Love & Hip Hop: Hollywood has certainly fulfilled peoples’ need for drama with the many storylines and plot twists so far. One of the storylines involves former B2K member, Lil Fizz and his girlfriend Amanda. Fizz is portrayed as a single dad trying to find someone to help lighten the load with his son and his girlfriend Amanda clearly does not look like the one to play step mommy. In addition to not being there as Fizz requests, she also cheated on him “with a dude from Miami”. Now we’ve all been wondering who could this mystery guy be that would make her cheat on a good and CUTE man like Fizz. Well the mystery might finally be solved.
Baller Alert did some digging and here’s what they found:
In a more recent episode Fizz says that he caught Amanda and the Miami guy in a car riding down the streets of LA. Well, Amanda posted a photo of her with another guy and many are speculating he could be the one who came between her and Fizz.
The man pictured is Jonathan Dowling, safety for the Oakland Raiders. Here’s what we know of him — He’s fine as hell! Not only that, he’s a new dad too (she’s literally only a few months old), so if Amanda wants to make it work with him, she’s going to have to play step mom either way. Jonathan is 22 years old and originally from Florida, which fits right in with the storyline. He has no photos whatsoever of Amanda on his page, but doesn’t mean he didn’t delete them. They also follow each other on Instagram, if that means anything.
Jonathan and Amanda can’t be too serious. Not with him having a 3-4month old daughter. Clearly while he was laying up in the apartment in Amanda’s name, he was hitting his baby mama too. From the looks of it he may be a rookie too, which may explain her having to put an apartment in her name in the first place. That or the fact he probably had a girl at the time and was covering his tracks. It doesn’t seem like he is still be messing with his baby mama but he could be messing with someone else, hence no trace of Amanda on his page.
MESSY!!!
*photos in gallery above*