{"id":1889,"date":"2016-10-03T15:03:27","date_gmt":"2016-10-03T15:03:27","guid":{"rendered":"http:\/\/www.caltagmedsystems.co.uk\/information\/?p=1889"},"modified":"2016-10-03T15:36:23","modified_gmt":"2016-10-03T15:36:23","slug":"mitophagy","status":"publish","type":"post","link":"https:\/\/www.caltagmedsystems.co.uk\/information\/mitophagy\/","title":{"rendered":"What do mitochondria have to do with mitophagy?"},"content":{"rendered":"

What is mitophagy? It is when damaged mitochondria are removed from the cell by autophagy. The damaged mitochondria end up in lysosomes for their final disposal. This whole process is to maintain and assure proper cellular function. The importance of this biological process is that it has been implicated in disease states such as cancer and Parkinson\u2019s disease.<\/p>\n

There are two proteins involved with mitophagy, Parkin and PINK1. These proteins have been found mutated in early onset Parkinson\u2019s Disease. If the pathway for maintaining mitochondria is deficient, the onset of disease occurs. PINK1 is one of the first to detect if there is a problem with the mitochondrial membrane. PINK1 will go on to recruit Parkin, which only binds to damaged mitochondria(1)<\/sup>. It is thought that Parkin induces mitophagy by ubiquitinating the outer mitochondrial membrane and recruiting other proteins. At this point, the damaged mitochondria is encompassed by the autophagosome, and subsequently fuses with lysosomes for degradation.<\/p>\n

An interesting method for observing mitophagy is by using live cell imaging. MBL has created a vector that combines Keima-Red (fluorescent protein) and Parkin. Using this one vector, you can now observe mitophagy occurring in real time. Keima has an excitation spectra that changes with pH. It changes from 440nm wavelength in a neutral environment to 586nm in an acidic environment. Using vector MT-mKeima-Red<\/a> and drug treatment, one can visualise before and after effects of mitophagy.<\/p>\n

\"observed<\/a><\/p>\n

The figure below shows the effects of CCCP and oligomycin, drugs that affect mitochondrial membrane potential. Through mitophagy induction, the mitochondria-localised MT-mKeima-Red is displayed in red in ratio images showing its localisation in an acidic environment (B-B\u201d). The neutraliser NH4Cl is then administered, which forces the entire cell into a neutral environment and the image turns to blue (C-C\u201d). The results agree with findings where the progression of mitophagy causes mitochondria to be engulfed in lysosomes when in an acidic environment(2)<\/sup>.<\/p>\n

\"Mitochondrial<\/a><\/p>\n

Find out\u00a0how MBLI can help your mitophagy needs today!<\/a><\/p>\n

Keima-Red for mitophagy detection in living cells<\/a><\/p><\/blockquote>\n