Pneumatic tire

The invention claimed is: 1. A pneumatic tire comprising a tread portion having an outside tread edge and an inside tread edge to be positioned outside and inside, respectively, with respect to a vehicle, wherein the tread portion is provided with four main grooves extending straight continuously in the tire circumferential direction to axially divide the tread portion into five land regions, the four main grooves are an outside shoulder main groove adjacent to the outside tread edge, an inside shoulder main groove adjacent to the inside tread edge, an inside crown main groove adjacent to the inside shoulder main groove, and an outside crown main groove adjacent to the outside shoulder main groove, and the five land regions are an inside shoulder land region between the inside tread edge and the inside shoulder main groove, an inside middle land region between the inside shoulder main groove and the inside crown main groove, a crown land region between the inside crown main groove and the outside crown main groove, an outside middle land region between the outside crown main groove and the outside shoulder main groove, and an outside shoulder land region between the outside shoulder main groove and the outside tread edge, and wherein the outside shoulder main groove has a groove width smaller than groove widths of the inside shoulder main groove and the inside and outside crown main grooves, the inside shoulder land region is provided with a plurality of inside shoulder lateral grooves extending axially inwardly from the inside tread edge and terminating within the inside shoulder land region, each of the five land regions is provided with a plurality of sipes each extending across the entire width of the land region while having a width of less than 3 mm, and the crown land region is provided with crown sipes each made up of a central portion inclined with respect to the tire axial direction to one direction, and an end portion extending from each end in the tire axial direction of the central portion while inclining with respect to the tire axial direction in a direction opposite to that of the central portion, wherein the inside middle land region is provided with inside middle sipes, and each of the inside middle sipes extends straight while inclining to the same direction as the end portions of said crown sipes, the inside middle land region is provided with only said inside middle sipes and not provided with any grooves, and the crown land region is provided with only said crown sipes and not provided with any grooves. 2. The pneumatic tire according to claim 1 , wherein the crown land region is provided with no grooves having a width of 3 mm or more. 3. The pneumatic tire according to claim 2 , wherein a depth of said central portion is smaller than a depth of said end portion. 4. The pneumatic tire according to claim 1 , wherein the groove width of the outside shoulder main groove is not less than 0.2 times and not more than 0.6 times the groove width of the inside shoulder main groove, the groove width of the crown main grooves is not less than 2.0 times and not more than 3.0 times the groove width of the outside shoulder main groove, and the total of the groove widths of all of the main grooves is in a range from 0.27 to 0.33 times a tread width of the tread portion measured between the outside tread edge and the inside tread edge. 5. The pneumatic tire according to claim 1 , wherein a distance in the tire axial direction from the axially inner end of each of the inside shoulder lateral grooves to the inside tread edge is not less than 0.70 times and not more than 0.85 times the width in the tire axial direction of the inside shoulder land region. 6. The pneumatic tire according to claim 1 , wherein each of the inside shoulder lateral grooves has a depth gradually decreased toward its axially outer end, and comprises a main portion of which depth is smoothly changed, and an axially inner portion of which depth is changed rapidly in comparison with the main portion and which is positioned on the axially inside of the main portion. 7. The pneumatic tire according to claim 3 , wherein the shallow portion of the central portion of said crown sipe opens at the tread to have an opening width, and the end portion of said crown sipe comprises a radially outer first portion which opens at the tread to have an opening width same as the opening width of the shallow portion, and a radially inner second portion extending radially inwardly from the first portion toward the bottom of the crown sipe while having a width smaller than the opening width of the shallow portion. 8. The pneumatic tire according to claim 1 , wherein the outside shoulder land region is provided with outside shoulder sipes that are inclined with respect to the tire axial direction in the same direction as outside middle sipes disposed in the outside middle land region so that each of the outside shoulder sipes and one of the outside middle sipes are arranged in a straight line or alternatively a smoothly slightly curved line. 9. The pneumatic tire according to claim 1 , wherein in each of the crown sipes, the central portion is inclined at a constant angle θ 2 in a range from 60 to 70 degrees with respect to the tire axial direction, and the end portions are inclined at a constant angle θ 3 in a range from 15 to 25 degrees with respect to the tire axial direction. 10. A pneumatic tire comprising: a tread portion having an outside tread edge and an inside read edge to be positioned outside and inside, respectively, with respect to a vehicle, wherein the tread portion is provided with four main grooves extending straight continuously in the tire circumferential direction to axially divide the tread portion into five land regions, the four main grooves are an outside shoulder main groove adjacent to the outside tread edge, an inside shoulder main groove adjacent to the inside tread edge, an inside crown main groove adjacent to the inside shoulder main groove, and an outside crown main groove adjacent to the outside shoulder main groove, and the five land regions are an inside shoulder land region between the inside tread edge and the inside shoulder main groove, an inside middle land region between the inside shoulder main groove and the inside crown main groove, a crown land region between the inside crown main groove and the outside crown main groove, an outside middle land region between the outside crown main groove and the outside shoulder main groove, and an outside shoulder land region between the outside shoulder main groove and the outside tread edge, and wherein the outside shoulder main groove has a groove width smaller than groove widths of the inside shoulder main groove and the inside and outside crown main grooves, the inside shoulder land region is provided with a plurality of inside shoulder lateral grooves extending axially inwardly from the inside tread edge and terminating within the inside shoulder land region, each of the five land regions is provided with a plurality of sipes each extending across the entire width of the land region while having a width of less than 3 mm, and the crown land region is provided with crown sipes each made up of a central portion inclined with respect to the tire axial direction to one direction, and an end portion extending from each end in the tire axial direction of the central portion while inclining with respect to the tire axial direction in, a direction opposite to that of the central portion, wherein the outside shoulder land region is provided with a plurality of outside shoulder lateral grooves extending between the outside