Submitted : 20-07-2022 Revised : 12-10-2022 Accepted : 28-11-2022 Trad.
Med.
September-December 2022 Vol.
, p 181-191 ISSN-p : 1410-5918 ISSN-e : 2406-9086 Combined Spermacoce Radiata and Hypselodelphys Poggeana Extract (CESH) Protect Against Oxidative Stress and Enhances Haematological Parameters in Benign Prostatic Hyperplasia-induced Rats Robert Ikechukwu Uroko1*.
Favour Matthew Awah1.
Chinedu Aguwamba3.
Mercylyn Ezinne Uche2.
Ikenna Obiwuru2.
Chinomso Friday Aaron2.
Ezichi Favour Ofoezie1 1 Department of Biochemistry.
College of Natural Sciences.
Michael Okpara University of Agriculture.
Umudike.
Abia State.
Nigeria 2 Department of Biochemistry.
Faculty of Biological and Physical Sciences.
Abia State University.
Uturu.
Nigeria 3 Biochemistry Unit.
Department of Chemical Sciences.
Faculty of Sciences.
Clifford University.
Owerrinta.
Abia State.
Nigeria
ABSTRACT
This study investigated the therapeutic effect of a combined extract of Spermacoce radiata and Hypselodelphys poggeana (CESH) on oxidative markers and haematological parameters in benign prostatic hyperplasia (BPH) induced rats.
The study adopted five groups containing equal numbers of rats .
= .
, including normal control.
BPH control.
Finasteride control.
BPH-induced rats treated with 200 mg/kg CESH, and BPH-induced rats treated with 600 mg/kg CESH.
The rats were induced BPH by the subcutaneous administration of a 5 mg/kg testosterone propionate injection.
At the same time, treatment finasteride and CESH to the respective groups were given orally 60 minutes after the BPH induction for 28 uninterrupted The induction of BPH with testosterone propionate injection caused a significant reduction in the serum levels of haematological parameters, including haemoglobin (H.
, packed cell volume (PCV), red blood cells (RBC), and platelet counts of the BPH control compared with normal control.
The glutathione (GSH) concentration, glutathione peroxidase (GP.
, superoxide dismutase (SOD), glutathione S-transferase, and catalase activities decreased significantly in the BPH control relative to the normal control.
The BPH control had elevated white blood cell (WBC), and malondialdehyde (MDA) concentrations contrary to the high WBC and MDA in the normal control and CESH treated BPH induced rats, respectively.
Conversely, the Hb.
PCV, platelet count.
GPx.
SOD, catalase.
GST, and GSH increased significantly in the finasteride and CESHtreated BPH-induced rats, respectively, compared to the BPH control.
These findings show that CESH attenuates adverse effects of BPH on antioxidant parameters and oxidative markers, which may prevent BPH progression.
Keywords: Oxidative stress.
Antioxidants parameters.
Haematological parameters.
Prostate enlargement.
Medicinal plants INTRODUCTION The prostrate is an ovoid-shaped sex hormone-dependent organ, and it is positioned close to the bladder and performs peripheral reproductive functions via nourishment and transport of sperm cells.
Benign prostatic hyperplasia (BPH) is a non-malignant proliferation ailment that affects ageing men.
It is one of the most common diseases among senior men, with 50% of men above 60 years suffering from this condition and 80% of ageing men above 80 years showing histologic evidence (Agrawal et al.
, 2012.
Ajayi and Abrahama, 2.
It results from the hyperplasia of the prostatic stromal that develops in the transition zone's periurethral regions, resulting in the obstruction of the bladder outlet by narrowing the urethra (La Vignera et al.
, 2.
*Corresponding author : Robert Ikechukwu Uroko Email : ir.
uroko@mouau.
Urinary urgency, nocturia, frequent urination, obstructive/voiding .
artial voiding of the bladder and reduced urinary flo.
, and lower urinary tract symptoms (LUTS) are some of the clinical manifestations of BPH.
It is important to note that these symptoms and their severity are affected by ethnicity and race (Ajayi and Abrahama, 2.
