Jorma J. Ohisalo scite author profile

Jorma J. Ohisalo

4Publications

136Citation Statements Received

85Citation Statements Given

How they've been cited

190

121

How they cite others

114

Affiliations

University of Helsinki, Helsinki University Hospital, Hershey (United States)

Publications

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Adenosine, thyroid status and regulation of lipolysis

Ohisalo¹,

Stouffer²

1979

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Adipocytes from hypothyroid rats do not respond to adrenaline with increased glycerol release. Adenosine deaminase largely restores lipolytic sensitivity. This effect is reversed by 2-deoxycoformycin, an inhibitor of the enzyme, and by N6-(phenylisopropyl)adenosine, which is not deaminated. Lipolytic response of normal cells to adrenaline is only 50% inhibited by phenylisopropyladenosine, whereas in cells from hypothyroid rats blockage is total. Inhibition of 50% was seen at 100 and 1 nM concentrations respectively. Insensitivity to adrenaline of hypothyroid-rat adipocytes can, at least partly, be explained by increased sensitivity to adenosine.

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Hormone sensitive lipase expression and adipose tissue metabolism show gender difference in obese subjects after weight loss

et al. 2002

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OBJECTIVE:The effect of weight reduction on hormone sensitive lipase (HSL) and lipoprotein lipase (LPL) gene expression and their relationship with adipose tissue metabolism were studied in massively obese men and women. SUBJECTS: Seventeen obese subjects (eight men, nine women) participated in the study (age 44 AE 2 y, weight 145 AE 8 kg, fat 40 AE 2% of body mass, mean AE s.e.m.), who were going through a gastric-banding operation for weight reduction. MEASUREMENTS: HSL and LPL mRNA expressions were analyzed using the reverse transcription competitive polymerase chain reaction. Subcutaneous fat lipolysis was measured in vivo by microdialysis and in vitro in isolated subcutaneous abdominal adipocytes. Measurements were done before and after 1 y of weight reduction. RESULTS: Significant reductions in weight (for men 7 20.3 AE 2.5%, for women 7 18.3 AE 2.1% (mean AE s.e.m.) and fat mass (for men 7 27.6 AE 7.9%, for women 7 21.8 AE 3.9%) were observed in both genders. In women HSL mRNA expression decreased by 31% (P ¼ 0.008) and LPL expression increased slightly, but nonsignificantly (42%, P ¼ 0.110). These changes were not observed in men. In men, inhibition of lipolysis with a 2 -adrenergic and adenosine agonist was improved (P ¼ 0.001) in isolated adipocytes. CONCLUSIONS: This study uncovers new differences between genders in adipocyte metabolism along with weight reduction. In women, the observed changes in HSL and LPL gene expression suggest that deposition of lipids into adipose tissue might be favored after weight reduction. In men, the results indicate improved responsiveness to inhibition in adipose tissue metabolism along with weight reduction.

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Hepatotoxicity and Absorption of Extrahepatic Acetaldehyde in Rats

Matysiak‐Budnik¹,

Jokelainen²,

Kärkkäinen³

et al. 1996

J. Pathol.

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Attenuated adenosine-sensitivity and decreased adenosine-receptor number in adipocyte plasma membranes in human obesity

Kaartinen

Hreniuk

Martin

et al. 1991

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Fat-cells were isolated from patients of body-mass indices (BMIs) ranging from 17.9 to 83.9 kg/m2. Isoprenaline-stimulated cyclic AMP accumulation in cells prepared from obese subjects as compared with normal-weight subjects, was less sensitive to inhibition by the adenosine agonist N6-(phenylisopropyl)adenosine (PIA) (P = 0.047). The inhibition of 7 beta-desacetyl-7 beta-[gamma-(N-methylpiperazino) butyryl]-forskolin-stimulated adenylate cyclase by PIA in the presence of adenosine deaminase was also much attenuated in crude plasma membranes of adipocytes prepared from massively obese patients as compared with lean controls (P = 0.0143). This difference was probably not due to different cell size, because adenylate cyclase of crude plasma membranes of large adipocytes was actually more sensitive to PIA than was adenylate cyclase of membranes of smaller fat-cells co-isolated from the same individual. The stimulatory effect of PIA on glucose uptake in the presence of adenosine deaminase was depressed in adipocytes prepared from obese subjects and correlated with BMI at r = -0.626 (P = 0.007) at 100 nM-PIA. The adenosine receptors were studied by using the adenosine antagonist 1,3-[3H]dipropyl-8-cyclopentylxanthine. The binding was rapid and proportional to protein concentration. There was no difference in the affinities of receptors in membranes of obese and normal-weight subjects; Kd values of all patients averaged 3.3 nM. Bmax values were 54 and 130 fmol/mg of protein in membranes prepared from seven obese and five control patients respectively. The Bmax values calculated per mg of protein correlated with BMI at r = -0.539 (P = 0.047). The adenosine content of adipose tissue was higher in obese than in control subjects. These results demonstrate an attenuated response of cyclic AMP accumulation, adenylate cyclase and glucose uptake to adenosine in fat-cells prepared from obese subjects, and suggest that this change is at least partly due to changes in the amount of adenosine receptors, but not their affinity. The decreased receptor number could be due to higher adenosine content. A higher adenosine concentration in adipose tissue could explain why lipolysis is inhibited in situ in obesity, and the desensitization could explain the diminished response to adenosine analogues in isolated fat-cells.

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Jorma J. Ohisalo

Adenosine, thyroid status and regulation of lipolysis

Hormone sensitive lipase expression and adipose tissue metabolism show gender difference in obese subjects after weight loss

Hepatotoxicity and Absorption of Extrahepatic Acetaldehyde in Rats

Attenuated adenosine-sensitivity and decreased adenosine-receptor number in adipocyte plasma membranes in human obesity

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