Cytotoxicity and genotoxicity of solanum tuberosum leaves using brine shrimp lethality bioassay and allium cepa chromosomal. | Blazingprojects Postgraduate Thesis
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Cytotoxicity and genotoxicity of solanum tuberosum leaves using brine shrimp lethality bioassay and allium cepa chromosomal.

 

Table Of Contents


Chapter ONE

INTRODUCTION

  • 1.1Introduction
  • 1.2Background of Study
  • 1.3Problem Statement
  • 1.4Objective of Study
  • 1.5Limitation of Study
  • 1.6Scope of Study
  • 1.7Significance of Study
  • 1.8Structure of the Research
  • 1.9Definition of Terms

Chapter TWO

LITERATURE REVIEW

  • 2.1Overview of Cytotoxicity
  • 2.2Concept of Genotoxicity
  • 2.3Solanum Tuberosum Leaves Composition
  • 2.4Brine Shrimp Lethality Bioassay
  • 2.5Allium Cepa Chromosomal Aberration Test
  • 2.6Previous Studies on Solanum Tuberosum
  • 2.7Literature on Brine Shrimp Lethality Bioassay
  • 2.8Literature on Allium Cepa Chromosomal Aberration Test
  • 2.9Relationship Between Cytotoxicity and Genotoxicity
  • 2.10Current Research Gaps

Chapter THREE

RESEARCH METHODOLOGY

  • 3.1Research Design and Approach
  • 3.2Sampling Techniques
  • 3.3Data Collection Methods
  • 3.4Data Analysis Procedures
  • 3.5Ethical Considerations
  • 3.6Validity and Reliability
  • 3.7Research Limitations
  • 3.8Timeframe and Budgeting

Chapter FOUR

DATA PRESENTATION AND ANALYSIS

  • 4.1Overview of Research Findings
  • 4.2Analysis of Cytotoxicity Results
  • 4.3Analysis of Genotoxicity Results
  • 4.4Comparison with Previous Studies
  • 4.5Discussion on Brine Shrimp Bioassay Results
  • 4.6Discussion on Allium Cepa Chromosomal Aberration Results
  • 4.7Implications of Findings
  • 4.8Recommendations for Future Research

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Summary of Findings
  • 5.2Conclusion
  • 5.3Contributions to Knowledge
  • 5.4Practical Implications
  • 5.5Recommendations
  • 5.6Areas for Future Research
  • 5.7Reflection on Research Process
  • 5.8Final Thoughts

Thesis Abstract

Abstract
The study aimed to investigate the cytotoxicity and genotoxicity of Solanum tuberosum leaves using the brine shrimp lethality bioassay and Allium cepa chromosomal aberration assay. The aqueous extract of S. tuberosum leaves was evaluated for its cytotoxic potential using the brine shrimp lethality bioassay, while the genotoxic effects were assessed through the Allium cepa chromosomal aberration assay. The brine shrimp lethality bioassay revealed a concentration-dependent cytotoxic effect of the S. tuberosum leaf extract, with a median lethal concentration (LC50) of 218.3 µg/mL. The Allium cepa chromosomal aberration assay demonstrated genotoxic effects of the leaf extract, as evidenced by the induction of chromosomal aberrations, such as chromosomal bridges, breaks, and stickiness. The frequency of chromosomal aberrations increased significantly with higher concentrations of the leaf extract. The results indicate that the S. tuberosum leaf extract possesses both cytotoxic and genotoxic properties, suggesting the presence of bioactive compounds with potential health implications. Further studies are warranted to identify and isolate the specific compounds responsible for the observed cytotoxic and genotoxic effects and to elucidate their underlying mechanisms of action. Overall, the findings underscore the importance of evaluating the safety profile of botanical extracts, such as those from S. tuberosum leaves, to ensure their appropriate use and potential therapeutic applications.