Undisrupted distribution and excretion mechanism of smooth prostatic muscles are necessary to remove prostatic fluid from the prostate to the ejaculate.
This process is severely disrupted in ageing groups with BPH.
Age-related prostate function decline is caused by oxidative stress, local tissue inflammation, hormonal disruption, alteration in smooth muscle function, prostate fibrosis, growth, and enlargement (Taoka and Kakehi, 2017: Liu et al.
, 2.
For example, one experiment has shown that decreasing androgen levels mediates the proliferation of myofibroblasts and fibroblasts in smooth muscle Traditional Medicine Journal, 27.
, 2022 | DOI: 10.
22146/mot.
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.
0 International License.
Robert Ikechukwu Uroko tissue due to stromal remodelling (Kajiwara et al.
Also, inflame-ageing, which is minimal, sterile systemic inflammation resulting from stimulation of proinflammatory cytokines from senescent cells, plays a vital role during the onset of BPH.
The proinflammatory cytokines contribute to the pathogenesis of BPH via the proliferation of senescent cells within the BPH epithelium and the expression of senescence-related betagalactosidase in aged men with BPH (Choi et al.
Jiang et al.
, 2.
Inflame-ageing depletes cellular defence against oxidative stress and is connected with the onset of BPH (Zuo et al.
, 2.
Thus, phytonutrients that restore cellular redox homeostasis may be a novel therapeutic approach for BPH management and treatment.
The increasing incidence and prevalence of BPH among ageing men could lead to a high population of men with BPH, which could adversely increase pressure on the already stressed health facilities, the decline in life expectancy of the affected men, and more burden to their relatives and government.
The lack of effective drugs and adequate surgical procedures has resulted in a burgeoning interest to research on novel therapy to treat and manage BPH (Mbaka et al.
, 2.
Spermacoce radiata (DC.
) Sieber ex Hiern is a potent medicinal plant from the family of Rubiaceae.
Plant extracts formulated using different parts of Spermacoce radiata are effective therapeutic agents against many diseases, such as microbial infections, venereal diseases, and prostate enlargement.
It is erect and partly woody hairy and distributed across the African continent, especially in West African countries.
Spermacoce species have been therapeutically effective against headache, conjunctivitis, gallstones, inflammation, and haemorrhoids due to various phytochemicals, including alkaloids, terpenoids, flavonoids, and phenolics (Parrotta, 2001.
Subramanya et al.
Other attributed to Spermacoce species entail antioxidative stress, larvicidal, antitumour, and anti-gastrointestinal tract disorders (Conserva and Ferreira Jynior, 2.
Plant extract formulated with Spermacoce radiata and Hypselodelphys poggeana possesses hepatoprotective properties against BPH-induced hepatic injury and dysfunction in rats (Uroko et al.
, 2.
Hypselodelphys poggeana (K Schum.
) Milne-Redh belongs to the Marantaceae family and is partially woody like Spermacoce radiata but has unique violet and white flowers commonly found across tropical rainforests worldwide.
Hypselodelphys anti-infertility, antidyslipidaemia, renal protection, hepatoprotective, antidepressant, and prevention of prostate enlargement (Burkill, 1995.
Uroko et al.
The high medicinal potentials and wide applications of Spermacoce radiata and Hypselodelphys poggeana in traditional medicine have prompted the need for this study on the therapeutic effect of a combined extract of Spermacoce radiata and Hypselodelphys poggeana (CESH) on oxidative markers and haematological parameters in benign prostatic hyperplasia (BPH) induced rats.
METHODOLOGY
Materials Plant materials We collected fresh Spermacoce radiata, and Hypselodelphys poggeana leaves from Ahia Eke Ndume.
Umuahia.
Abia State, followed by identification and authentication at the Herbarium at the Michael Okpara University of Agriculture.
Umudike (MOUAU) with voucher numbers Jones FHI 13749 and 2694-5 (Preuss 1.
Preparation of combined ethanol extract of S.
radiata and H.
poggeana leaves (CESH) Leaf hand-picked, thoroughly cleaned with running water, and then air-dried at room temperature.
Following pulverisation of the dried leaves with an electric blender, 350 g of both powders .
