I built a very similar amplifier that works up to 1 GHz. I used the 2SC3356 transistor which has fT=7 GHz. I used a nonresonant RC coupling, it can be done. It requires careful attention to layout and I used 0805 resistors/capacitors as a compromise so that they would large enough to handle, but could be placed close enough to minimize parasitics.
I made a board with my various circuits on it. I made it so it can be populated by JLCPCB (though parts may need to be substituted because I put the BOM in so long ago).
http://www.github.com/profdc9/RFUtilityKnife/I use Qucs-S to simulate the circuit and to simulate what the effects of various parasitics might be.
This is a UHF probe amplifier I designed. For a common-collector front-end, it is important to have a series resistor near the input base. The emitter-base capacitance and the emitter lead inductance can form a series resonant circuit that can oscillate the base voltage, and so adding the resistor dampens this resonance. Basically this is a cascaded common-collector to provide a high impedance input, common-emitter to provide voltage gain, and common-collector to provide a low impedance output with an output pad for a better wideband match.
This is an amplifier I designed that is similar to the above but it uses input termination which does increase the noise figure (probably to about 5 dB or so). So this isn't going to be lowest noise LNA if that's what you're looking for, and you will need a passive matching circuit to the high input impedance of the amplifier. I tried a common-base amplifier here too but it can get down to about 3 dB noise figure, but not much lower.
I also attached some simple 2N3904 amplifier circuits I simulated for HF that might also give you other ideas. I was doing a study of noise figure of different configurations.
You may be able to "dead bug" a 150 MHz amplifier but it may be difficult. I remember in college dead-bugging a 100 MHz amplifier and it worked, so possibly 150 MHz is doable as well.
Dan