Human bile salt-dependent lipase efficiency on medium-chain acyl-containing substrates: control by sodium taurocholate.

Bile salt-dependent lipase was purified to homogeneity from lyophilized human milk and used to screen the influence of the acyl chain length (2-16 carbon atoms) on the kinetic constants k(cat) and K(m) of the hydrolysis of para-nitrophenyl (pnp) ester substrates in the presence or absence of sodium taurocholate (NaTC: 0.02-20 mM). The highest k(cat) value (∼3,500 s(-1)) was obtained with pnpC(8) as substrate, whereas the lowest K(m) (<10 µM) was that recorded with pnpC(10). In the absence of NaTC, the maximal catalytic efficiency (k(cat)/K(m)) was obtained with pnpC(8), while in the presence of NaTC k(cat)/K(m) was maximal with pnpC(8), pnpC(10) or pnpC(12). The bile salt activated the enzyme in two successive saturation phases occurring at a micromolar and a millimolar concentration range, respectively. The present data emphasize the suitability of this enzyme for the hydrolysis of medium-chain acyl-containing substrates and throw additional light on how BSDL is activated by NaTC.

Citation

Hervé Fontbonne, Lydie Brisson, Alain Vérine, Antoine Puigserver, Dominique Lombardo, El Hassan Ajandouz. Human bile salt-dependent lipase efficiency on medium-chain acyl-containing substrates: control by sodium taurocholate. Journal of biochemistry. 2011 Feb;149(2):145-51

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PMID: 21081507

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