Expression of apoptosis in human saphenous vein grafts in restoration of blood flow through coronary bypass surgery

Objective: To investigate the possible role of apoptosis on brief distensions of human saphenous veins at different pressures. Methods : Fresh isolated grafts of human saphenous vein were assigned as control or distended (D) for fifteen seconds at 100, 200 and 300 mmHg. The degree of apoptotic caspases 3, 8, 9 and anti-apoptotic protein Bcl-2 expression were assessed by immunohistochemistry. Results: Fresh isolated segments of distended human saphenous veins presented similar apoptotic protein expression when compared with control veins. However, the Bcl-2 expression was significantly higher in the 300 mmHg distended segments compared with the control vein. Conclusion: These findings show that intact segments of human saphenous veins submitted to distensions at different pressures have similar apoptotic proteins expression when compared with non-distended control veins. Therefore, brief distensions commonly performed during surgical harvesting do not trigger apoptosis, and probably are not involved on the physiopathological mechanisms that lead to graft failure.


TIRAPELLI, LF ET AL -Expression of apoptosis in human saphenous vein grafts in restoration of blood flow through coronary bypass surgery
Rev Bras Cir Cardiovasc 2009; 24 (3): [312][313][314][315][316][317] insufflator.The insufflator used allowed obtaining and maintaining uniform distension pressures.As its built-in manometer had scales in ATM and PSI, a mercury column manometer was used to measure the experimental pressures in mmHg (100, 200 and 300 mmHg).For performing distensions, vein segment was occluded at the level of its free extremity.A single researcher, who codified the samples for posterior blind analysis, carried all maneuvers.

Experimental groups
Four experimental groups were designed: Group 1: Control; Group II: Distention with Krebs solution to 100 mmHg for 15 seconds; Group III: Distention with Krebs solution 200 mmHg for 15 seconds and; Group IV: Distention with Krebs solution to 300 mmHg for 15 seconds.
For quantifying apoptosis, immunohistochemical expression of pro and anti-apoptotic proteins was determined according to the intensity of cytoplasmic and nuclear staining.Caspases 3, 8, 9 and Bcl-2 immunoreactive cells were counted manually at 400x magnification.In each sample, three fields with greatest concentration of marked cell were selected (areas of "hot spots").In each field, the percentage rate of counted marked cells in a total of approximately 600 cells was calculated and immunohistochemical expression was graduated according to the following classification: 0 (zero) no mark, (+) up to 25% marked cells (low expression), (+ +) from 25% to 50% marked cells (intermediate expression); (+ + +) from 50% to 75% marked cells (high expression); and (+ + + +) over 75% of cells marked (very high expression).
All results are expressed as mean ± SEM.Analysis of Variance One-way and Bonferroni's t tests were used for INTRODUCTION Although widely used as vascular conduit in coronary and peripheral revascularization surgery, saphenous vein grafts have shorter patency than arterial ones.One possible explanation for this fact is that exposition of saphenous vein to high pressures induces functional and morphological alterations that can trigger physiopathological mechanism, which lead to early thrombosis and graft failure.During harvesting, saphenous vein is exposed to various degrees of distention, being sometimes very high [1].
Apoptosis is one described mechanism in failing saphenous vein graft physiopathogy.It is involved in intimal layer modification with muscular layer thickening through fibrous transformations [2].In addition, previous studies investigated the role of apoptosis in early saphenous vein primary varices.Thus, pressure distensions and apoptosis may have clinical and experimental implications in endothelial function and, by consequence, in the use of the saphenous vein as arterial graft [3].
The aim of this study was to quantify expression of pro and anti-apoptotic proteins in human saphenous veins after brief distensions at different pressures.Hence, it can be speculated if these distensions, which are commonly performed during surgical harvesting, have a role, through apoptosis, in saphenous vein graft failure.

Harvesting of human tissue
Human saphenous vein segments were harvested from 20 patients undergoing coronary artery bypass surgery.Unused segments at the distal end were taken for study.After their removal, segments were immediately placed in normothermic and oxygenated Krebs solution with the following composition: NaCl 118 mmol/L, KCl 4. The time between excision of tissue in the operating room and vein distensions in the laboratory was less than 15 minutes.Vein segments were carefully cleaned of fat and loose connective tissue and cut into rings for each experimental group (4 mm in length).No distensions were performed in veins in any moment of harvesting.Veins with macroscopic evidences of varicosities were excluded.
All procedures were reviewed and approved by the local Research Ethics Committee.

