The antioxidant defense system of isolated guinea pig Leydig cells

Mark A. Kukucka and Hara P. Misra. 1993. The antioxidant defense
system of isolated guinea pig Leydig cells. Molecular and Cellular
Biochemistry, Volume 126, Number 1:1-7.

Department of Biomedical Sciences, Virginia-Maryland Regional College
of Veterinary Medicine, Virginia Polytechnic Institute & State
University, 24061 Blacksburg, Virginia, USA

Received: 23 March 1993 Accepted: 6 May 1993

Abstract: Utilization of highly enriched preparations of steroidogenic
Leydig cells have proven invaluable for studying the direct effects of
various hormones and agents on Leydig cell functionin vitro. However,
recent work indicates that isolated Leydig cells are often subjected
to oxygen (O2) toxicity when cultured at ambient (19%) oxygen
concentrations. Because intracellular antioxidants play an important
role in protecting cells against oxygen toxicity, we have investigated
the intracellular antioxidant defense system of isolated Leydig cells.
The cellular levels of several antioxidants including catalase,
glucose-6-phosphate dehydrogenase (G-6-PDH), superoxide dismutase
(SOD) of the Cu/Zn & Mn variety, glutathione peroxidase, glutathione
reductase and total glutathione were quantitated using enriched
populations of Leydig cells isolated from adult male guinea pig
testes. Compared to whole testicular homogenates, Leydig cells
contained significantly (P<0.01) less G-6-PDH, total SOD, glutathione
reductase and total glutathione, but significantly (P<0.001) more
glutathione peroxidase. Compared to hepatic values previously reported
in the guinea pig, Leydig cells contain nearly 400 times less
catalase, about 14 times less glutathione peroxidase and almost 11
times less glutathione reductase. Since G-6-PDH and glutathione
reductase are both necessary to regenerate reduced gluthathione (GSH)
which couples with glutathione peroxidase to breakdown hydrogen
peroxide (H2O2) under normal conditions, it is plausible that the
oxygen toxicity observed in isolated Leydig cells is due to the
intracellular accumulation of H2O2. Using the dichlorofluorescin
diacetate (DCF-DA) assay, we found that Leydig cells incubated in the
presence of 19% O2 produced significantly (P<0.001) higher levels of
H2O2 with time in culture compared to Leydig cells maintained at 3%
O2. These results support the hypothesis that the increased
susceptibility of isolated Leydig cells to oxygen toxicity may be due,
in part, to decreased amounts of certain antioxidant defenses and an
increased production of the reactive oxygen species H2O2.

Key words Leydig cells - testes - superoxide dismutase - catalase
glutathione peroxidase - glutathione - hydrogen peroxide

On Jun 19, 1:22 pm, tocopherol <ascorb...@yahoo.com> wrote:
> Mark A. Kukucka and Hara P. Misra. 1993. The antioxidant defense
> system of isolated guinea pig Leydig cells. Molecular and Cellular
> Biochemistry, Volume 126, Number 1:1-7.
>
> Department of Biomedical Sciences, Virginia-Maryland Regional College
> of Veterinary Medicine, Virginia Polytechnic Institute & State
> University, 24061 Blacksburg, Virginia, USA
>
> Received: 23 March 1993 Accepted: 6 May 1993
>
> Abstract: Utilization of highly enriched preparations of steroidogenic
> Leydig cells have proven invaluable for studying the direct effects of
> various hormones and agents on Leydig cell functionin vitro. However,
> recent work indicates that isolated Leydig cells are often subjected
> to oxygen (O2) toxicity when cultured at ambient (19%) oxygen
> concentrations. Because intracellular antioxidants play an important
> role in protecting cells against oxygen toxicity, we have investigated
> the intracellular antioxidant defense system of isolated Leydig cells.
> The cellular levels of several antioxidants including catalase,
> glucose-6-phosphate dehydrogenase (G-6-PDH), superoxide dismutase
> (SOD) of the Cu/Zn & Mn variety, glutathione peroxidase, glutathione
> reductase and total glutathione were quantitated using enriched
> populations of Leydig cells isolated from adult male guinea pig
> testes. Compared to whole testicular homogenates, Leydig cells
> contained significantly (P<0.01) less G-6-PDH, total SOD, glutathione
> reductase and total glutathione, but significantly (P<0.001) more
> glutathione peroxidase. Compared to hepatic values previously reported
> in the guinea pig, Leydig cells contain nearly 400 times less
> catalase, about 14 times less glutathione peroxidase and almost 11
> times less glutathione reductase. Since G-6-PDH and glutathione
> reductase are both necessary to regenerate reduced gluthathione (GSH)
> which couples with glutathione peroxidase to breakdown hydrogen
> peroxide (H2O2) under normal conditions, it is plausible that the
> oxygen toxicity observed in isolated Leydig cells is due to the
> intracellular accumulation of H2O2. Using the dichlorofluorescin
> diacetate (DCF-DA) assay, we found that Leydig cells incubated in the
> presence of 19% O2 produced significantly (P<0.001) higher levels of
> H2O2 with time in culture compared to Leydig cells maintained at 3%
> O2. These results support the hypothesis that the increased
> susceptibility of isolated Leydig cells to oxygen toxicity may be due,
> in part, to decreased amounts of certain antioxidant defenses and an
> increased production of the reactive oxygen species H2O2.
>
> Key words Leydig cells - testes - superoxide dismutase - catalase
> glutathione peroxidase - glutathione - hydrogen peroxide

