NOVEL SOLUTION BASED ON DETECTION OF MIRS-410-3P AND 141-5P FOR DIAGNOSTIC OF PROSTATE CANCER EVOLUTION.

To date, prostate cancer (PCa) is both the most common tumour diagnosed in males and the second most common cause of cancer-related mortality (1,) . Prevention programs and screening protocols have proven useful to detect the disease at population level, but they lack sensitivity and specificity in comparison to the molecular tests routinely available for screening of other types of cancer, leading to unnecessary biopsies and overtreatment in many cases. In this context, a new set of small RNA biomarkers are surfacing with promising results to predict tumour progression, risk reclassification and treatment response (2) such as miR-410-3p -3p and miR-141-5p. Former studies where these biomarkers were examined in prostate cancer tissues and cell lines by qRT-PCR have shown that high expression of miR-410-3p -3p correlates to both a) accurate diagnosis in certain groups where the PSA levels do not match results from biopsy, surgery and/or digital rectal examination and b) poor prognosis of prostate cancer patients (3) . Likewise, miR-141-5p shows a parallel behaviour suggesting a potential combo for fine molecular analysis of the ratios. In this sense, recent studies have demonstrated that miR-410-3p -3p exert oncogenic functions through downregulating PTEN, proving that miR-410-3p -3p inhibits prostate cancer progression via downregulating PTEN/AKT/mTOR signalling pathway. Curiously enough, different behaviour has been reported for the biomarker in both, peripheral blood from patients and cancer-cell line(s) (34.5.6) models further pointing at the advantages of a dual gauging made possible by parallel semi-quantitation of miR-141-5p. In this sense, miR-141-5p has been clearly identified as to be upregulated in large cohorts (n over 500) of prostate cancer patients confirming overexpression in multivariate analysis in tumour epithelium and tumour stroma. This overexpression taken into the context of a peripheral blood reduction of miR-410-3p appears to be associated with increased risk of biochemical cancer recurrence in an independent study over 500 patients (7) . Here we present the design, molecular set up and preclinical assessment of a novel system that uses the discarded volume from PSA blood tests to predict prostate cancer progression and biochemical cancer recurrence via detection of the biomarkers. The method described could potentially eliminate the need of invasive means such as biopsy, surgery and digital rectal examination.