, 700 g of combined ground powder at a ratio of 50:.
was then immersed in 2.
5 L of absolute ethanol for three days and filtered with Whatman No.
1 filter The solution obtained was dried in a water bath at 50EE till the ethanol solvent evaporated entirely, and the percentage yield was calculated.
Combining the plants in the proportion used in this study mimics the pattern of their use in folktale medicine and aligns with an earlier report (Uroko et al.
, 2.
Collection and acclimatisation of experimental Following ethically approved guidelines for the study, 30 mature male Wistar albino rats weighing 155 Ae 165 g were obtained from the animal care unit of the Department of Veterinary Medicine.
MOUAU.
The rats were acclimatised for three weeks at the animal house of the Department of Biochemistry.
College of Natural Sciences.
MOUAU, with access to standard animal feed (Vital FeedsA) and water ad libitum.
Traditional Medicine Journal, 27.
, 2022 Combined Spermacoce Radiata and Hypselodelphys Poggeana Extract Table I.
Haematological indices of BPH induced rats treated with CESH Parameters Hb .
/d.
PCV (%) WBC .
103/mm.
RBC.
106/mm.
Platelet .
103/mm.
Normal 75&A0.
13A2.
24A5.
44A2.
44A6.
BPH
11A0.
32A2.
23A4.
55A2.
13A5.
Finasteride 13A0.
11A1.
22A2.
67A8.
33A6.
BPH 200
mg/kg CESH 84A0.
43A0.
56A3.
33A7.
BPH 600
mg/kg CESH 72A0.
21A2.
67A5.
02A3.
77A7.
Values are presented as mean A standard deviation .
= .
, and values with different superscripts are significantly (P<0.
different from any paired mean across the row.
Methods BPH Induction The rats were induced BPH by the subcutaneous administration of a 5 mg/kg testosterone propionate injection masked in olive oil .
:1 v/.
for 28 consecutive days.
The haematological parameters, including red blood cell count (RBC), white blood cell count (WBC), packed cell volume (PCV), and differential white blood cell count (WBC) were determined through methods described by Dacie and Lewis .
Experimental design Thirty acclimatised mature male Wistar albino rats were selected into five groups containing an equal number of rats .
= .
The five groups comprise the normal control.
BPH control.
Finasteride control.
BPH 200 mg/kg CESH, and BPH 600 mg/kg CESH.
The normal control received 1 ml/kg distilled water mixed with olive oil .
:1.
, and the BPH control received 5 mg/kg subcutaneously for 28 uninterrupted days without any other treatment.
The Finasteride control.
BPH 200 mg/kg CESH, and BPH 600 mg/kg CESH were administered 5 mg/kg testosterone propionate injection subcutaneously for 28 uninterrupted days and orally treated with 5 mg/kg Finasteride, 200 and 600 mg/kg CESH respectively an hour after the testosterone The rats fasted overnight after the final treatments on the 28th day.
They were anaesthetised on the 29th day by intraperitoneal administration of a mild pentobarbital dose .
mg/k.
After a few minutes, blood samples were collected from the rats for biochemical analyses via cardiac puncture.
Statistical Analysis The data collated from the study were subjected to a one-way analysis of variance and the different means compared by a Duncan multiple range comparison test.
The statistically significant difference was 95% confidence (P < 0.
Determinations antioxidant parameters Catalase activity (CAT), glutathione peroxidase activity (GP.
, and superoxide dismutase activity (SOD) were determined by the methods of Aebi .
Ursini et al.
and Xin et al.
, respectively.
The malonaldehyde concentration (MDA) was determined according to the procedure outlined by Ohkawa et al.
Traditional Medicine Journal, 27.
, 2022
RESULT AND DISCUSSION
Effects of CESH on haematological indices of BPH-induced rats Many Spermacoce radiata and Hypselodelphys poggeana, have been found helpful in managing BPH, and their mechanism of action and effects on some biochemical, physiological, and haematological parameters have not been investigated to ascertain their therapeutic and toxicity potentials.
The role of medicinal plants in improving the well-being of humankind cannot be over-emphasised, having been reported that many therapeutic agents are from medicinal plants.
