Optical micro-manipulation in HIV-1 infected cells for improved HIV-1 treatment and diagnosis

Lugongolo, Masixole Yvonne

06 1900

Laser application in the field of biological and medical sciences has significantly grown, thereby strengthening the field of Biophotonics. Research conducted in Biophotonics focuses on the concept of using light especially in the visible and near infrared regions of the electromagnetic radiation for the evaluation of living systems. In this thesis new discoveries are presented about low level laser therapy, optical trapping, transmission spectroscopy, luminescence spectroscopy and structured illumination microscopy (SIM), displaying the impact each technique has on HIV infected cells. The results showed that the irradiation of HIV-1 infected TZM-bl cells with low power red laser reduces HIV-1 infection. The outcomes of this study further proved that when irradiation is used in conjunction with efavirenz, an antiretroviral drug, HIV-1 infection could be reduced to undetectable levels in TZM-bl cells. Through the coupling of transmission spectroscopy with optical trapping, and separately, use of luminescence spectroscopy, label free diagnosis of HIV in infected cell samples was achieved. This finding affirms that HIV-1 infection can be detected in a label free manner when using laser based techniques. Furthermore, the photoluminescence spectrometer system was employed to generate a decay curve, which was necessary so as to have some understanding on lifetime of the luminescent signal in infected TZM-bl cells. Finally, in order to confirm that indeed TZM-bl cells were infected, an established super-resolution microscopy system SIM was used to detect HIV-1 infection in TZM-bl cells. Indeed in the infected cells viral molecules p24 and gp41 were detected through SIM, while they were not detected in uninfected cells. In future studies, super resolution microscopy would be coupled to an optical trapping system in order to confirm that each trapped cells is whether infected or uninfected so as to improve HIV diagnosis. / College of Science, Engineering and Technology / Ph. D. (Science, Engineering and Technology)

Human immunodeficiency virus (HIV)

TZM-bl cells

Infected cells

Uninfected cells

Label-free detection

Low level laser therapy

Optical trapping

Luminescence

Structured Illumination Microscopy

616.979205

Luminescence

Low-level radiation

HIV (Viruses) -- Treatment

HIV infections -- Treatment