NOVEL SOLUTION BASED ON DETECTION OF MIRS-410-3P AND 141-5P FOR DIAGNOSTIC OF PROSTATE CANCER EVOLUTION. Introduction
Prostate cancer (PCa) has become one of best characterised tumours in male under a molecular perspective.In recent years, the set of miRNAs playing regulatory function(s) in this type of cancer has been defined and subjected to scrutiny further revealing that miR-410-3p and mir-141-5p act as a key biomarkers for diagnosis (8,9) .
The involvement of miRNAs in gene regulatory processes and their availability for molecular detection in peripheral blood of cancer patients make them attractive candidates for refining diagnosis, prediction of tumour progression, risk reclassification and treatment response.miRNAs are a class of small noncoding RNA molecules that post-transcriptionally modulate gene expression by binding to the 3' untranslated region (3 ′ -UTR) of the target mRNA.This binding induces key processes for cancer progression such as silencing of the mRNA by the Argonaut (Ago) protein in the RNA-induced Silencing protein complex (RISC) (10) .Since certain miRNAs are deregulated in cancer patients, whose peripheral blood levels show a wide variation correlating to changes in the synthesis of the proteins necessary for tumorigenesis, disease progression, and metastasis (4) , they have been recently regarded as key biomarkers for the oncologic condition.In the context of PCa, the recent study of Zhang et al. (1) has shown that the elevated expression of miR-410-3p -3p correlates with the downregulation of phosphatase and tensinhomolog on chromosome ten (PTEN) and results in an activation of the AKT/mTOR signaling pathway, showing that miR-410-3p -3p plays a crucial role as an oncogene in PTEN/AKT/mTOR pathway (11) .The parallel study of Liu et al. (2) has provided further evidence that upregulation of miR-410-3p could promote a disease progression and a metastatic ability of PCa due to deactivation of PTEN protein, a natural inhibitor of PI3K/AKT/ mTOR as well as having similar significance in clear cell renal cell carcinoma (CCRCC) (12) .Furthermore, evidence of MiR-410-3p in PCa and CCRC cancers being expressed at a high has been provided thus supporting for both types of cancer (1,2) .In addition to this, miR-410-3p was confirmed an independent risk factor for the survival prognosis of patients with CCRCC, its high expression indicating .poor prognosis.Besides, the inhibition of miR-410-3p in cancer-cell models including the two most widely used prostate cancer cell lines (PC3 and DU145) has proven to suppress cell proliferation, cycle progression, migration, invasion and tumour growth in vivo, also promoting cell apoptosis.In this context of molecular characterisation, MiR-410-3p has been highlighted as a key biological indicator for the diagnosis and prognosis of PC and CCRCC, being considered an independent risk factor for the survival prognosis (13,14,15) .Mechanistically, analysis in other cell models such as lung cancer (15) has demonstrated that the oncogenic effects of miR-410-3p -3p are exerted through downregulating PTEN further confirming that miR-410-3p -3p acts in PC via downregulating PTEN/AKT/mTOR signalling pathway.
Parallel studies over large cohorts exceeding 500 patients have also proven that the expression of miR-141 is associated with an increased risk of biochemical cancer recurrence and biochemical-and clinical failure (10) .Nevertheless, its role at different stages of cancer progression and how its expression changes during the multistep carcinogenesis, suggest that a second biomarker of known behaviour would be needed to better understand and gauge; hence the parallel definition of levels for miR-410-3p whose opposite behaviour under such conditions allows a double-check-point to finely tune accuracy of the molecular test.This strategy has been further confirmed by evidences that both biomarkers are reported detectable in studies from liquid biopsies such as urine, serum, plasma and whole blood reporting that the two tumour-derived miRNAs can enter the circulatory system and be measured in serum and plasma (16) .In this sense, different studies have supported that circulating miR-141-5p is significantly elevated in the sera of PC patients compared to healthy controls, being associated with more aggressive and advanced disease (high Gleason score and lymph node metastases).Besides, studies reporting a decreased circulating miR-410-3p and a significantly higher circulating miR-141 in patients with locally advanced-stage disease (10,13,14) point at this combination as one of the more promising marker-set for PC diagnostic and evaluation of progression.
In this work, a novel RTqPCR-based assay for the semi-quantitative simultaneous detection of MiR-410-3p and miR-141-5p is presented, showing the performance data from its preclinical assessment.
Analysis of MiR-410-3p from subsets of primary plasma samples from patients attending the Urology Service of Hospital Puerta de Hierro has been performed using the discarded volume from PSA tests on the novel system (MiRNAX Biosens ProstREACT©).Performance data from clinical specimens and comparison to in vitro results obtained in parallel further point at the use of this method as a promising option to potentially reduce the need of first-instance-invasive means such as biopsy, surgery and digital rectal examination.

MATERIALS AND METHODS:
Between 2022 and 2023, 43 patients with a high probability of PCa or confirmed tumor and a positive PSA enzyme linked immunosorbent assay test (ELISA) (>4 ng/mL) were recruited in the Urology Service of Hospital Puerta de Hierro (Madrid) and re-tested independently at the MBR&DU (see filiation) to confirm the levels of MiR-410-3p and miR-141-5p on the novel system (MiRNAX Biosens ProstREACT©).The recruitment was done under the framework named "clinical proof of concept (PCC) of the cross-sectional analysis system of miRs for the exclusion of prostate inflammatory processes and diagnosis of cancer associated with PSA variations" supported by the team formed by MiRNAX Biosens S. L. and the Urology Department of the Hospital Puerta Hierro represented by its Head of Service (Dr.Joaquín Carballido), which was approved by the Ethics Committee for Clinical Research of the Research with Medicines of the Hospital Universitario Puerta de Hierro Majadahonda, Spain (supplemental documentation available from the authors).
Results were contrasted blindly with the PCa diagnostic formerly defined in accordance with the existing clinical guidelines.For this, patients underwent a biopsy test for prostate to confirm the cancer and the Gleason score was obtained in parallel to evaluate the microscopic features of the phenomenon found.compliance with the clinical guidelines.During the period, 43 patients were diagnosed to have PCa, which complied with the ethical and technical requirements for the study set this research (documentation available through the Urology Service and Ethics Committee of Hospital Puerta de Hierro).The controls included healthy volunteers and all attendants are listed in the table below:

Sample data:
Table-1.List of attendants diagnosed as per the existing clinical guidelines and tested for MiR-410-3p and miR-141-5p on the novel system (MiRNAX Biosens ProstREACT©).Sample names are encrypted so that they are not known to anyone outside the research group.De-anonymization will be made available upon request to the authors.

