Wheel hub system including a retainer for positioning components during assembly

What is claimed is: 1. A hub assembly, comprising: a hub including: a through-hole extending between opposite ends of the hub in an axial direction, a support surface including a plurality of teeth surrounding an opening into the through hole, and a circumferential groove formed in the through-hole; and a bearing unit positioned on the hub, wherein the through-hole includes a plurality of sections having different diameters, the plurality of sections including a first portion having a greater diameter than a second portion, the circumferential groove being formed in the second portion, the second portion having a section with a constant diameter, the circumferential groove being axially positioned in a medial area of the section with the constant diameter, and the circumferential groove being configured to receive a retainer on an outer surface of a projection of a joint component. 2. The hub assembly of claim 1 , wherein the circumferential groove is positioned in a center section between opposing end sections having greater diameters than the center section. 3. The hub assembly of claim 1 , wherein the bearing unit includes an inner ring and an outer ring forming a pair of bearing races for a plurality of rolling elements. 4. The hub assembly of claim 3 , wherein the circumferential groove is axially aligned with the bearing unit. 5. The hub assembly of claim 4 , wherein the inner ring is positioned in a cutout in the hub and the circumferential groove is axially aligned with the inner ring. 6. The hub assembly of claim 1 , wherein the hub includes a flange formed at a transition between the first portion and the second portion, the flange configured to contact a head portion or engagement member of a bolt. 7. The hub assembly according to claim 1 , wherein the circumferential groove is configured to receive a circlip as the retainer. 8. A wheel hub system, comprising: a hub assembly including: a hub having a though-hole, a circumferential groove formed in the through-hole, and a first support surface having a first plurality of teeth, and a bearing unit positioned on the hub; a joint component secured to the hub assembly and including: a projection positioned in the through-hole and having a threaded bore and a retainer positioned in the circumferential groove, and a second support surface having a second plurality of teeth operatively engaging the first plurality of teeth; and a threaded bolt positioned in the threaded bore and securing the hub assembly to the joint component, wherein the retainer is, by being positioned in the circumferential groove, configured to hold the joint component to the hub assembly in a position in which the second plurality of teeth engage the first plurality of teeth prior to the threaded bolt being positioned in the threaded bore. 9. The wheel hub system of claim 8 , wherein the retainer is held in a groove formed in an outer surface of the projection. 10. The wheel hub system of claim 9 , wherein the retainer is a circlip. 11. The wheel hub system of claim 8 , wherein the bearing unit includes an inner ring and an outer ring forming a pair of bearing races for a plurality of rolling elements. 12. The wheel hub system of claim 11 , wherein the circumferential groove is axially aligned with the bearing unit. 13. The wheel hub system of claim 8 , wherein the first support surface faces the second support surface in an axial direction. 14. The wheel hub system of claim 13 , wherein the first support surface is configured to transfer a torque to the second support surface through the operative engagement of the first and second plurality of teeth. 15. The wheel hub system of claim 8 , wherein the joint component further includes a socket configured to receive a second joint component to form a constant velocity joint.