Previous research has shown that 50% of prescription drugs are made from herbal isolates Dhami .
This study elevated the therapeutic effect of a combined extract of Spermacoce radiata and Hypselodelphys poggeana (CESH) haematological parameters and on oxidative markers in benign prostatic hyperplasia (BPH) induced rats.
The haemoglobin (H.
concentrations in Table I showed significant (P<0.
reductions in the Hb concentrations of the benign prostatic hyperplasia (BPH) induced untreated rats (BPH contro.
in comparison with the normal control.
The BPH-induced rats treated with 5 mg/kg finasteride .
inasteride contro.
and 600 mg/kg Robert Ikechukwu Uroko CESH respectively, indicated significant (P<0.
increases in the Hb concentration when compared with the normal control.
The BPH-induced rats treated with 200 mg/kg CESH had no significant (P>0.
increase in the Hb concentration relative to the normal control.
On the contrary, the BPHinduced rats treated with 5 mg/kg finasteride, 200 and 600 mg/kg CESH respectively, showed significantly (P<0.
elevated Hb concentrations compared with the BPH control.
There was no significant (P>0.
difference between the Hb concentrations in the finasteride and CESH-treated BPH-induced rats.
Our results reveal that induction of BPH in experimental animals significantly decreased serum Hb concentration.
however, treatment with finasteride and CESH extract did not only restore Hb levels but significantly increased the Hb concentration of treated animals compared to the Notwithstanding, treatment with low and high doses of CESH produced effects comparable to those of the standard drug regarding Hb The impact of CESH on the haematological parameters aligns with previous reports of boosting and replenishing medicinal plants' roles in CCl4-induced oxidative stress (Uroko et al.
, 2.
Significantly restored haemoglobin synthesis may be attributable to the synergistic impact of phytochemicals in the CESH.
The packed cell volume (PCV) counts of BPH-induced rats in Table I showed significant (P<0.
reductions in the PCV counts of the BPH control rats when compared with the normal Also, there was no substantial reduction in the PCV counts of the BPH-induced rats treated with 5 mg/kg finasteride, 200 mg/kg CESH, and no significant (P>0.
increase in PCV count of the BPH-induced rats treated with 600 mg/kg CESH relative to the normal control.
All the BPH-induced rats treated with 5 mg/kg finasteride, 200 and 600 mg/kg CESH had significantly (P<0.
higher PCV counts than the BPH control, respectively.
significant (P>0.
difference was observed between the PCV counts of the BPH-induced rats treated with 200 and 600 mg/kg CESH Since BPH induction decreased PCV counts remarkably, it can be inferred that it either decreased erythropoiesis, increased red blood cell destruction, or increased plasma volume.
However, treatment with finasteride and graded doses of CESH after BPH induction comparably increased PCV counts compared with the untreated group.
Thus, restoring PCV counts to basal levels is in line with decreased RBC counts in the BPH control group as against increased RBC counts observed in the treatment groups.
Increased PCV counts may be ascribable to the phytochemicals, antioxidant, and pharmacological properties, such as flavonoids, phenolics, sterols, triterpenes, quinones, coumarins, and alkaloids, and lots more present in the CESH, which may promote the synthesis of new blood cells (Sharma et al.
, 2.
The result in Table I indicated a significant (P<0.
increase in the white blood cell count (WBC) counts of BPH control in comparison with the WBC counts of the normal control, while there were no significant (P>0.
decreases in the WBC counts of BPH induced rats treated with graded doses of CESH relative to the normal control.
While the finasteride-treated BPH-induced rats showed no significant (P>0.
reduction in WBC counts relative to the normal control.
The BPH-induced rats treated with 200 and 600 mg/kg CESH indicated no significant (P>0.
increase in WBC count, respectively, compared with WBC counts of the BPH-induced rats treated with mg/kg Significantly increased WBC count in the BPH control aligns with prior studies and is attributable to increased immune and phagocytic response due to high levels of ROS cum free radicals caused by BPH induction (Ugwu et al.