Serum sampling and total RNA isolation
Peripheral blood samples from donors were obtained at the Urology Service of Hospital Puerta de Hierro and allowed to stand for 1 hour before plasmas were obtained by separation from sera removing clots by centrifugation at room temperature for 10 minutes.The resulting supernatant (serum) was carefully removed to obtain the plasma from the whole blood samples collected in tubes with an anticoagulant (Vacutainer® 143425 EAN: 30382903688150 BD, New York, USA) as soon as the two phases were clearly observed.Resulting upper plasma aliquots (volumes ranging from 500 uL to 1 ml) were transferred to sterile 1.5 mL Eppendorf tubes labeled as "Primary Plasma" and stored at -80ºC.The remaining blood devoid of clot was thoroughly homogenized by gentle shaking and added to Falcon® tubes (Thermo-Fisher Scientific Ref:10788561-BD, New York, USA) containing 5 mL of Ficoll.Addition was carried very slowly, avoiding a turbulent blood-Ficoll interaction while allowing the carbohydrate and metrizamide polymer to cause precipitation of erythrocytes and granulocytes, maintaining mononuclear cells afloat.
Once the process was completed and cell separation due to the difference of densities was visually evident, a second centrifugation was performed at 2500 rpm for 30 min at room temperature yielding 4 phases: Surface Secondary Plasma (SSP), Peripheral Blood Mononuclear Cells (PBMC), Ficoll and Erythrocytes.SSP was then recovered (volumes ranging from 500 uL to 1 ml) and transferred to a 1.5 mL Eppendorf tube

Quantification of miR-410-3p and miR 141-5p expression and statistical analysis
MiR-410-3p and miR-141-5p were detected using the novel system (MiRNAX Biosens ProstREACT©), a patented RtqPCR assay (Patent Ref: EP4055189A1 (17) ) for the semi quantitative detection of both biomarkers based on the staggered priming of the forward and reverse oligonucleotides building an extended amplicon fit for perfect-match hybridization of a FAM-MGB fluorescent probes covering the entire MiR-410-3p and miR-141-5p mature sequences.The specific primers for amplification of MiR-410-3p and miR-141-5p in this assay were subjected to in silico analysis for specificity and cross-reactivity before confirming the analytical sensitivity of the test (see Results).Data characterized by the normal classification was expressed as the average and standard deviation so that miR-410-3p -5p and miR-141-5p content could be presented as a direct function of the Ct obtained using the double standard curve method.The Ct values of clinical samples were always compared with standards to calculate the copy numbers and provide a good estimation of the test's accuracy in terms of sensitivity, specificity, predictive value, and likelihood ratio.The sensitivity of the system as a potential clinical test was finally estimated using the proportion of subjects with the PCa who could be correctly identified by the test and provide a "positive" result under the thresholds defined (see results).