Thesis Overview

<p> </p><p><strong>INTRODUCTION</strong></p><p><strong>&nbsp;</strong></p><p><strong>Rationale of the Study</strong></p><p>Cancer is a generic term for a large group of diseases that can affect any part of the body. One defining feature of cancer is the rapid multiplication of abnormal cells that grow beyond their usual boundaries, and which can then affect adjoining parts of the body and spread to other organs, the latter process is referred to as metastasizing. Metastases are the major cause of death from cancer (WHO, 2015). In a statistical study by WHO (2012), different types of cancer figures among the leading causes of morbidity and mortality worldwide, with approximately 14 million new cases and 8.2 million cancer related deaths. According to GlobalCan (2012), in the Philippines, people who are diagnosed with cancer per year is estimated to be 98, 200 and people who died from cancer is around 59, 000 deaths per year.</p><p>There are number of antineoplastic or anticancer agents used for the treatment of cancer, this includes the alkylating agents, taxanes, topoisomerase II inhibitors, anthracyclines, antifolates, vinca alkaloids, campothecins, antimicrotubule inhibitor, antitumor antibiotics, antimetabolites and tyrosine kinase (TK) inhibitors (Katzung <em>et al</em>., 2012). In general, antineoplastic agents cure cancer by targeting selectively or non-selectively the cell division of abnormal cells leading to cell death. Generally anticancer drugs in either short-term or long-term use cause unwanted adverse effects such as heart problems, hormonal problems, bone and tissue problems or may arise to a secondary cancer (Aviva.co.uk, 2017).</p><p>Due to the severe effects it causes and leading to development of resistance of using the anti-cancer agents, there is a shift to discovering of new sources of therapy. Nature has been one of the inevitable origins of therapeutics (Koehn &amp; Carter, 2005; Narang &amp; Desai, 2009; Newmann &amp; Cragg, 2013), and many of these natural products have been identified as treatments.</p><p>Some plants have also been recognized for promising anticancer properties. Isolation of podophyllotoxin and several other compounds (known as lignans) from the common mayapple (<em>Podophyllum peltatum</em>) ultimately led to the development of drugs used to treat testicular and small cell lung cancer (Pettit <em>et al.</em>, 1995). Some plant derived compounds such as the polyphenols, taxols and brassinosteroids have showed that they can inhibit multiplication of cancer cells and promote apoptotic cell death. Researchers are now diverging their studies on plants for possible future treatment of cancer.</p><p>Potato has many constituents. The constituents found in the potatoes are known to possess a variety of biological activities such as antifungal, insecticidal, antiviral, and antiestrogenic activities (Chandrasekara &amp; Kumar, 2016). One of the constituents are the glycoalkaloids. The major glycoalkaloids present in potato are a-chaconine and a-solanine, making up 95% of total glycoalkaloids. High total glycoalkaloid (TGA) levels are found in tissues – in fruit, leaves, stems, tubers, tuber eyes, jacket, sprouts and damaged tissues which has a function to protect plants from bacterial and fungal diseases as well as from pests. Glycoalkaloids have potential anti-carcinogenic effects on the human cervical, liver, lymphoma, and stomach cancer cells (Friedman <em>et al</em>., 2005). The glycoalkaloids from eggplants have the ability to penetrate and selectively destroy cancer cells, leaving normal cells unharmed (Fassa, 2012; Yang <em>et al</em>., 2016). The anti-carcinogenic effects of glycoalkaloids are dependent on its concentration (Friedman <em>et al</em>., 2005).</p><p>The described results may make it possible to relate to the study of potato leaves since there are limited studies on it unlike the other plant parts of potato like the tuber (McCue, 2009). The aim of the study is to assess if the constituents which mostly contains glycoalkaloid, present in the potato leaves can be used as a potential anti-cancer agent and to be evaluated for its possible cytotoxicity and genotoxicity. This study aims to evaluate the possible cytotoxicity and genotoxicity of the potato leaf using liquid-liquid extraction method.</p><p>&nbsp;</p><p><strong>Objectives of the Study</strong></p><p>This study aims to determine the cytotoxicity and genotoxicity of <em>Solanum tuberosum</em>&nbsp;leaves using Brine shrimp lethality bioassay and <em>Allium cepa</em>&nbsp;chromosomal aberration assay.</p><p>Specifically, this study aims to determine the following:</p><ol><li>Determine the percent mortality based on the dead nauplii after exposure to the leaf extract.</li><li>Determine the percent cytotoxicity of the leaf extracts based on the percent mortality of dead nauplii.</li><li>Determine the median lethal concentration (LC50) of the leaf extract.</li><li>Determine the genotoxicity activity of the plant extract based on the following:</li><li>percent root growth after exposure.</li><li>percent chromosomal aberration as indicated by the presence of bridges, fragments, laggards or vagrants.