Characterization of Cyclic Nucleotide and Inositol 1, 4, 5-Trisphosphate-Sensitive Calcium-Exchange Activity of Smooth Muscle Cells Cultured from the Human Corpora Cavernosa1

Krall, John M.; Fittingoff, M; Rajfer, Jacob

doi:10.1095/biolreprod39.4.913

Cited by 37 publications

(1 citation statement)

References 33 publications

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“…The penis is considered by many to be the window to the cardiovascular system. Indeed, it was the observation that the smooth muscle cell of the media of the arterial system is indistinguishable physiologically from that of the smooth muscle cell of the corporal tissue that provided us initially with the clue that the corporal SMC of the penis were an NO dependent tissue ( 41 ). Therefore, one could infer that any endogenous systemic influence such as the aging process that affects one vascular smooth muscle tissue should also affect all other vascular smooth muscle tissue within that organism.…”

Section: Etiology Of Aredmentioning

confidence: 99%

Aging related erectile dysfunction—potential mechanism to halt or delay its onset

Ferrini

González‐Cadavid

Rajfer

2017

Transl. Androl. Urol.

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Erectile dysfunction (ED) will visit every man at some time in his life. The age at when that knock on the door is heard is totally dependent on one’s genetics as well as other extrinsic factors. Unlike guests who come for a visit and then leave, once ED shows up it tends to hang around forever. To add insult to injury, the longer ED hangs around, the worse it will get. It is estimated that by the time a man is in his 40’s, he has about a 40% chance of having some form of ED and this prevalence increases about 10% per decade thereafter. This suggests that the aging related process that leads to ED begins early in life. It turns out that the most common cause of ED, regardless of the patient’s age, is due to a problem with the vascular system of the penis. However, this specific aging related vascular problem is not caused by arterial disease but due to a dysfunction and/or loss of the corporal smooth muscle cells (SMC), the main constituent of the corporal sinusoids. As one gets older, these SMC continue to degrade and disappear. When approximately 15% of these cells have been impacted, it results in an inability of the corporal tissue to retain and/or prevent the blood from “leaking” out of the corporal sinusoids into the systemic veins. However, the corporal SMC themselves begin to combat this aging process by expressing the inducible nitric oxide synthase (iNOS) enzyme to make nitric oxide (NO) in an attempt to quench the high intracellular oxidative stress responsible for the SMC apoptosis. When this iNOS pathway is then pharmacologically upregulated, reversal of these aging related changes in the corpora with correction of the venous leakage is observed. Since we believe that aging related ED is pathologically the same disorder as essential hypertension, the development of a therapeutic regimen that can halt, delay or possibly reverse the cellular processes that lead to aging related ED should also be applicable to those patients diagnosed with essential hypertension.

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Section: Etiology Of Aredmentioning

confidence: 99%

Aging related erectile dysfunction—potential mechanism to halt or delay its onset

Ferrini

González‐Cadavid

Rajfer

2017

Transl. Androl. Urol.

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Expression of Inducible Nitric Oxide Synthase in Smooth Muscle Cells From Rat Penile Corpora Cavernosa