RESULTS:
blood circulation and 3) levels of miR-141-5p and MiR-410-3p have been readily measured in plasma to distinguish patients with PCa from healthy controls (18) : we initially opted to test secondary plasma (see Materials and Methods) for the presence of both miRNAs.The decision to follow this initial approach was based on the clearer nature and simpler composition of this fraction in relation to primary plasma.Therefore, a series of samples were processed as described (see Materials and Methods) and secondary plasma fractions were extracted using the MiR-410-3p miRNEasy kit® (Ref: 217184 Qiagen, USA).Total  Analysis of the data obtained from those clinical samples revealed that a) Ct values for each kit were remarkably similar, making both systems apparently indistinct for subsequent receiver operating characteristic (ROC) analysis and b) the cleanliness of this fraction in relation to primary plasma accounted for amplification values in cohort-1 for miR-410-3p and miR-141-5p to be > Ct32, which was the lowest threshold arbitrary fit for ROC analysis.Consistently, amplification values in cohort-2 for miR-410-3p and miR-141-5p were significantly higher and not fit for purpose by a wider margin, correlating to the higher Ct values obtained for amplification of the h-RNAse-P marker of integrity with a low standard deviation (σ = 0'8), thus indicating that data for amplification of the mi-RNA biomarkers were clustered tightly around the mean value for the marker of integrity.
Aiming to prove if amplification of the miRNA biomarkers and the integrity hRNAse-P gauge was possible below the Ct value set as minimum threshold for reliable ROC analysis (i.e.<Ct32), the richer primary plasma fraction was obtained and tested from a third cohort of samples now using the novel MiRNAX Biosens ProstREACT© assay as the results from Applied Biosystems nested RT-PCR amplification (Ref: 4427975 Applied Biosystems) and MiRNAX Biosens ProstREACT© assay were proven indistinct in all experiments performed so far.In this sense, it's worth noting that primary plasma is regarded as a dirtier sample than secondary plasma as it also contains the same 91% to 92% of water, but a higher amount of solids (8% to 9% compared to less than a half in secondary plasma (19) plus an amount of fibrinogen.It is also reported to yield higher amount of tRNA from standard purification in a variety of works (20) , hence the approach to test if primary plasma could act as a potential source for diagnostic of PCa using the amount of blood discarded after PSA Table 5. Results for the amplification of the marker for RNA integrity (hRNAse-P) in the primary plasmas obtained from clinical samples in Cohort-3 (Ct value for hRNAse-P below 30,00).Setting again the arbitrary limit of C<Ct32 for the amplification of the miRNA biomarkers to give a positive result in the amplification of miR-410-3p and miR-141-5p using MiRNAX Biosens ProstREACT© assay from the primary plasmas the Cohort-3, all determinations were found to sit below the threshold with no need to apply stratification in relation to the values obtained for the integrity hRNAse-P gauge.This set of data proved that amplification for miR-410-3p and miR-141-5p in primary plasmas obtained from the blood volumes to be discarded after PSA determination was possible using MiRNAX Biosens ProstREACT© assay within cohort-3 implementing the astringent Ct value set as minimum threshold for reliable ROC analysis (i.e.<Ct32).
After that, the MiRNAX ProstREACT © assay was tested for accuracy referring the Ct obtained from each donor within the cohort to the estimated copy number calculated using the   Panel-2 Image of amplification for both biomarkers in samples from the cohort showing detection at 6x10 6 , 6x10 5 and 6x10 4 copies obtained for MiR-410-3p and miR-141-5p using the novel MiRNAX Biosens ProstREACT© Precision for Cohort-3 proved to be in the range of 97% for MiR-410-3p and 99% for miR-141-5p as far as individual measurements taken in duplicated independent determinations for clinical samples were in accordance with the copy number interpolation and their equivalence to a potential positive or negative result regarding a yes/no blind answer to the question: Is patient X showing a quantifiable measurement for both MiR-410-3p and miR-141-5p biomarkers that correlates to confirmed PCa above the arbitrary threshold set for reliable ROC analysis (i.e.<Ct32)?
The comprehensive analysis of results from the three cohorts, prompted a clinical proof of concept with those samples that had still enough volume for th RTqPCR after the experimental so far described.
Furthermore, having inferred that the two deciding factors for detection fo the miRNA biomarker were a) integrity of the RNA extracted (see table 6) and concentration of the target miRNA target sequence (see figure 4), a decision was made to detect only MiR-410-3p using MiRNAX Biosens ProstREACT© but now comparing the protocol used for Cohorts 1 to 3 with a similar protocol where the final volume of extracted from primary plasma added to the RTqPCR reaction was solely calculated from the NanoDrop® (Ref:ND-2000) records averaging the three reads of absorbance at 230, 260, 280 and 330 nm, initially used to calculate the concentration and purity of the purified products (see Material and Methods).This approach was used on a final Cohort-4 only when the material available from a given sample allowed and was christened "correction by volume" (CV).Unluckily, it required to decimate the samples to the point that there was not enough material to perform a parallel

