DOS can be thought of as a library used to provide a files/directories abstraction for the PC (-and a bit more).
int 21h is a simple hardware "trick" that makes it easy to call code from this library without knowing in advance where it will be located in memory. Alternatively, you can think of this as the way to utilise the DOS API.
Now, the topic of software interrupts is a complex one, partly because the concepts evolved over time as Intel added features to the x86 family, while trying to remain compatible with old software. A proper explanation would take a few pages, but I'll try to be brief.
The main question is whether you are in real mode or protected mode.
Real mode is the simple, "original" mode of operation for the x86 processor. This is the mode that DOS runs in (when you run DOS programs under Windows, a real mode processor is virtualised, so within it the same rules apply). The currently running program has full control over the processor.
In real mode, there is a vector table that tells the processor which address to jump to for every interrupt from 0 to 255. This table is populated by the BIOS and DOS, as well as device drivers, and sometimes programs with special needs. Some of these interrupts can be generated by hardware (e.g. by a keypress). Others are generated by certain software conditions (e.g. divide by 0). Any of them can be generated by executing the
int n instruction.
Programs can set/clear the "enable interrupts" flag; this flag affects hardware interrupts only and does not affect
The DOS designers chose to use interrupt number 21h to handle DOS requests - the number is of no real significance: it was just an unused entry at the time. There are many others (number 10h is a BIOS-installed interrupt routine that deals with graphics, for instance). Also note that all this is for IBM PC compatibles only. x86 processors in say embedded systems may have their software and interrupt tables arranged quite differently!
Protected mode is the complex, "security-aware" mode that was introduced in the 286 processor and much extended on the 386. It provides multiple privilege levels. The OS must configure all of this (and if the OS gets it wrong, you have a potential security exploit). User programs are generally confined to a "minimal privilege" mode of operation, where trying to access hardware ports, or changing the interrupt flag, or accessing certain memory regions, halts the program and allows the OS to decide what to do (be it terminate the program or give the program what it seems to want).
Interrupt handling is made more complex. Suffice to say that generally, if a user program does a software interrupt, the interrupt number is not used as a vector into the interrupt table. Rather a general protection exception is generated and the OS handler for said exception may (if the OS is design this way) work out what the process wants and service the request. I'm pretty sure Linux and Windows have in the past (if not currently) used this sort of mechanism for their system calls. But there are other ways to achieve this, such as the SYSENTER instruction.