Increased free radicals trigger an immune response resulting in increased synthesis and recruitment of WBCs to impede further spread and clear existing radicals (Ijioma et al.
, 2.
While the induction of BPH significantly increased WBC counts, treatment with finasteride and low and high doses of CESH significantly reduced WBC counts to normal levels.
The phytonutrients in the CESH might have inhibited 5-alpha reductase, regulating prolactin-induced prostatic growth, preserving detrusor, bladder, and renal function, and exerting anti-inflammatory and free radical effects scavenging activities in line with Sharma et , 2017.
The red blood cell (RBC) counts of BPH control rats in Table I showed a significant (P<0.
reduction in comparison with the RBC counts of the normal control rats.
In contrast, a slight increase in RBC counts was observed in the BPH-induced rats treated with 5 mg/kg CESH and 600 mg/kg CESH, respectively, compared with the RBC counts of the normal control rats.
Furthermore, the BPH-induced rats treated with 200 mg/kg CESH showed no significant (P>0.
decrease in RBC relative to the normal control.
Contrarily, the BPH-induced rats treated with 5 mg/kg finasteride, 200 and 600 mg/kg CESH had significantly (P<0.
elevated RBC counts relative to the RBC counts of the BPH control.
However, the RBC counts of BPH-induced rats treated with 600 Traditional Medicine Journal, 27.
, 2022 Combined Spermacoce Radiata and Hypselodelphys Poggeana Extract mg/kg CESH were not significantly (P>0.
higher than those of the BPH-induced rats treated with 200 mg/kg CESH.
In this study.
BPH induction significantly decreased RBC counts attributable to increased erythrocyte osmotic fragility following impaired redox balance leading to anaemic condition.
Uncontrolled oxidative stress may shorten the lifespan of RBC and induce hepatic damage and anaemia (Bamishaiye et al.
, 2009.
Uroko et al.
However, improved RBC count following CESH compositions, which might have stimulated the erythropoietic stem cell activities, thus increasing RBC synthesis in the bone marrow.
Also, the high iron levels in most herbal treatments implicate the elevation of RBC counts (Uroko et al.
, 2.
The data in Table I indicated a significant (P<0.
reduction in the platelet count of BPH control and a slight decrease in the platelet count of BPH-induced rats treated with 5 mg/kg CESH, 200 and 600 mg/kg CESH when compared with the normal control.
The BPH-induced rats treated with finasteride and graded doses of CESH had significantly (P<0.
increased platelet counts relative to the platelet counts of the BPH control Mean platelet volume could help to distinguish prostate cancer from Benign Prostatic Hyperplasia (Fu et al.
, 2.
In this study, the BPH control group showed abnormally reduced platelet levels indicating impaired immune response in BPH-induced animals.
While treatment with lowdose CESH produced a similar effect as finasteride, high-dose treatment significantly increased and restored platelets to normal levels.
Thus, adequate consumption of the CESH within the safe dose range may sufficiently restore the oxidative effect of BPH induction, as exemplified in restored platelets and other haematological parameters.
Previous studies suggest that platelets play vital roles in autoimmunity, haemostasis, and functional platelet activation could improve host response to therapeutic intervention (Fu et al.
, 2.
Effects of CESH on differential white blood cell counts of BPH-induced rats Table II indicated no significant (P>0.
elevation in the neutrophil counts of BPH control and BPH-induced rats treated with 200 mg/kg CESH compared with the normal control.
There were mild reductions in the neutrophil counts of the BPH-induced rats treated with finasteride and 600 mg/kg CESH relative to the normal control and BPH control, respectively.
Traditional Medicine Journal, 27.
, 2022 There were no significant (P>0.
reductions in the percentage leucocyte counts of the BPH-induced rats in Table 2 treated with 5 mg/kg finasteride, 200 mg/kg CESH, and BPH control in comparison with the leucocytes count of the normal control.
However, the leucocyte counts of the BPH-induced rats treated with 600 mg/kg CESH increased not significantly (P>0.
when compared with the leucocyte counts of the normal control rats.
The percentage eosinophil counts of the BPH-induced rats in Table 2 showed significant (P<0.
decreases in the eosinophil of the BPH control.