HUNG,

VERNET,

XIE

et al. 1995

Journal of Andrology

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Nitric oxide (NO), the main mediator of penile erection, is assumed to be synthesized in the penis by the neuronal constitutive nitric oxide synthase (nNOS). However, nNOS has not been identified in the penile smooth muscle, the target of NO action. The other NOS isozymes, the inducible NOS (iNOS) and the endothelial NOS (eNOS) have not been reported in any penile tissue. The smooth muscle vascular and trabecular tissue from rat corpora cavernosa is represented in vitro by cell cultures designated RPSMC. To determine whether iNOS can be expressed in penile smooth muscle, RPSMC were treated with different lymphokines and/or bacterial lipopolysaccharide (LPS). The selected inducer, LPS/interferon, elicited at 48 hours up to a 50‐fold increase in nitrites in the medium; the increase continued by 72 hours. The induction was inhibited by L‐Nω‐nitroarginine methyl ester (L‐NAME), aminoguanidine, actinomycin D, cycloheximide, transforming growth factor‐β1 (TGF‐β1), and dexamethasone, but was resistant to nifedipine and platelet‐derived growth factor‐AB (PDGF‐AB). iNOS induction increased with cell passage. The [3H] L‐arginine/citrulline measurement of NO synthesis with intact cells confirmed these results. Incubations of soluble and particulate fractions showed that the cytosol contained most of the activity (Km = 43 μM), which was partially inhibited by ethyleneglycal‐bistetraacetic acid (EGTA). The 4.4‐kb iNOS mRNA peaked at a late period (24–30 hours) and remained high for up to 72 hours. iNOS mRNA induction was strongly inhibited by actinomycin D and dexamethasone, partially inhibited by TGF‐β1, inhibited slightly by PDGFAB, and unaffected by nifedipine. These results show that iNOS can be expressed in RPSMC in a cell passage‐dependent fashion that has so far not been reported for other cell lines, and that the induction reaches much higher levels than in rat or human vascular smooth muscle cells. The expression pattern is also distinctive for the penile cells in time course of induction, Ca2+ dependence, response to certain agents, and mRNA stability.

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Nitric Oxide Induces Oxidative Stress and Mediates Cytotoxicity to Human Cavernosal Cells in Culture

RAJASEKARAN,

HELLSTROM,

SIKKA

2001

Journal of Andrology

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Nitric oxide (NO) is a product of nitric oxide synthase (NOS) activity and is recognized as the main mediator of penile erection by induction of cavernosal smooth muscle relaxation. Although excessive NO can be generated via inducible NOS activation under certain inflammatory and noninflammatory conditions, for example, in response to TGF‐β and γ‐IFN (the proinflammatory cytokines), the effect of excessive NO produced as reactive nitrogen radical (NO) in the corpora cavernosa is not known. The present study was designed to evaluate whether the effect of NO on human cavernosal cells in primary culture is via oxidative stress. Cell growth was monitored by DNA synthesis, and mitochondrial function was evaluated by adenosine triphosphate (ATP) production. Primary culture was initiated with explants from human corpora cavernosa, and the monolayer cavernosal cells (passage 2–3) were plated on 12‐well tissue culture plates. At 70%‐80% confluency, the cells were incubated with varying concentrations of sodium nitroprusside(SNP) for 16 hours. The cell growth (DNA synthesis) was monitored by measuring [3H] thymidine incorporation, ATP levels (nanomoles per 104 cells) were measured by chemiluminescence assay using a lu‐minometer, the total oxidative stress was monitored by measuring the levels of 8‐iso PGF2α (picograms per milliliter) by using an enzyme‐linked immunosorbent assay kit, and NO production was monitored by accumulation of nitrite levels (micrometer per 104 cells). Human cavernosal smooth muscle cells (HCSMC) exposed to SNP (0 to 0.8 mM) exhibited a dose‐dependent (two‐ to fivefold) decrease in DNA and ATP synthesis, accompanied by a two‐ to threefold increase in the levels of 8‐iso PGF2α and about an eightfold increase in nitrite accumulation. These findings suggest that the NO released by SNP (>0.8 mM) exhibited a significant cytotoxicity to HCSMC, mediated by increased oxidative stress to these cells.

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Characterization of Cyclic Nucleotide and Inositol 1, 4, 5-Trisphosphate-Sensitive Calcium-Exchange Activity of Smooth Muscle Cells Cultured from the Human Corpora Cavernosa1

Cited by 37 publications

References 33 publications

Aging related erectile dysfunction—potential mechanism to halt or delay its onset

Aging related erectile dysfunction—potential mechanism to halt or delay its onset

Expression of Inducible Nitric Oxide Synthase in Smooth Muscle Cells From Rat Penile Corpora Cavernosa

Nitric Oxide Induces Oxidative Stress and Mediates Cytotoxicity to Human Cavernosal Cells in Culture

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