L. J. Knoff scite author profile

The mechanism(s) through which smoking influences the progression of atherosclerosis is poorly understood. Recent evidence suggests that oxidants present in the gas phase of cigarette smoke are involved. We exposed human plasma to the filtered gas phase of cigarette smoke to assess its effects on plasma components involved in the antiatherogenic reverse cholesterol transport pathway. In our model, freshly isolated plasma (24 mL) was exposed to filtered air or gasphase cigarette smoke for up to 6 hours at 37°C. Lecithincholesterol acyltransferase (LCAT) activity was dramatically inhibited by cigarette smoke. A single 15-minute exposure to the smoke from an eighth of a cigarette was sufficient to reduce LCAT activity by 7%; additional exposures resulted in further decreases in activity. At 6 hours, only 22% of control LCAT activity remained in plasma exposed to smoke. Compared with control, gas-phase cigarette smoke-exposed plasma possessed high-density lipoprotein (HDL) with increased (16%) negative charge and with cross-linked apolipoproteins AI and AIL These data demonstrate that gas-phase cigarette smoke can inhibit a key enzyme (LCAT) and modify an integral lipid transport particle (HDL) that are essential components for the normal function of the reverse cholesterol transport pathway. Gas-phase cigarette smoke-induced modification of the reverse cholesterol transport pathway may provide a new mechanistic link between cigarette smoke and coronary heart disease risk. plasma high-density lipoprotein (HDL) concentrations are inversely correlated with coronary heart disease risk.

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Relative sensitivities of plasma lecithin:cholesterol acyltransferase, platelet-activating factor acetylhydrolase, and paraoxonase to in vitro gas-phase cigarette smoke exposure

Bielicki

Knoff

Tribble

et al. 2001

Atherosclerosis

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Structural relationships between nascent apoA-I-containing particles that are extracellularly assembled in cell culture

Forte

Bielicki

Knoff

et al. 1996

Journal of Lipid Research

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Surfaces of cryosections: is cryosectioning ‘cutting’ or ‘fracturing’?

Kirk¹,

Knoff²,

Lee³

1991

Journal of Microscopy

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SUMMARY In order to determine if cryosectioning involves ‘fracturing’ or ‘cutting’ we examined the surfaces obtained in cryosectioning by a metal‐replicating procedure commonly used in freeze‐fracture microscopy. Platinum‐carbon replicas were made of the surfaces of both the sections and the complementary surfaces of the sample stubs from which the sections were cut. When samples of frozen red cells were sectioned at −120°C with large knife advancements (1 μm), the chips produced did not resemble sections. Membrane fracture faces, produced by splitting of the lipid bilayer, were found in electron micrographs of replicas of the sample stubs. This demonstrates that a cryomicrotome can be used to produce large intact replicas. When dull knives were used with small knife advancements, both smooth and fractured regions were found. The sections produced with dull knives had a snowflake appearance in the light microscope. When sharp knives were used with small advancements (0·1 μm), replicas of the surfaces were free of fracture faces and the sections had a cellophane‐like appearance in the light microscope. Therefore, in cryosectioning a different process other than ‘fracturing’ is responsible. This ‘cutting’ process may be micromelting of a superficial layer by the mechanism of melting‐point depression from the pressure exerted by the sharp edge of the knife.

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L. J. Knoff

Modification of LCAT activity and HDL structure. New links between cigarette smoke and coronary heart disease risk.

Relative sensitivities of plasma lecithin:cholesterol acyltransferase, platelet-activating factor acetylhydrolase, and paraoxonase to in vitro gas-phase cigarette smoke exposure

Structural relationships between nascent apoA-I-containing particles that are extracellularly assembled in cell culture

Surfaces of cryosections: is cryosectioning ‘cutting’ or ‘fracturing’?

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