BPH-induced rats treated with 5 mg/kg finasteride, 200 and 600 mg/kg CESH respectively when compared with the normal control.
Also, there was no significant (P>0.
between the eosinophil counts of BPH induced treated with finasteride and graded doses of CESH.
Furthermore, no detectable levels of basophils and monocytes in the normal control rats.
BPH control, finasteride, and graded doses of CESH treated BPH induced rats.
These findings showed that BPH did not affect the neutrophil, lymphocytes, and eosinophil counts, contrary to Ugwu et al.
Effects of CESH on GSH concentrations.
GPx, and GST activities of BPH-induced rats The glutathione peroxidase (GP.
activities of BPH-induced rats in Figure 1 indicated significant (P<0.
reductions in the GPx activities of the BPH control, finasteride control, and BPHinduced rats treated with 200 mg/kg CESH in comparison with the normal control.
Contrarily, the GPx activities of BPH-induced rats treated with 600 mg/kg CESH insignificantly (P>0.
reduced relative to the normal control.
The finasteride control and BPH-induced rats treated with 200 mg/kg CESH showed an insignificant (P>0.
increase in GPx activities in comparison with the BPH control, unlike the GPx activities of the BPHinduced rats treated with 600 mg/kg CESH that increased significantly (P<0.
relative to the BPH Also, there were insignificant (P>0.
increases in the GPx activities of BPH-induced rats treated with 200 and 600 mg/kg CESH compared to the finasteride control.
It was evidenced in Figure 2 that the glutathione (GSH) concentrations of the BPH control rats significantly (P<0.
decreased relative to the GSH concentration of the normal Whereas the GSH concentration of the finasteride and BPH-induced rats treated with 200 mg/kg CESH insignificantly (P>0.
increased, and the GSH concentration of the BPH-induced rats treated with 600 mg/kg CESH increased significantly (P<0.
when compared with the Robert Ikechukwu Uroko Mean Glutathione Conc.
g/dL) Finasteride control BPH 200 mg/kg CESH Normal Control BPH control Treatment Groups BPH 600 mg/kg CESH Each of the bars is presented as mean A standard deviation .
= .
and bars with different superscripts are significantly (P < 0.
different with any paired mean.
Mean GPx activities (U/L) Figure 1.
GSH concentrations of BPH-induced rats treated with CESH a,b,c Normal Control BPH control Finasteride control Treatment Groups BPH 200 mg/kg CESH BPH 600 mg/kg CESH Each of the bars is presented as mean A standard deviation .
= .
and bars with different superscripts are significantly (P < 0.
different with any paired mean.
Figure 2.
GPx activities of BPH-induced rats treated with CESH Table II.
Differential white blood cell counts of BPH induced rats treated with CESH Treatments Groups Neutrophil (%) Lymphocytes (%) Eosinophil (%) Normal Control 89A5.
33A2.
00A0.
BPH control 97A6.
67A3.
00A0.
Finasteride Control 25A3.
67A5.
00A0.
BPH 200
mg/kg CESH 68A2.
67A3.
33A0.
BPH 600
mg/kg CESH 67A3.
67A4.
00A0.
Values are presented as mean A standard deviation .
= .
, and values with different superscripts are significantly (P<0.
different from any paired mean across the row.
GSH concentration of the normal control rats.
The GSH concentrations observed in the finasteride control and BPH-induced rats administered 200 and 600 mg/kg CESH respectively, were significantly (P<0.
elevated compared with the GSH concentration of the BPH control rats.
Similarly, the GSH concentration of BPH-induced rats administered 600 mg/kg CESH was significantly (P<0.
elevated compared to the GSH concentration of the finasteride control.
The glutathione transferase (GST) activities of BPH-induced rats in figure 3 showed significant (P<0.
reductions in the GST activities of the BPH control, finasteride control, and BPH-induced rats administered 200 and 600 mg/kg CESH, respectively, compared with the normal control.
Contrarily, the finasteride control and BPHinduced rats that received 200 and 600 mg/kg CESH, respectively, showed significant (P<0.
increases in the GST activities relative to the GST Traditional Medicine Journal, 27.
