Sure thing. The formula itself is confusing since it's not apparent the goal.

One point you might be missing is that the formula is a shortcut for manual conversion. So you plug in all values as is with no need for conversion. So X ng/uL is actually (X ng/uL) as a single variable, not a variable with units.

So the x10^6 is the correction factor to account for inputting variables with mismatched units.

May also help to consider the real formula for converting from mass/volume to molarity(moles/volume) using molar mass (mass/moles):

(mass/volume) x (moles/mass) = (moles/volume) = M

So doing manually you will need to convert mass and volume units to make them equivalent.

In summary:

filling in the variables, units mismatch, equation not balanced.

(ng/uL) x (moles/g) != (nmole/L)

expand unit prefix

(10^-9 g / 10^-6 L) x (moles/g) != (10-9 mole / L)

simplify

(10^-3 g / L) x (moles / g) != (10^-9 mole / L)

(10^-3 moles / L) != (10^-9 mole / L)

(mmoles / L) != (nmole/L)

convert mmole to nmole

(mmole / L) x (10^e6 nmole / mmole) = (nmole/L)

So you can see the x10^6 constant comes from simplifying/shortcutting the conversion steps. Another way to think about it is to simplify all the constants you would multiply by to converts units (e.g. (1g/10^9 ng) x (10^6 uL / 1L) x (10^9 nmole / mole) => cancel units from actual equation = x10^6

Edit: corrected some math.