In　this　study,　a　novel　versatile　composite　NF　membrane　for　textile　wastewater　treatment　was　reported.　The　epsilon-Poly-L-lysine　(epsilon-PL)　and　natural　material　pyrogallic　(PG)　were　co-deposited　on　negative　charged　hydrolyzed　polyacrylonitrile　(HPAN)　substrate　by　Michael　addition/Schiff　base　reaction.　Then,　the　four-arm　polyethylene　glycol　methoxy　(4-arm-PEG)　was　firmly　immobilized　to　form　the　＂pine-shaped＂　structure　on　the　surface　of　the　modified　HPAN　substrate　owing　to　the　epsilon-PL/PG-mediated　surface,　which　was　advantageous　to　PEG-binding.　The　membrane　prepared　at　optimized　condition　(the　mass　ratio　of　epsilon-PL　to　pyrogallic　was　1:1　in　coating　solution　and　the　concentration　of　4-arm-PEG　was　0.4　g/L)achieved　a　high　permeability　(76.3　Li(m(2)　h　MPa)),　high　rejection　for　dyes　(methyl　blue　98.9%)　and　low　NaCl　rejection　(17%).　Meanwhile,　this　membrane　also　possessed　good　hydrophilicity　(35　degrees),　high　removal　rate　of　COD　(89.1%),　NH3-N　(84.5%)　and　satisfactory　antifouling　performance　(flux　recovery　ratio　85%)　in　the　long-term　operation　for　actual　textile　wastewater.　Besides,　excellent　antibacterial　activity　against　E.　coil　and　S.　aureus　was　observed　for　the　prepared　membrane.　Therefore,　the　prepared　versatile　loose　composite　NF　membrane　in　this　paper　can　be　served　as　a　potential　competitor　in　textile　wastewater　treatment.　(C)　2017　Taiwan　Institute　of　Chemical　Engineers.　Published　by　Elsevier　B.V.　All　rights　reserved.