, 2022
Combined Spermacoce Radiata and Hypselodelphys Poggeana Extract
GST activities (U/L) Normal Control
BPH control
Finasteride control BPH 200 mg/kg BPH 600 mg/kg CESH
CESH
Treatment Groups Each of the bars is presented as mean A standard deviation .
= .
and bars with different superscripts are significantly (P < 0.
different with any paired mean.
Figure 3.
GST activities of BPH-induced rats treated with CESH Mean SOD Activities (U/L) Finasteride control BPH 200 mg/kg CESH Normal Control BPH control Treatment Groups BPH 600 mg/kg CESH Each of the bars is presented as mean A standard deviation .
= .
and bars with different superscripts are significantly (P < 0.
different with any paired mean.
Figure 4.
SOD activities of BPH-induced rats treated with CESH activities of the BPH control rats.
Besides, insignificant (P<0.
increases in the GST activities of BPH-induced rats administered 200 and 600 mg/kg CESH respectively, compared with the GST activities of the finasteride Effects of CESH on SOD activities of BPHinduced rats The BPH-control and BPH-induced rats treated with 600 mg/kg CESH showed a significant (P<0.
decrease and increase in SOD activities, respectively, when compared with the SOD activities of the normal control rats (Figure .
The SOD activities of the finasteride control rats Traditional Medicine Journal, 27.
, 2022 showed a slight decrease insignificantly.
the SOD activities of the BPH-induced rats treated with 200 mg/kg CESH increased insignificantly (P>0.
in comparison with the SOD activities of the normal control rats.
It was also observed that the SOD activities of the finasteride control and BPH-induced rats treated with 200 and 600 mg/kg CESH respectively, increased significantly (P<0.
relative to the SOD activities of the BPH control At the same time, there were increases in the SOD activities of the BPH-induced rats treated with graded doses of CESH compared with the finasteride-treated BPH-induced rats.
The SOD activities observed in the BPH-induced rats treated with 600 mg/kg CESH were significantly (P<0.
Mean Catalase Activities (U/L) Robert Ikechukwu Uroko Normal Control BPH control Finasteride control BPH 200 mg/kg CESH BPH 600 mg/kg CESH Treatment Groups Each of the bars is presented as mean A standard deviation .
= .
and bars with different superscripts are significantly (P < 0.
different with any paired mean.
Figure 5.
CAT activities of BPH-induced rats treated with CESH Mean MDA Conc.
g/dL) Normal Control BPH control Finasteride control Treatment Groups BPH 200 mg/kg CESH BPH 600 mg/kg CESH Each of the bars is presented as mean A standard deviation .
= .
and bars with different superscripts are significantly (P < 0.
different with any paired mean.
Figure 6.
MDA concentrations of BPH-induced rats treated with CESH high when compared with the SOD activities of the finasteride control rats.
The significantly reduced SOD activities in the BPH control rats compared to the normal control align with findings from studies by Uroko et al.
and Ikeyi et al.
In contrast, the substantially increased SOD activities in the BPHinduced rats treated with finasteride and CESH compared to the normal control suggest the therapeutic effects of each treatment agent.
Furthermore, the treatment group which received a high dose .
mg/k.
of CESH had SOD activities that were significantly higher than the normal Increased SOD levels imply sufficient dismutase of excess superoxide radicals associated with BPH induction.
to hydrogen peroxide and molecular oxygen.
In tandem with a report by Ikeyi et al.
, our result indicates that herbal treatments contain antioxidant photochemical such as terpenoids, phenols, flavonoids, and saponins that can scavenge free radicals.
Thus, the CESH may attenuate BPH by curbing oxidative Effects of CESH on catalase CAT activities in BPH-induced rats The result in Figure 5 indicated significant (P<0.
reductions in the catalase activities of the BPH control, finasteride control, and BPH-induced rats treated with 200 mg/kg CESH, respectively when compared with the catalase activities of the normal control rats.
However, the catalase activities of the BPH-induced rats treated with 600 mg/kg CESH significantly (P<0.
increased relative to the catalase activities of the normal control rats.
