Protein misfolding and aggregation in cataract disease and prospects for prevention

Moreau, Kate L.; King, Jonathan

doi:10.1016/j.molmed.2012.03.005

Cited by 350 publications

(289 citation statements)

References 109 publications

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“…More than half the cases of blindness across the world are a result of cataract which is a serious condition of opacification of lenses caused by protein aggregation [1,2]. Transparency and refraction of lens is a cumulative effect of the crystalline protein present in high concentrations [3].…”

Section: Introductionmentioning

confidence: 99%

Impediment of selenite-induced cataract in rats by combinatorial drug laden liposomal preparation

Huang

Muhemaitia

2018

Libyan Journal of Medicine

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Cataract is the leading cause of blindness globally with surgery being the only form of treatment. But cataract surgery is accompanied by complications, chiefly intra-ocular infections. Hence, preventive nanoformulations may be extremely beneficial. In the present study, novel chitosan-coated liposomal formulations encapsulating a combination of drugs, lanosterol and hesperetin were prepared and characterized. The combinatorial liposomes were prepared by thin film evaporation active extrusion method. The characterization of liposomes was done by transmission electron microscopy, zeta potential, encapsulation efficiency, stability, cytotoxicity and in vitro release studies. The main difference between the chitosan-coated and uncoated combinatorial liposomes is the release of drugs as indicated by the in vitro release studies. The slow and sustained release of the drugs from chitosan-coated ones as against the burst release from uncoated indicates an increased retention time for combinatorial drugs in cornea. This leads to a delay in progression of cataract as seen from in vivo studies. Cytotoxicity studies indicate no cell toxicity of the coating of chitosan or the combination of drugs. Stability studies indicate that there were almost no changes in size, zeta potential and polydispersity index values of the combinatorial liposomes upon storage at room temperature for 60 days. Another important study is the estimation of antioxidant defense system. The estimated values of glutathione reductase, malondialdehyde and chief antioxidant enzymes point toward an upregulation of antioxidant defense system. From the results, it may be concluded that novel chitosan-coated combinatorial liposomes are effective in delaying or preventing of cataract.

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Section: Introductionmentioning

confidence: 99%

Impediment of selenite-induced cataract in rats by combinatorial drug laden liposomal preparation

Huang

Muhemaitia

2018

Libyan Journal of Medicine

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“…The eye lenses of all mammals are composed of fibre cells arranged in concentric layers around a central nucleus (Moreau and King 2012) (Fig. 2).…”

Section: Lens Structure and Ageingmentioning

confidence: 99%

“…While this lack of organelle-like sub-structure means the lens fibre cells have exceptional optical properties, it also means that once they have matured they have very little capacity to recycle or repair damaged proteins and no capacity to express new protein (Bloemendal et al 2004;Wang et al 2004). (Moreau and King 2012) The long life of the fibre cells is one of the defining features of the eye lens (Sharma and Santhoshkumar 2009). Due to the lack of protein turnover in the lens fibre cells, crystallin proteins must last the lifetime of each individual.…”

Section: Lens Structure and Ageingmentioning

confidence: 99%

“…The protein composition of a young lens can be very different to that of an aged lens. The aged eye is prone to diseases that result in loss of vision, the most common of which is cataract in the nucleus of the lens (Hains and Truscott 2007;Moreau and King 2012;Truscott 2005).…”

Section: Lens Structure and Ageingmentioning

confidence: 99%

“…The crystallin proteins of the lens are particularly long-lived and any age-related damage they suffer typically accumulates. Cataract occurs when these proteins aggregate into large bodies which cause light scattering and loss of visual acuity (Moreau and King 2012). While the lens has systems to prevent protein aggregation (Ecroyd and Carver 2009;Horwitz 2003), the build-up of damaging modifications over time will eventually overwhelm them and aggregate formation results.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Biophysical chemistry of the ageing eye lens

Ray

2015

Biophys Rev

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This review examines both recent and historical literature related to the biophysical chemistry of the proteins in the ageing eye, with a particular focus on cataract development. The lens is a vital component of the eye, acting as an optical focusing device to form clear images on the retina. The lens maintains the necessary high transparency and refractive index by expressing crystallin proteins in high concentration and eliminating all large cellular structures that may cause light scattering. This has the consequence of eliminating lens fibre cell metabolism and results in mature lens fibre cells having no mechanism for protein expression and a complete absence of protein recycling or turnover. As a result, the crystallins are some of the oldest proteins in the human body. Lack of protein repair or recycling means the lens tends to accumulate damage with age in the form of protein posttranslational modifications. The crystallins can be subject to a wide range of age-related changes, including isomerisation, deamidation and racemisation. Many of these modification are highly correlated with cataract formation and represent a biochemical mechanism for age-related blindness.

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Eye Lens Crystallins: Remarkable Long‐Lived Proteins

Grosas

Carver

2021

Long‐lived Proteins in Human Aging and Disease

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Protein misfolding and aggregation in cataract disease and prospects for prevention

Cited by 350 publications

References 109 publications

Impediment of selenite-induced cataract in rats by combinatorial drug laden liposomal preparation

Impediment of selenite-induced cataract in rats by combinatorial drug laden liposomal preparation

Biophysical chemistry of the ageing eye lens

Eye Lens Crystallins: Remarkable Long‐Lived Proteins

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