Mr Bootie
Black Leather Ankle Boots by INTENTIONALLY BLANK
How to wear INTENTIONALLY BLANK Mr Bootie
If you prefer classic pairings, then you'll appreciate this combination of a beige fur jacket and a black maxi dress. A pair of INTENTIONALLY BLANK Mr Bootie completes this look very well.
Dress in a white crew-neck t-shirt and a black leather mini skirt, if you enjoy relaxed dressing without looking like you don't care to look boss. For a more elegant vibe, why not introduce a pair of INTENTIONALLY BLANK black leather ankle boots to the mix?
Make a black leather biker jacket and grey skinny jeans your outfit choice for a casual ensemble with a twist. You can get a little creative on the shoe front and smarten up your ensemble by sporting INTENTIONALLY BLANK black leather ankle boots.
If you enjoy a more relaxed approach to style, why not wear a black shearling jacket and black tapered pants? A pair of INTENTIONALLY BLANK Mr Bootie complements this getup quite nicely.
This combination of a grey shearling jacket and black skinny jeans is proof that a pared down off-duty getup can still be absolutely stylish. Give your ensemble a dose of polish by rocking a pair of INTENTIONALLY BLANK black leather ankle boots.
Consider wearing a white coat and navy jeans to showcase your styling smarts. Introduce black leather ankle boots to the mix and you're all done and looking spectacular.
Consider pairing a black coat with black skinny jeans to achieve an everyday look that's full of charm and personality. A pair of INTENTIONALLY BLANK Mr Bootie is the glue that will tie this look together.
This pairing of a white lace kimono and a black playsuit is indisputable proof that a safe casual outfit doesn't have to be boring. And if you wish to easily glam up this ensemble with one single item, finish with a pair of INTENTIONALLY BLANK Mr Bootie.
If the situation allows casual dressing, you can easily go for a charcoal herringbone coat and black jeans. For a more refined vibe, add a pair of INTENTIONALLY BLANK Mr Bootie from Nordstrom to the equation.