Allison B Reiss

Biosketch / Results /

Allison Reiss

Adjunct Associate Professor, Department of Medicine

Contact Info

516/663-3455
Allison.Reiss@nyumc.org

Education

— Dr. Reiss completed her Residency in Internal Medicine at Rutgers Medical School, Residency Training

Research Interests

Dr. Reiss is working on the regulation of expression of the CYP27 gene which codes for the cytochrome P450 sterol 27-hydroxylase. She is looking at the role of this enzyme in cholesterol metabolism and atherogenesis in vascular endothelium.

Cholesterol 27-Hydroxylase but Not Apolipoprotein apoE Contributes to A(2A) Adenosine Receptor Stimulated Reverse Cholesterol Transport
Bingham TC; Parathath S; Tian H; Reiss A; Chan E; Fisher EA; Cronstein BN. Cholesterol 27-Hydroxylase but Not Apolipoprotein apoE Contributes to A(2A) Adenosine Receptor Stimulated Reverse Cholesterol Transport. Inflammation. 2012 Feb ;35(1):49-57 (122556)

Regulation of foam cells by adenosine
Reiss, Allison B; Cronstein, Bruce N. Regulation of foam cells by adenosine. Arteriosclerosis, thrombosis, & vascular biology. 2012 Apr ;32(4):879-886 (162036)

Methotrexate in atherogenesis and cholesterol metabolism
Coomes, Eric; Chan, Edwin S L; Reiss, Allison B. Methotrexate in atherogenesis and cholesterol metabolism. Cholesterol. 2011 Feb 22;2011:503028-503028 (130917)

A2A adenosine receptor stimulation decreases foam cell formation by enhancing ABCA1-dependent cholesterol efflux
Bingham, Taiese Crystal; Fisher, Edward A; Parathath, Saj; Reiss, Allison B; Chan, Edwin S; Cronstein, Bruce N. A2A adenosine receptor stimulation decreases foam cell formation by enhancing ABCA1-dependent cholesterol efflux. Journal of leukocyte biology. 2010 Jan 20;87(4):683-690 (108919)

Cholesterol 27-hydroxylase but not apolipoprotein e contributes to A2A adenosine receptor enhanced reverse cholesterol transport
Bingham T.C.; Parahath S.; Reiss A.; Chan E.S.L.; Fisher E.; Cronstein B.N.. Cholesterol 27-hydroxylase but not apolipoprotein e contributes to A2A adenosine receptor enhanced reverse cholesterol transport [Meeting Abstract]. Arthritis & rheumatism. 2009 ;60:433-433 (130321)