.NET programs have two distinct start-up behaviors. They are called cold-start and warm-start. The cold-start is the slow one, you'll get it when no .NET program was started before. Or when the program you start is large and was never run before. The operating system has to find the assembly files on disk, they won't be available in the file system cache (RAM). That takes a while, hard disks are slow and there are a lot of files to find. A small do-nothing Winforms app has to load 51 DLLs to get started. A do-nothing WPF app weighs in at 77 DLLs.
You get a warm start when the assembly files were loaded before, not too long ago. The assembly file data now comes from RAM instead of the slow disk, that's zippedy-doodah. The only startup overhead is now the jitter.
There's little you can do about cold starts, the assemblies have to come of the disk one way or another. A fast disk makes a Big difference, SSDs are especially effective. Using ngen.exe to pre-jit an assembly actually makes the problem worse, it creates another file that needs to be found and loaded. Which is the reason that Microsoft recommends not prejitting small assemblies. Seeing this problem with .NET 4 programs is also highly indicated, you don't have a lot of programs that bind to the version 4 CLR and framework assemblies. Not yet anyway, this solves itself over time.
There's another way this problem automatically disappears. The Windows SuperFetch feature will start to notice that you often load the CLR and the jitted Framework assemblies and will start to pre-load them into RAM automatically. The same kind of trick that the Microsoft Office and Adobe Reader 'optimizers' use. They are also programs that have a lot of DLL dependencies. Unmanaged ones, the problem isn't specific to .NET. These optimizers are crude, they preload the DLLs when you login. Which is the 'I'm really important, screw everything else' approach to working around the problem, make sure you disable them so they don't crowd out the RAM space that SuperFetch could use.