Formation-engaging structures having retention features, earth-boring tools including such structures, and related methods

What is claimed is: 1. An earth-boring tool, comprising: a body with a receptacle for accepting a formation-engaging structure; a retainer bore accepting a retaining element, the retainer bore extending along a generally linear path through the body of the earth-boring tool and contiguous with a retainer recess intersecting a sidewall of the receptacle; and a formation-engaging structure disposed within the receptacle of the body of the earth-boring tool, the formation-engaging structure comprising: a formation-engaging portion disposed at a distal end; a side surface between a proximal end and the distal end along a central axis of the formation-engaging structure; and at least one recess in the side surface, wherein a portion of the retaining element is adjacent a surface of the formation-engaging structure protruding into the at least one recess and adjacent the retainer recess, and wherein the at least one recess in the side surface of the formation-engaging structure is located and configured such that rotation of the formation-engaging structure within the receptacle about a central longitudinal axis of the formation-engaging structure causes the at least one recess to bear against the retaining element and the formation-engaging structure to move in a direction along the central longitudinal axis of the formation-engaging structure relative to the receptacle of the body. 2. The earth-boring tool of claim 1 , wherein the retaining element is an elongated pin. 3. The earth-boring tool of claim 2 , wherein the retaining element comprises a resilient material coiled about a longitudinal axis. 4. The earth-boring tool of claim 1 , wherein the at least one recess in the side surface of the formation-engaging structure comprises an arcuate transverse cross-sectional shape. 5. The earth-boring tool of claim 1 , wherein the formation-engaging structure further comprises at least one feature configured to interface with a tool adapted to apply torque, the at least one feature disposed in at least one of the side surface and the formation-engaging portion. 6. The earth-boring tool of claim 1 , wherein the side surface of the formation-engaging structure is substantially cylindrical, and wherein the at least one recess in the side surface comprises: a generally linear recess in the side surface extending along an axis oriented at a non-parallel angle relative to the central axis of the formation-engaging structure; and a generally helical recess in the side surface, the generally helical recess intersecting the generally linear recess. 7. The earth-boring tool of claim 6 , wherein the non-parallel angle is an angle of between about forty-five degrees (45°) and about one hundred thirty-five degrees (135°). 8. The earth-boring tool of claim 7 , wherein the non-parallel angle is an angle of about ninety degrees (90°). 9. The earth-boring tool of claim 6 , wherein the generally helical recess extends around about one hundred eighty degrees (180°) or less of a circumference of the formation-engaging structure. 10. The earth-boring tool of claim 9 , wherein the generally helical recess extends around about ninety degrees (90°) or less of the circumference of the formation-engaging structure. 11. The earth-boring tool of claim 6 , wherein the generally linear recess intersects the generally helical recess at a distal end of the generally helical recess. 12. The earth-boring tool of claim 6 , wherein the generally linear recess intersects the generally helical recess at a proximal end of the generally helical recess. 13. The earth-boring tool of claim 6 , wherein the generally helical recess comprises an arcuate transverse cross-sectional shape. 14. The earth-boring tool of claim 1 , wherein the earth-boring tool is a fixed-cutter drill bit. 15. An earth-boring tool, comprising: a body with a receptacle for accepting a formation-engaging structure; a retainer bore accepting a retaining element, the retainer bore extending along a generally linear path through the body of the earth-boring tool and contiguous with a retainer recess intersecting a sidewall of the receptacle; and a formation-engaging structure disposed within the receptacle of the body of the earth-boring tool, the formation-engaging structure comprising: a formation-engaging portion at a distal end; a generally cylindrical side surface between a proximal end and the distal end along a central axis of the formation-engaging structure; a generally linear recess in the generally cylindrical side surface extending along an axis oriented with a non-parallel angle relative to the central axis of the formation-engaging structure; and a generally helical recess in the generally cylindrical side surface, the generally helical recess intersecting the generally linear recess, wherein a portion of the retaining element is adjacent a surface of the formation-engaging structure protruding into the generally helical recess, and wherein the generally linear recess and the generally helical recess are located and configured such that rotation of the formation-engaging structure within the receptacle of the body about a central longitudinal axis of the formation-engaging structure causes one or more of the generally linear recess and the generally helical recess to bear against the retaining element and the formation-engaging structure to move in a direction along the central longitudinal axis of the formation-engaging structure relative to the receptacle of the body. 16. The earth-boring tool of claim 15 , wherein the generally linear recess comprises a cross-sectional shape with a constant radius of curvature. 17. The earth-boring tool of claim 16 , wherein the generally helical recess comprises a cross-sectional shape with a constant radius of curvature greater than the radius of curvature of the cross-sectional shape of the generally linear recess. 18. A method of forming an earth-boring tool, comprising: providing a body with a receptacle for accepting a formation-engaging structure and a retainer bore for accepting a retaining element, the retainer bore extending through the body along a substantially linear path and comprising a retainer recess intersecting a sidewall of the receptacle; inserting a proximal end of a formation-engaging structure into the receptacle with a distal end comprising a formation-engaging portion protruding from the body; and inserting a retaining element into the retainer bore and the retainer recess adjacent a recess in a side surface of the formation-engaging structure, wherein the recess in the side surface of the formation-engaging structure is located and configured such that rotation of the formation-engaging structure within the receptacle of the body about a central longitudinal axis of the formation-engaging structure causes the recess in the side surface of the formation-engaging structure to bear against the retaining element and the formation-engaging structure to move in a direction along the central longitudinal axis of the formation-engaging structure relative to the receptacle of the body. 19. The method of claim 18 , wherein inserting a proximal end of a formation-engaging structure into the receptacle comprises inserting a proximal end of a formation-engaging structure having a generally helical recess in the side surface and a generally linear recess in the side surface in intersecting relationship and inserting the retaining element adjacent a portion of the generally linear recess. 20. The method of claim 19 , w