Advances in Food Technology and Nutritional Sciences

Open journal

ISSN 2377-8350

Nanotechnology Based Semen Purification: A Panacea

Farooz Ahmad Lone*

Received: January 20th, 2016; Accepted: January 21st, 2016; Published: January 21st, 2016

With the inception of semen freezing technology, it has become possible to disseminate the superior germplasm through artificial insemination, which really revolutionized the dairy industry. However, production of high quality sperm insemination dose is crucial to the survival of this technology. Cryopreservation of sperm is a damaging phenomenon resulting in about 50% drop in the quality from pre-freeze to post-thaw.1 One of the pre-dominant contributor to this damage is the presence of dead sperm which act as a source of free radical generation in the semen. The Reactive Oxygen Species (ROS) cause an oxidative injury to the viable sperm, hence removal of such sperm from the semen could lead to improvement in the quality. To this, nanotechnology based semen purification offers an efficient way to eliminate the dead and/or prematurely capacitated spermatozoa from the semen.

Nanotechnology utilizes nanoparticles with size ranging from 1-100 nm. Ubiquitin protein under normal physiological conditions, is added to the dead and defective spermatozoa while their transit down the epididymis through a process that has been termed as protein ubiquitination.2Magnetic nanoparticles are prepared by coating them with either antibodies against ubiquitin or lectin labels such as Pisum Sativum Agglutinin (PSA) or Peanut agglutinin (PNA) which can bind to glucosidic residues that become exposed on the outer surface of a sperm with either inherently compromising or prematurely activated acrosome.3 These labeled nanoparticles are mixed with the semen sample and a strong magnet is then applied to concentrate the dead and defective spermatozoa at the bottom, that either bind to lectin coated or antibody coated nanoparticles. In this way dead or defective sperm are removed from the sample and a high quality semen sample is obtained.

The preliminary research on nanobased semen purification has produced some excellent results in boar and bull.4 So far no toxic or teratogenic effect of nanoparticles have been reported in dam or new born and a significant increase in conception rates after artificial insemination with nanopurified semen has been documented.4 However, this technology awaits further investigation to become a part of semen freezing technology in future. The nanotechnology based semen purification looks simple but has a tremendous potential to improve the quality of semen and can turn an infertile semen into a fertile one through the removal of dead and defective sperm from the semen sample. It is going to create a thrill among andrologists in near future.

1. Watson PF. The causes of reduced fertility with cryopreserved semen. Animal Reproduction Science. 2000; 60-61: 481-492. doi: 10.1016/S0378-4320(00)00099-3

2. Sutovsky P, Kennedy CE. Biomarker-based nanotechnology for the improvement of reproductive performance in beef and dairy cattle. Industrial Biotechnology. 2013; 9(1): 24-30. doi: 10.1089/ind.2012.0035

3. Baska KM, Sutovsky P. Protein modification by ubiquitination and its consequences for spermatogenesis, sperm maturation, fertilization and pre-implantation embryonic development. In: Tokumoto T, ed. New impact on protein modifications in the regulation of reproductive system. Kerala: Research Signpost; 2005: 83-114.

4. Feugang JM, Liao SF, Crenshaw MA, Clemente H, Willard ST, Ryan PL. Lectin-functionalized magnetic iron oxide nanoparticles for reproductive improvement. Journal of Fertilization: In Vitro, IVF-Worldwide, Reproductive Medicine, Genetics & Stem Cell Biology. 2015; 3(2): 145.

LATEST ARTICLES

Prevalence and Risk Factors of Subclinical Mastitis of Goats in Banadir Region, Somalia

Omar M. Salah*, Yasin H. Sh-Hassan, Moktar O. S. Mohamed, Mohamed A. Yusuf and Abas S. A. Jimale

doi.10.17140/VMOJ-9-184

Use of Black Soldier Fly (Hermetia illucens) Prepupae Reared on Organic Waste

Maggot Debridement Therapy: A Natural Solution for Wound Healing

Isayas A. Kebede*, Haben F. Gebremeskel and Gelan D. Dahesa,

doi.10.17140/VMOJ-9-183

Figure 11. Risk Map for the Introduction of Ruminant Diseases at Borders

Ovine Network in Morocco: Epizootics Spread Prevention and Identification of the At-Risk Areas for “Peste des Petits Ruminants” and “Foot and Mouth Disease”

Yassir Lezaar*, Mehdi Boumalik, Youssef Lhor, Moha El-Ayachi, Abelilah Araba and Mohammed Bouslikhane

doi.10.17140/EPOJ-8-131

The Impact of Family Dynamics on Palliative Care at the End-of-Life

Neil A. Nijhawan*, Rasha Mustafa and Aqeela Sheikh

doi.10.17140/PMHCOJ-10-154

Long-Term Follow-Up After Laparoscopic Radical Prostatectomy for Localized and Locally Advanced Prostate Cancer

Shrenik J. Shah*, Abhishek Jha, Chirag Davara, Rushi Mistry and Kapil Kachhadiya

doi.10.17140/UAOJ-7-147

Mindfulness, Sustained Attention and Post-Traumatic Stress in Tsunami Survivors

Christina Hagen*, Lars Lien, Edvard Hauff and Trond Heir

doi.10.17140/PCSOJ-2-115

Treatment and Control Methods of Bovine Mastitis: A Review

Isayas A. Kebede* and Gelan D. Dahesa

doi.10.17140/VMOJ-9-182

LATEST ARTICLES

Original Research

2024 Mar

Omar M. Salah*, Yasin H. Sh-Hassan, Moktar O. S. Mohamed, Mohamed A. Yusuf and Abas S. A. Jimale
Use of Black Soldier Fly (Hermetia illucens) Prepupae Reared on Organic Waste

review

2024 Mar

Isayas A. Kebede*, Haben F. Gebremeskel and Gelan D. Dahesa,