Let me start by saying there's not one right answer to this: there are an infinite number of solutions that will frame any set of points if you allow any arbitrary rotation on the camera as well as movement. I'm not clear on your other needs so, I'll sketch out a solution that will work using a camera angle you've already got, since it's hard to know what alternative would work for your application. It would be easy to add a default orientation before doing the steps below if you wanted, say, a camera at 45, 45, 0 degrees, or one that was oriented along the normal of the plane. More than that will depend on your application. So, bear in mind that this is a partial solution: *it will frame the points but it's not guaranteed to put them in the corners.*

**move the camera**
You can get the place where your camera is looking by sending a ray along the camera's forward vector and intersecting it with the plane on which your points lie (not the geometry of the plane - the mathematical plane). You can frame your target by getting the world-space distance from that intersection to the center of your target points and then offsetting the camera's position by the difference. You can create the ray with the camera's ViewportPointToRay method using (.5, .5, 0) as the value to run a ray through the middle of the camera. Quickie example code for finding the ray-plane intersection here.

**scale the camera**
The ray + move will have your camera centered on your target points. To fit the camera to them, you should transform all of your target points into viewport coords using the camera's WorldToViewportPoint method. That will let you see how much you need to expand or shrink the viewport to fit all of the points. You may find it easier if you multiply the viewport coordinates by 2 and subtract 1 from the x and y components : that will set your data up so 0 is the center of the screen, -1,-1 is the bottom left and 1,1 is the top right corner of the screen. The largest XY bounds of these points will give you the scale factor to apply to your ortho size. Theres a similar technique here

That should be most of it - I'm leaving out details like the third dimension of the camera position (it sort of does not matter for an ortho camera, particularly if you're trying to frame points that lie on the XZ plane of the world) and clip planes. But hopefully this is enough to work it out.