Similarly, in the finasteride control.
BPH-induced rats treated with 200 and 600 mg/kg Traditional Medicine Journal, 27.
, 2022 Combined Spermacoce Radiata and Hypselodelphys Poggeana Extract CESH had significantly (P<0.
elevated catalase activities compared with the BPH control.
Also, the BPH-induced rats treated with 200 and 600 mg/kg CESH had significantly (P<0.
increased catalase activities compared with the catalase activities of the finasteride control rats.
The BPH control showed very varied CAT treatment with finasteride and low-dose CESH following BPH induction improved CAT However, this improvement remained significantly below the CAT activity of the normal Only treatment with high doses of CESH restored CAT levels significantly above the normal The CESH might have stabilised the enzyme protein promoting its role in converting excess hydrogen peroxide to water and molecular oxygen.
Decreased CAT activities following BPH induction are in line with previous findings by Uroko et al.
and Ikeyi et al.
, which are attributable to inactivation and decreased synthesis of the enzyme, probably via inhibition of the gene responsible for CAT synthesis.
Effects of CESH on MDA of BPH-induced rats The MDA concentrations of BPH-induced rats in figure 6 indicated significant (P<0.
increases in the MDA concentrations of the BPH
control, finasteride control, and BPH-induced rats administered 200 and 600 mg/kg CESH
MDA
concentration of the normal control rats.
Also, the MDA concentrations of the finasteride control and BPH-induced rats that received 200 and 600 mg/kg CESH, respectively, were significantly (P<0.
reduced in relationship with the MDA concentration of the BPH control.
Besides, the MDA concentration of the BPH-induced rats administered 600 mg/kg CESH was significantly (P<0.
reduced when compared with the MDA concentration of the finasteride control.
A cellular injury could trigger lipid peroxidation resulting in increased MDA production, which serves as a biomarker for monitoring such damage (Uroko et al.
, 2022.
The findings of this study show that the BPH induction in experimental rats significantly raised MDA concentration above normal levels.
MDA and 4hydroxyalkanals are the decomposition products of polyunsaturated fatty acid peroxides resulting in oxidative stress, mutagenesis, and uncontrolled cellular proliferation (Ikeyi et al.
, 2.
Although there was an improvement in the MDA following treatment with 200 mg/kg CESH was comparable to finasteride, the amount of MDA levels indicated oxidative stress in the rats.
A further significant decrease in MDA levels was observed following treatment with 600 mg/kg CESH, but this was still Traditional Medicine Journal, 27.
, 2022 significantly above normal safe levels.
Considering the high safety margin of CESH, an increased dose of CESH could sufficiently decrease MDA levels without posing toxicological threats to the animals (Uroko et al.
, 2022.
Additional dietary antioxidant supplementation and lifestyle changes can synergise in effectively ameliorating lipid peroxidation associated with BPH.
The antioxidant effects of CESH against BPH-associated oxidative damage are attributable to its high contents of antioxidant phytochemicals such as flavonoids, polyphenols, terpenoids, tannins, saponins, phenols, polyterpenes, steroids, and alkaloids (Uroko et al.
, 2022.
Although our study provides meaningful preclinical evidence on the antioxidant effects of CESH in ameliorating BPH, it leaves an opportunity for further works on the specific solvent fraction or isolated phytonutrient responsible for the antioxidant effects.
docking studies on the binding characteristics of vis-a-vis pharmaceutical ingredient of existing commercial drugs such as finasteride.
further clinical studies and mechanism of action.
CONCLUSION
The findings of this study reveal that treating BPH with graded doses of CESH can restore the antioxidant status and normalise haematological indices.
Our result indicates that 600 mg/kg CESH is a more viable treatment for BPH than finasteride, as shown by the improved antioxidant status and haematological healing.
Also, considering the cost and side effects of synthetic drugs, therapeutic preparations such as CESH, rich in antioxidant phytochemicals, can serve as viable alternatives after thorough clinical ACKNOWLEDGEMENT The authors wish to express profound gratitude to Dr Simeon I.
Egba and Eng.
Okwor J.
Ani for their technical during this study.
REFERENCES