Mechanisms of Amine Accumulation in, and Egress from, Lysosomes

Goldman, Stephen D.B.; Funk, Ryan S.; Rajewski, Roger A.; Krise, Jeffrey P.

doi:10.4155/bio.09.128

Cited by 90 publications

(93 citation statements)

References 64 publications

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“…The rapid reversibility of lysosomal trapping of a lipophilic amine is shown by the effects of asphyxiating rats with carbon dioxide, which slightly acidifies the blood and causes a slight decrease in tissue levels and an increase in plasma drug levels (Angus et al, 2008). Although passive diffusion is one mechanism by which lipophilic amines can exit lysosomes, there are other mechanisms by which this can occur, namely mechanisms more relevant for the recycling of phospholipidbound drugs (Goldman et al, 2009).…”

Section: Discussionmentioning

confidence: 99%

Lysosomal Sequestration (Trapping) of Lipophilic Amine (Cationic Amphiphilic) Drugs in Immortalized Human Hepatocytes (Fa2N-4 Cells)

et al. 2013

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Lipophilic (logP > 1) and amphiphilic drugs (also known as cationic amphiphilic drugs) with ionizable amines (pK a > 6) can accumulate in lysosomes, a process known as lysosomal trapping. This process contributes to presystemic extraction by lysosome-rich organs (such as liver and lung), which, together with the binding of lipophilic amines to phospholipids, contributes to the large volume of distribution characteristic of numerous cardiovascular and central nervous system drugs. Accumulation of lipophilic amines in lysosomes has been implicated as a cause of phospholipidosis. Furthermore, elevated levels of lipophilic amines in lysosomes can lead to high organ-to-blood ratios of drugs that can be mistaken for active drug transport. In the present study, we describe an in vitro fluorescence-based method (using the lysosome-specific probe LysoTracker Red) to identify lysosomotropic agents in immortalized hepatocytes (Fa2N-4 cells). A diverse set of compounds with various physicochemical properties were tested, such as acids, bases, and zwitterions. In addition, the partitioning of the nonlysosomotropic atorvastatin (an anion) and the lysosomotropics propranolol and imipramine (cations) were quantified in Fa2N-4 cells in the presence or absence of various lysosomotropic or nonlysosomotropic agents and inhibitors of lysosomal sequestration (NH 4 Cl, nigericin, and monensin). Cellular partitioning of propranolol and imipramine was markedly reduced (by at least 40%) by NH 4 Cl, nigericin, or monensin. Lysosomotropic drugs also inhibited the partitioning of propranolol by at least 50%, with imipramine partitioning affected to a lesser degree. This study demonstrates the usefulness of immortalized hepatocytes (Fa2N-4 cells) for determining the lysosomal sequestration of lipophilic amines.

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Section: Discussionmentioning

confidence: 99%

Lysosomal Sequestration (Trapping) of Lipophilic Amine (Cationic Amphiphilic) Drugs in Immortalized Human Hepatocytes (Fa2N-4 Cells)

et al. 2013

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“…Antipsychotics can be classifi ed as hydrophobic amine or cationic amphiphile/ amphipath drugs, as they are positively charged by virtue of an amine group that can be protonated, and they display both hydrophilic and hydrophobic properties. It is well recognized that many amines have a strong propensity to specifi cally and substantially accumulate in highly acidic intracellular compartments, such as lysosomes, through a mechanism referred to as ion trapping ( 48 ). In their unionized form, weak basic amines are relatively membrane permeable, but they are membrane impermeable in their ionized conjugate acidic state ( 48 ).…”

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confidence: 99%

“…It is well recognized that many amines have a strong propensity to specifi cally and substantially accumulate in highly acidic intracellular compartments, such as lysosomes, through a mechanism referred to as ion trapping ( 48 ). In their unionized form, weak basic amines are relatively membrane permeable, but they are membrane impermeable in their ionized conjugate acidic state ( 48 ). Some antipsychotic and antidepressant drugs have been shown to extensively accumulate in lysosomes ( 49,50 ).…”

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Atypical antipsychotics alter cholesterol and fatty acid metabolism in vitro

Canfrán‐Duque

Casado

Pastor

et al. 2013

Journal of Lipid Research

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The antipsychotic actions of classic neuroleptics (typical or fi rst-generation antipsychotics, FGA) revolutionized the therapy of schizophrenia, but their extensive use has been impeded by side effects, such as extrapyramidal symptoms, and a high incidence of nonresponders. FGAs, such as haloperidol, act predominantly by blocking dopamine D 2 receptors ( 1 ). Atypical or second-generation antipsychotics (SGA) display relatively weaker antagonism of dopamine D 2 receptors but potent antagonism to serotonin 5-HT 2A receptors ( 1 ). The therapeutic use of SGAs has reduced concern on neurological side effects, but they are not free of metabolically adverse effects. An increase in body weight is fairly rapid after initiating treatment with these drugs. At long term, this may result in overt obesity, along with dyslipidemia, insulin resistance, abnormal glucose tolerance, and diabetes ( 2-4 ). Dyslipidemia is commonly manifested as an increase in total triglyceride and a decrease of high-density lipoprotein (HDL)-cholesterol plasma

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“…As such, the prolonged receptor internalisation caused by C26 may provide an additional mechanism of long duration of action at the β 2 adrenoceptor, which may be further exploited by targeting drugs to intracellular compartments e.g. by incorporating physiochemical properties that facilitate ion trapping (Goldman et al, 2009). …”

Section: Discussionmentioning

confidence: 99%

Long Receptor Residence Time of C26 Contributes to Super Agonist Activity at the Human β₂ Adrenoceptor

et al. 2016

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Mechanisms of Amine Accumulation in, and Egress from, Lysosomes

Cited by 90 publications

References 64 publications

Lysosomal Sequestration (Trapping) of Lipophilic Amine (Cationic Amphiphilic) Drugs in Immortalized Human Hepatocytes (Fa2N-4 Cells)

Lysosomal Sequestration (Trapping) of Lipophilic Amine (Cationic Amphiphilic) Drugs in Immortalized Human Hepatocytes (Fa2N-4 Cells)

Atypical antipsychotics alter cholesterol and fatty acid metabolism in vitro

Long Receptor Residence Time of C26 Contributes to Super Agonist Activity at the Human β₂ Adrenoceptor

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Mechanisms of Amine Accumulation in, and Egress from, Lysosomes

Cited by 90 publications

References 64 publications

Lysosomal Sequestration (Trapping) of Lipophilic Amine (Cationic Amphiphilic) Drugs in Immortalized Human Hepatocytes (Fa2N-4 Cells)

Lysosomal Sequestration (Trapping) of Lipophilic Amine (Cationic Amphiphilic) Drugs in Immortalized Human Hepatocytes (Fa2N-4 Cells)

Atypical antipsychotics alter cholesterol and fatty acid metabolism in vitro

Long Receptor Residence Time of C26 Contributes to Super Agonist Activity at the Human β2 Adrenoceptor

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Long Receptor Residence Time of C26 Contributes to Super Agonist Activity at the Human β₂ Adrenoceptor