Binding potential

In pharmacokinetics and receptor-ligand kinetics the binding potential (BP) is a combined measure of the density of "available" neuroreceptors and the affinity of a drug to that neuroreceptor.

Description

Consider a ligand receptor binding system. Ligand with a concentration L associates with a receptor of concentration or availability R to form a ligand-receptor complex with concentration RL. The binding potential is then the ratio ligand-receptor complex to free ligand at equilibrium and in the limit of L tending to 0, and is given symbol BP:

BP=\frac{RL}{L}\bigg|_{L\approx0}

This quantity, originally defined by Mintun,[1] describes the capacity of a receptor to bind ligand. It is a limit (L << Ki) of the general receptor association equation:

RL=\frac{RL}{L+Ki}

and is thus also equivalent to:

BP=\frac{R}{K_i}

These equations apply equally when measuring the total receptor density or the residual receptor density available after binding to second ligand - availability.

BP in Positron Emission Tomography

BP is a pivotal measure in the use of positron emission tomography (PET) to measure the density of "available" receptors, e.g. to assess the occupancy by drugs or to characterize neuropsychiatric diseases (yet, one should keep in mind that binding potential is a combined measure that depends on receptor density as well as on affinity). An overview of the related methodology is e.g. given in Laruelle et al. (2002).[2] Estimating BP with PET usually requires that a reference tissue is available. A reference tissue has negligible receptor density and its distribution volume should be the same as the distribution volume in the target region if all receptors were blocked. Although the BP can be measured in a relatively unbiased way by measuring the whole time course of labelled ligand association and blood radioactivity, this is practically not always necessary. Two other common measures have been derived, which involve assumptions, but result in measures that should correlate with BP: BP_1 and BP_2.

Definitions and Symbols

While BP_1 and BP_2 are nonambiguous symbols, BP is not. There are many publications in which BP denotes BP_2. Generally, if there were no arterial samples ("noninvasive imaging"), BP denotes BP_2.

B_{max}: Total density of receptors = R+RL. In PET imaging, the amount of radioligand is usually very small (L << Ki, see above), thus B_{max} \approx R

k_3 and k_4: Transfer rate constants from the two tissue compartment model.

NEW NOTATIONAL CONVENTIONS: In Innis et al.,[3] a large group of researchers who are active in this field agreed to a consensus nomenclature for these terms, with the intent of making the literature in this field more transparent to non-specialists. The convention involves use of the subscripts p for quantities referred to plasma and ND for quantities referred to the free plus nonspecifically bound concentration in brain (NonDisplaceable). Under the consensus nomenclature, the parameters referred to above as f1 and BP1 are now called fp and BPp, while f2 and BP2 are called fND and BPND.

See also

References

  1. Mark A. Mintun, Marcus E. Raichle, Michael R. Kilbourn, G. Frederick Wooten, Michael J. Welch (March 1984). "A quantitative model for the in vivo assessment of drug binding sites with positron emission tomography". Annals of Neurology 15 (3): 217–227. doi:10.1002/ana.410150302. PMID 6609679.
  2. Marc Laruelle, Mark Slifstein, Yiyun Huang (July 2002). "Positron emission tomography: imaging and quantification of neurotransporter availability". Methods 27 (3): 287–299. doi:10.1016/S1046-2023(02)00085-3. PMID 12183117.
  3. Innis et al., Consensus nomenclature for in vivo imaging of reversibly binding radioligands, J. Cereb Blood Flow and Metab. 2007, 27(9) 1533-1539
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