Mechanisms by which hypoxia augments Leydig cell viability and
differentiated cell function in vitro

by Mark A. Kukucka, MS, DVM, PhD

Department of Biomedical Sciences
Virginia-Maryland Regional College of Veterinary Medicine
Virginia Polytechnic Institute & State University
Blacksburg, Virginia 24061-0442

I do believe my Leydig cells failed to develop in embryo -
something about that missing Y chromosome...

You might find greater interest for this topic on a group largely
populated by men.

FurPaw

tocopherol wrote:
> On Jun 19, 1:22 pm, tocopherol <ascorb...@yahoo.com> wrote:
>> Mark A. Kukucka and Hara P. Misra. 1993. The antioxidant defense
>> system of isolated guinea pig Leydig cells. Molecular and Cellular
>> Biochemistry, Volume 126, Number 1:1-7.
>>
>> Department of Biomedical Sciences, Virginia-Maryland Regional College
>> of Veterinary Medicine, Virginia Polytechnic Institute & State
>> University, 24061 Blacksburg, Virginia, USA
>>
>> Received: 23 March 1993 Accepted: 6 May 1993
>>
>> Abstract: Utilization of highly enriched preparations of steroidogenic
>> Leydig cells have proven invaluable for studying the direct effects of
>> various hormones and agents on Leydig cell functionin vitro. However,
>> recent work indicates that isolated Leydig cells are often subjected
>> to oxygen (O2) toxicity when cultured at ambient (19%) oxygen
>> concentrations. Because intracellular antioxidants play an important
>> role in protecting cells against oxygen toxicity, we have investigated
>> the intracellular antioxidant defense system of isolated Leydig cells.
>> The cellular levels of several antioxidants including catalase,
>> glucose-6-phosphate dehydrogenase (G-6-PDH), superoxide dismutase
>> (SOD) of the Cu/Zn & Mn variety, glutathione peroxidase, glutathione
>> reductase and total glutathione were quantitated using enriched
>> populations of Leydig cells isolated from adult male guinea pig
>> testes. Compared to whole testicular homogenates, Leydig cells
>> contained significantly (P<0.01) less G-6-PDH, total SOD, glutathione
>> reductase and total glutathione, but significantly (P<0.001) more
>> glutathione peroxidase. Compared to hepatic values previously reported
>> in the guinea pig, Leydig cells contain nearly 400 times less
>> catalase, about 14 times less glutathione peroxidase and almost 11
>> times less glutathione reductase. Since G-6-PDH and glutathione
>> reductase are both necessary to regenerate reduced gluthathione (GSH)
>> which couples with glutathione peroxidase to breakdown hydrogen
>> peroxide (H2O2) under normal conditions, it is plausible that the
>> oxygen toxicity observed in isolated Leydig cells is due to the
>> intracellular accumulation of H2O2. Using the dichlorofluorescin
>> diacetate (DCF-DA) assay, we found that Leydig cells incubated in the
>> presence of 19% O2 produced significantly (P<0.001) higher levels of
>> H2O2 with time in culture compared to Leydig cells maintained at 3%
>> O2. These results support the hypothesis that the increased
>> susceptibility of isolated Leydig cells to oxygen toxicity may be due,
>> in part, to decreased amounts of certain antioxidant defenses and an
>> increased production of the reactive oxygen species H2O2.
>>
>> Key words Leydig cells - testes - superoxide dismutase - catalase
>> glutathione peroxidase - glutathione - hydrogen peroxide
>
> Mechanisms by which hypoxia augments Leydig cell viability and
> differentiated cell function in vitro
>
> by Mark A. Kukucka, MS, DVM, PhD
>
> Department of Biomedical Sciences
> Virginia-Maryland Regional College of Veterinary Medicine
> Virginia Polytechnic Institute & State University
> Blacksburg, Virginia 24061-0442
>


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