NGC 300 is a low-mass disk galaxy in the Sculptor group. In the literature, it has been identified as a pure exponential disk galaxy, as its luminosity profile could be well fitted with a single exponential law over many disk scale lengths (Type I). We investigate the stellar luminosity distribution of NGC 300 using $Hubble$ $Space$ $Telescope$ (HST) archive data, reaching farther and deeper than any other previous studies. Color magnitude diagrams show a significant population of old red giant branch (RGB) stars in all fields out to $Rsim19$ kpc ($32$), as well as younger populations in the inner regions. We construct the density profiles of the young, intermediate-aged, and old stellar populations. We find two clear breaks in the density profiles of the old RGB and intermediate-aged stars: one down-bending (Type II) at $Rsim5.9$ kpc, and another up-bending (Type III) at $Rsim8.3$ kpc. Moreover, the old RGB stars exhibit a negative radial color gradient with an up-bending at $Rsim8$~kpc, beyond which the stellar populations are uniformly old ($>$7~Gyr) and metal-poor ($rm[Fe/H] = -1.6^{+0.2}_{-0.4}$ dex). The outer stellar component at $Rgtrapprox8$ kpc is, therefore, well separated from the inner disk in terms of the stellar density and stellar populations. While our results cast doubt on the currently established wisdom that NGC,300 is a pure exponential disk galaxy, a more detailed survey should be carried out to identify the outskirts as either a disk or a stellar halo.