NumPy way
Here's a vectorized NumPy way using advanced indexing

# Extract array data
In [10]: a = df.values
# Get integer based column IDs
In [11]: col_idx = np.searchsorted(df.columns, columns_to_select)
# Use NumPy's advanced indexing to extract relevant elem per row
In [12]: a[np.arange(len(col_idx)), col_idx]
Out[12]: array([ 10, 2, 3, 400])
If column names of df
are not sorted, we need to use sorter
argument with np.searchsorted
. The code to extract col_idx
for such a generic df
would be :
# https://stackoverflow.com/a/38489403/ @Divakar
def column_index(df, query_cols):
cols = df.columns.values
sidx = np.argsort(cols)
return sidx[np.searchsorted(cols,query_cols,sorter=sidx)]
So, col_idx
would be obtained like so 
col_idx = column_index(df, columns_to_select)
Further optimization
Profiling it revealed that the bottleneck was processing strings with np.searchsorted
, the usual NumPy weakness of not being so great with strings. So, to overcome that and using the special case scenario of column names being single letters, we could quickly convert those to numerals and then feed those to searchsorted
for much faster processing.
Thus, an optimized version of getting the integer based column IDs, for the case where the column names are single letters and sorted, would be 
def column_index_singlechar_sorted(df, query_cols):
c0 = np.fromstring(''.join(df.columns), dtype=np.uint8)
c1 = np.fromstring(''.join(query_cols), dtype=np.uint8)
return np.searchsorted(c0, c1)
This, gives us a modified version of the solution, like so 
a = df.values
col_idx = column_index_singlechar_sorted(df, columns_to_select)
out = pd.Series(a[np.arange(len(col_idx)), col_idx])
Timings 
In [149]: # Setup df with 26 uppercase column letters and many rows
...: import string
...: df = pd.DataFrame(np.random.randint(0,9,(1000000,26)))
...: s = list(string.uppercase[:df.shape[1]])
...: df.columns = s
...: idx = np.random.randint(0,df.shape[1],len(df))
...: columns_to_select = np.take(s, idx).tolist()
# With df.lookup from @MaxU's soln
In [150]: %timeit pd.Series(df.lookup(df.index, columns_to_select))
10 loops, best of 3: 76.7 ms per loop
# With proposed one from this soln
In [151]: %%timeit
...: a = df.values
...: col_idx = column_index_singlechar_sorted(df, columns_to_select)
...: out = pd.Series(a[np.arange(len(col_idx)), col_idx])
10 loops, best of 3: 59 ms per loop
Given that df.lookup
solves for a generic case, that's a probably a better choice, but the other possible optimizations as shown in this post could be handy as well!