</li><li>mitotic index after exposure.</li></ol><p>&nbsp;</p><p><strong>Significance of the Study</strong></p><p>This study can provide beneficial information pertaining to the scope of the study to the medical researchers and future undergraduates. Researchers who are expert to the likes of this study will be able to gather information from this study regarding to the progress of current researches pertaining to the potential cytotoxicity and genotoxicity of plants or a future drug for cancer.</p><p>To organizations that raises awareness on cancer such as the Philippine Society of Medical Oncology (PMSO) and to name a few can benefit from the possible positive result of this research. To pharmaceutical companies, they can further research on the cytotoxic and genotoxic activity of the potato and develop a new drug that can be beneficial to the community.</p><p>People with cancer may be hopeful for new anti-cancer course of treatment. This will also help farmers to reduce the waste of leaf, it can still be utilize for alternative treatment of cancer. In the pharmaceutic field, this will help researchers to recognize the potential benefits of this plant and conduct future studies using this plant to see possible other possible pharmacologic activities.</p><p>Local government and academic institutions may also choose to research or support their students to perform studies about other potential activities of the plant sample or to continue in improving the study by using other parts of the potato and their potential cytotoxic and genotoxic activity.</p><p>&nbsp;</p><p><strong>Scope and Limitation</strong></p><p>This study focused on identifying the cytotoxic and genotoxic activities of leaves of <em>Solanum tuberosum</em>&nbsp;procured in Abatan, Mountain Province. The extraction of the constituents was performed by liquid-liquid extraction technique which employed using a mixture methanol and chloroform (2:1, v/v)(Wang <em>et al.</em>, 1972). The cytotoxicity activity was evaluated using mature <em>Artemia nauplii</em>. The genotoxicity activity was evaluated the <em>Allium cepa</em>&nbsp;Chromosomal Aberration Assay. The study was conducted in three trials in triplicates having two groups, namely the control, and treated group. The control group was sea water in the Brine shrimp Lethality Assay and distilled water for the <em>Allium cepa</em>&nbsp;Chromosomal Aberration Assay. Range finding was conducted with series of dilution of the plant stock solution and there were 5 concentrations, 100%, 50%, 25%, 13% and 5% test solutions. The 100%, 50% and 13% test solutions were used for Brine shrimp Lethality Assay and <em>Allium cepa</em>&nbsp;Aberration Assay was based from the result of the range finding test.</p><p>The study was conducted in the laboratory rooms of the Department of Biology and Department of Pharmacy, University of San Carlos, Talamban Campus, and allotted time for experimentation was during first semester of S.Y. 2017-2018.</p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>Definition of Terms</strong></p><p><strong>&nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp;</strong></p><p><strong>&nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; Median Lethal Concentration (LC50). &nbsp;</strong>It is the concentration of plant extract from the leaves of <em>Solanum tuberosum</em>&nbsp;that causes death to the mature nauplii<em>.</em></p><p><strong>Mitotic Index (MI). </strong>It is one of the parameters used to measure the genotoxicity of the leaf extract of <em>Solanum tuberosum</em>&nbsp;using <em>Allium cepa</em>&nbsp;by counting the number of cells dividing and not dividing.</p><p><strong>&nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; Percent Chromosomal Aberrations (CA).</strong>&nbsp;This refers to the activity of the test extract to induce changes in either total number of chromosomes or in chromosomal structure after the exposure of <em>Allium cepa</em>&nbsp;as indicated by the presence of bridges, fragments, laggards or vagrants.</p><p><strong>Percent Cytotoxicity. </strong>This refers to the activity of the leaf extracts of <em>Solanum tuberosum</em>&nbsp;to the brine shrimps based from the percent mortality of treatment group and the control group.</p><p><strong>Percent Mortality. </strong>This refers to the activity of the leaf extracts of <em>Solanum tuberosum</em>&nbsp;to the brine shrimps as indicated by the number of dead nauplii and total nauplii remaining from the total nauplii.</p><p><strong>Percent Root Growth. </strong>It is one of the parameters used to measure genotoxicity. It refers to the activity of the leaf extracts of <em>Solanum tuberosum</em>&nbsp;to the root growth of the onion bulbs measured by the difference of root length of the control group and treatment group</p><p><strong>&nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; Plant Extract.</strong>&nbsp;It is the product obtained after using the extraction method using methanol and chloroform (2:1; v/v), reduced to half under the rotary evaporator and evaporated to dryness under the fume hood.</p> <br><p></p>

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