DISCUSSION:
The data obtained for amplification of MiR-410-3p and miR-141-5p biomarkers using the novel MiRNAX Biosens ProstREACT© system show a high correlation to confirmed PCa above the arbitrary threshold set for reliable ROC analysis (i.e.<Ct32) in cohorts 3 and 4 and are in good agreement to the integrity of the RNA present in the sample gauged by amplification of the hRNAse-P marker.Furthermore, the increase of input target using the CV protocol seems to further improve this correlation.Unluckily, no clinical conclusion can be drawn from the cohorts tested at the time of writing due to: a) the optimization nature of great part of the work described here as far as setting a definitive method (std.vs CV) is respected, b) the limited number of clinical samples processed and c) the limitations in volume at the end of the processed tested in parallel.In this sense, a feasibility study has recently been completed as bigger study designed to re-confirm the data presented here and to show compliance with the regulations in EU market regarding IVD requirements.Results from this study will be also compiled for publication shortly.
Furthermore, a forthcoming clinical trial has been designed extending the framework program that is referenced in this paper (see Materials and Methods) basing the recruitment in the Urology Service of Hospital Puerta de Hierro (Madrid) and parallel blind testing at the MBR&DU (see filiation).This clinical trial has been subjected to review by the corresponding ethics committee (EC) to confirm if the levels of MiR-410-3p and miR-141-5p detected on the novel system (MiRNAX Biosens ProstREACT©) are fit for diagnostic of PC in patients with a moderate to high PSA value.The EC has approved this trial that will start in March 2024.
On a more general context, PC diagnostics using a non-invasive test such as MiRNAX Biosens ProstREACT© based on the innovative and patented RTqPCR technology may prove to be a unique tool for diagnostics as circulating tumor miRNA biomarker analysis has the potential to significantly improve patient stratification complementing the current criteria set by PSA and/or multi-parametric magnetic resonance imaging for biopsy and treatment.In this sense, extensive clinical trials as the one mentioned above need to be completed in order to confirm the potential of using circulating tumor miRNA biomarker analysis such as the described here in cancer diagnosis, particularly to predict clinically significant prostate cancer in pre-biopsy cases.Actually, the presentation of novel solutions such as MiRNAX Biosens ProstREACT© may relieve diagnostic pressure from the anticipated increase of PCa mortality rates that may rise in the years to come.As a result, systems showing promising data in the line presented here may end up forcing urologists to consider new paradigms in the disease management: both to improve methods of detection and to be more effective in managing the likely increasing numbers of men with advanced disease.

Figure- 1 .
Figure-1.Example of primary and secondary plasmas analyzed for RNA integrity using MiRNAX-

Figure 2 .Figure 3 .
Figure 2. Image of (A) MiR-410-3p conformation and pair-base mating probability and (B) amplification scheme highlighting primers and probe positions.Source: RNAfold WebServer http://rna.tbi.univie.ac.at/cgi-bin/RNAWebSuite/RNAfold.cgi miRNAs were initially subjected to amplification of MiR-410-3p and miR-141-5p with MiRNAX Biosens assay, stratifying samples in agreement to a) the Nanodrop quantification in relation to the amount of RNA originally purified and b) the Ct values obtained for the hRNAse-P in relation to the integrity of targets readily available for quantification (see Materials and Methods).Purified total miRNA was subjected in parallel to amplification using the Taqman miRNA Assay kits available from Applied Biosystems for amplification of miR-410-3p and miR-141-5p using nested RT-PCR amplification (Ref: 4427975 Applied Biosystems).Ct data obtained with the nested RTqPCR system from Applied Biosystems for amplification of miR-410-3p and miR-141-5p were compared to those obtained with MiRNAX Biosens ProstREACT©.

Table 2 .
PCR conditions for the amplification using MiRNAX Biosens ProstREACT© assayThe commercial Taqman miRNA Assay kits available from Applied Biosystems for amplification of miR-410-3p and miR-141-5p using nested RT-PCR amplification (Ref: 4427975 Applied Biosystems) were used for reference also and lastly, a similar dilution series was performed for comparison of both methods.Overlapping Ct values were obtained (see results) thus making both systems indistinct for subsequent receiver operating characteristic (ROC) analysis.Therefore, Ct values obtained for MiR-410-3p and miR-141-5p detected using the novel system (MiRNAX Biosens ProstREACT©) were confirmed fit for the determination since no incremental or detrimental diagnostic value between the study methods was observed.
One step RTqPCR programs fit for application of both biomarkers with the patented MiRNAX Biosens ProstREACT© assay were performed on Applied Biosystems Step-One Plus PCR System; the results were retrieved as Ct values and normalized to calculate the average Ct of each sample (ΔCt) and expressed as 2 -ΔCt .All amplifications were run in duplicate to minimize the experimental error.

Table 7 and
Figure-5.Data compilation and graphical representation for samples in Cohort-4 comparing detection of MiR-410-3p using MiRNAX Biosens ProstREACT© under std and CV protocols (see above).