shaped receptacle, which is open towards an interior of the piston and a wall of the deformation is formed by an inwardly bent first and second material layer of the piston head. 3. The pump assembly as recited in claim 2 , wherein the first and second material layers of the wall are connected to one another at an end situated in an interior of the piston and, enclose a gap between the first and second material layers, the gap being open towards a surrounding environment of the piston. 4. The pump assembly as recited in claim 3 , wherein the plastic deformation forms a circumferential channel that is radially exterior to, surrounds, and is separated by the first and second material layers from, the cup-shaped receptacle. 5. The pump assembly as recited in claim 4 , wherein: the channel and the cup-shaped receptacle each forms: a respective interior surface of the piston that is perpendicular to a central longitudinal axis that extends axially and about which the nut rotates and that faces towards the open axial end of the piston skirt; and a respective exterior surface of the piston that is perpendicular to the central longitudinal axis and that faces away from the open axial end of the piston skirt; the respective interior surfaces of the channel and the cup-shaped receptacle are at a same axial position of the piston as each other; and the respective exterior surfaces of the channel and the cup-shaped receptacle are at a same axial position of the piston as each other. 6. The pump assembly as recited in claim 1 , wherein the plastic deformation has an inside diameter which is matched to an end of the spindle in such a way that, between the spindle and piston, a force fit is established via which the spindle is to be connected to the piston in a rotationally fixed manner. 7. The pump assembly as recited in claim 1 , wherein each of the at least one first guide element is formed by deformation of a material extension which is integrally formed with the lip of the piston skirt. 8. The pump assembly as recited in claim 7 , wherein the piston is radially supported against a second guide element on the pump assembly via the at least one first guide element. 9. The pump assembly as recited in claim 1 , wherein each of the at least one first guide element includes a radially extending base surface and at least one wall extending axially from the base surface in a direction parallel to a central longitudinal axis about which the nut rotates. 10. The pump assembly as recited in claim 1 , wherein each of the at least one first guide element includes a base surface and two walls (a) between which the base surface extends radially outward from the exterior circumferential edge and (b) that extend axially from the base surface in a direction parallel to a central longitudinal axis about which the nut rotates. 11. The pump assembly as recited in claim 10 , wherein each of the two walls includes a respective first end connected to the base surface and a respective second end, which is a free end pointing in a direction away from the piston head. 12. The pump assembly as recited in claim 10 , wherein the two walls and the base surface between the two walls form a u-shape whose base is at the open axial end of the piston skirt. 13. The pump assembly as recited in claim 10 , wherein the two walls include respective interior surfaces that face each other and extend in respective planes that are parallel to each other.