Vein distension technique
For standardization of distention pressures, each vein segment was connected to a three-way stopcock as previously published [1,4].The other ways were connected to a mercury manometer and to an angioplasty balloon data analysis.Values were considered to be statistically significant when P was less than 0.05.Statistical analyses were performed with Graph Pad Prism 4.0 (Graph Pad Software Inc., San Diego, CA).

RESULTS
Positive immunohistochemical marked cells were observed in muscular layer and primarily in adventitial layer.
Caspase 8 detection.For caspase 8, also an apoptotic promoter, no difference in the degree of immunohistochemical expression was found in segments of vein submitted for fifteen seconds at 100, 200 and 300 mmHg (zero [0] and low expression [+]) when compared to control vein (zero [0] and low expression [+]) (Figure 2).
Caspase 9 detection.Again, the degree of immunohistochemical expression for caspase 9, an apoptotic promoter, showed also no difference between distended segments of vein submitted for fifteen seconds at 100, 200 and 300 mmHg (zero [0] and low expression [+]) when compared to control vein (zero [0] and low expression [+]) (Figure 3).
Bcl-2 detection.For Bcl-2, an apoptotic suppressor, the degree of immunohistochemical expression differed significantly in the distended segments of vein submitted for fifteen seconds at 300 mmHg (

low expression [+] and intermediate expression [++]) when compared to control vein (low expression [+] and intermediate expression [++])
(Figure 4).saphenous vein grafts pathobiology, where it is supposed to be involved on modifications of its intimal layer with thickening of its muscular layer through fibrous transformations [5,6] Two pathways, intrinsic and extrinsic, mediate the apoptotic response, depending on the origin of the death stimulus.The intrinsic pathway (mitochondrial)

DISCUSSION
The results of this study reveal that fresh isolated segments of saphenous veins submitted to distension at 100 to 300 mmHg for fifteen seconds, presented similar expression of pro-apoptotic proteins when compared with control.However, the anti-apoptotic Bcl-2 expression was significantly higher in the 300 mmHg-distended veins when compared with control.Positive immunohistochemical stained cells were observed in muscular layer and primarily in adventitial layer.
Apoptosis is defined as active physiological and genetically controlled process of cell suicide that carries an important function in the development and homeostasis of multicellular organisms [2,5,6].The pathways involved in its induction in human saphenous vein graft are still unclear.This process had been associated to autologus  results from cytochrome C release from mitochondria to cytosol, which combines with Apaf-1 (pro-apoptotic factor) in presence of dATP or ATP with consequent formation of an oligomeric compound referred to as "apoptossome", which recruits and activates caspase-9, allowing activation of caspases effectors such as caspase-3 [7].The extrinsic pathway, which is originated from external stimulus, can be converted to intrinsic through caspase-8, that cleaves protein Bid, which promotes membrane proteins release [8].As the immunohystochemial caspases expression was not affected by the saphenous vein distensions, it is possible to conclude that the two apoptosis pathways were not impaired.

