There are couple of reasons behind the idea of interrupt
i.CPU Cycles & Power Efficient
Now imagine you have a project that process the data coming from an UART peripheral, here you have two options; you will either poll continously to see if any data received from UART channel or you will set the corresponding interrupt and the cpu will call the related interrupt subroutine whenever data is received from the channel.
As it is stated, with the polling methode CPU must work non-stop, which is really dumb because instead of working continously for an internal peripheral it could just easily do some other job(like waiting for TCP Reception or something that can't be done via IRQ) or simply go to low-power mode and wait for the IRQ to kick in.
ii.)Task Prioritizing & Precision (This ,I believe, the most important)
In any programming language, if you don't use exception handling, Prioritizing the stuff takes too much effort both for the programmer and the CPU resources.And actually more than that its quite impossible to do so since as your program grows bigger and bigger, you won't have any space in the main loops to do what you want when you want. If your program is calculating the fourier transforms of a multi dimensional array for example, it will simply ignore any other things.(ADC readings, Incoming Data Transmissions etc.) This is where prioritizing takes place. Using Interrupts you can actually decide what & when happens for each scenerio you may face.
Also for the tasks that require precise timing events can not be accomplished without interrupts. Even the most simple tasks such as incrementing a counter in every 'x' milliseconds can become the hardest thing you have ever faced :P . And most of the time the experiment to do such a thing without using interrupts end up finding out that the millisecond 'x' is shifting between some boundary.