-Representative photomicrograph of immunohistochemical analysis for expression of caspase 9 in segments of vein submitted for fifteen seconds at 300 mmHg (A): original magnification 400X. (B) The numbers (mean, SD) of the caspase 9 positive cells of approximately 600 cells in control and segments of the vein submitted for fifteen seconds at 100, 200 and 300 mmHg Fig. 4 -Representative photomicrographs of immunohistochemical analysis for expression of Bcl-2 in segments of vein submitted for fifteen seconds at 300 mmHg (A): original magnification 100X; (B): original magnification 400X. Adventitial layer (A), lumen (L) and muscular layer (M). An asterisk (*) indicates places with the highest positive mark. (C) The numbers (mean, SD) of the Bcl-2 positive cells of approximately 600 cells in control and segments of the vein submitted for fifteen seconds at 100, 200 and 300 mmHg
In our study, the ratio of anti-apoptotic Bcl-2 expression differed significantly in segments distended for fifteen seconds at 300 mmHg when compared to control.However, proteins associated to apoptosis have been identified in saphenous veins coronary grafts by immunohistochemistry, using the antibodies Bcl-2, Fas, Bax, p53 and CPP32, and by TUNEL nuclear fragmentation technology.Many studies observed different patterns of cell death in atherosclerotic and non-atherosclerotic areas of saphenous vein grafts intimal layer.In atherosclerotic areas, pro-apoptotic proteins were widely expressed, but ultra structural analysis was unable to identify cells with apoptotic characteristics.Necrotic cells have, frequently, negative correlation with TUNEL Bcl-2 expression.Moreover, in non-atherosclerotic areas, expression of both antiapoptotic proteins (Bcl-2) as other pro-apoptotic biomarkers (Bax, p53 and CPP32) had correlation with TUNEL.With ultra structural analysis, apoptotic bodies and necrosis were observed in non-atherosclerotic areas of saphenous vein grafts.These observations indicate that in atherosclerotic areas, cell death occurs mainly by necrosis, while in non-atherosclerotic areas, it occurs either by necrosis or apoptosis [9,10].Based on these data it is possible to speculate that high (300 mmHg) brief distensions (15 seconds) would be associated with failure mechanisms in non-atherosclerotic coronary saphenous vein grafts.
There is one last comment that is mandatory concerning pressure induced saphenous vein apoptosis.Many studies compared varicose and healthy saphenous veins, analysing histological changes and immunohistochemical expression of caspase-9 and Bax, two mediators that regulate apoptotic intrinsic mitochondrial pathway.Samples of varicose veins presented a more disorganized architecture compared to normal veins.In addition, they presented healthy increase of collagen fibers and decrease in density and size of elastic fibers.The immunoreactivity to caspase-9 and Bax in muscular layer cells was significantly smaller in varicose veins when compared to healthy ones, demonstrating a low apoptotic regulation [11].Beside these concepts about chronic varicose veins, one well carried out study showed that two-minute distensions of 300mmHg in intact human saphenous veins induced p38 activation, which is associated with apoptosis [6].As our model adopted 15-second distension time, it is possible to speculate that pressure induced apoptosis is time-dependent.
MAPKs (mitogen-activated protein kinases) are activated in response to a wide variety of extracellular stimuli.The JNK and p38 MAPK signaling cascades are activated in response to cellular stress and certain cytokines via the activation of G protein coupled receptors and are known to be involved in apoptosis [6].Cornelissen et al. [6] demonstrated that mechanical stretch caused by pressure distension of intact human saphenous vein (SV) induces the activation of p38 maintained for 3 and 6 hours after harvesting, being significantly higher at 24 hours compared with control vein, and this is associated with apoptosis (co-localization of phosphorylated p38 and apoptosis by immunohistochemistry).Furthermore, inhibition of p38 kinase activity in human SV vascular smooth muscle cells and distended segments reduced apoptosis.
Despite the use of that method in the collection of the grafts of saphenous veins, our findings are contradictory to those described by Cornelissen et al. [6], possibly because after pressure distention of the venous segments, the mechanism of apoptosis was assessed immediately after collection.These findings demonstrate that intact segments of the human saphenous vein submitted to different brief (15 seconds) crescent pressures (100, 200 and 300 mmHg) have similar apoptotic proteins expression when compared with non-distended control veins.The brief distensions commonly performed during surgical harvesting, do not trigger immediate apoptosis, but the deposition of extracellular matrix and a progressive increase in intimal fibrosis and a reduction in cellularity observed in late SV grafts is in agreement with the incidence of apoptosis as an early event in SV grafts [12], suggesting that cell death by apoptosis could be the etiological factor in failure of grafts.
The findings of these studies suggest that the early stages of SV bypass grafting may have important longterm consequences.

Fig. 1 -
Fig. 1 -Representative photomicrograph of immunohistochemical analysis for expression of caspase 3 in segments of vein submitted for fifteen seconds at 300 mmHg (A): original magnification 400X.(B) The numbers (mean, SD) of the caspase 3 positive cells of approximately 600 cells in control and segments of the veinsubmitted for fifteen seconds at 100, 200 and 300 mmHg

Fig.
Fig. 3 -Representative photomicrograph of immunohistochemical analysis for expression of caspase 9 in segments of vein submitted for fifteen seconds at 300 mmHg (A): original magnification 400X.(B) The numbers (mean, SD) of the caspase 9 positive cells of approximately 600 cells in control and segments of the vein submitted for fifteen seconds at 100, 200 and 300 mmHg TIRAPELLI, LF ET AL -Expression of apoptosis in human saphenous vein grafts in restoration of blood flow through coronary bypass surgery