M. S. M. Bertelli scite author profile

Which pathogenic mechanisms underlie age-related macular degeneration (AMD)? Are they different for dry and wet variants, or do they stem from common metabolic alterations? Where shall we look for altered metabolism? Is it the inner choroid, or is it rather the choroid–retinal border? Again, since cell-clearing pathways are crucial to degrade altered proteins, which metabolic system is likely to be the most implicated, and in which cell type? Here we describe the unique clearing activity of the retinal pigment epithelium (RPE) and the relevant role of its autophagy machinery in removing altered debris, thus centering the RPE in the pathogenesis of AMD. The cell-clearing systems within the RPE may act as a kernel to regulate the redox homeostasis and the traffic of multiple proteins and organelles toward either the choroid border or the outer segments of photoreceptors. This is expected to cope with the polarity of various domains within RPE cells, with each one owning a specific metabolic activity. A defective clearance machinery may trigger unconventional solutions to avoid intracellular substrates’ accumulation through unconventional secretions. These components may be deposited between the RPE and Bruch’s membrane, thus generating the drusen, which remains the classic hallmark of AMD. These deposits may rather represent a witness of an abnormal RPE metabolism than a real pathogenic component. The empowerment of cell clearance, antioxidant, anti-inflammatory, and anti-angiogenic activity of the RPE by specific phytochemicals is here discussed.

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Infection of Tissue Culture Cells with Bloodstream Trypomastigotes of Trypanosoma cruzi

Bertelli¹,

Brener²

1980

The Journal of Parasitology

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Infection of tissue culture ("Vero" and bovine embryo skeletal muscle cells) with bloodstream from of T. cruzi depends on an adequate serum concentration and a suitable parasite population. The percentages of infections of "Vero" cells obtained with inocula presenting about 90% (Y strain) and 2% (CL strain) of slender trypomastigotes wree 11.8 +/- 4.9% and 0.1%, respectively, strongly indicating that the presence of slender forms was essential for cell infection to occur. Nevertheless, other biological characteristics seem to influence the infectivity of bloodstream stages, because evidence was provided that slender forms of the CL strain were less infective to "Vero" and muscle cells that slender forms of the Y strain.

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Strain‐Dependent Thermosensitivity Influencing Intracellular Differentiation of Trypanosoma cruzi in Cell Culture*

Brener

Golgher

Bertelli

et al. 1976

The Journal of Protozoology

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Temperature strongly influenced morphogenesis of intracellular trypomastigotes in cell culture infected with 2 different strains of T. cruzi. With the Gilmar strain the amastigote-to-trypomastigote differentiation readily occurred at 33 and 37 C, whereas the CL strain differentiation took place at 33C but was inhibited at 37 C. The possiblity of this selective thermosensitivity resulting from mutational adaptation of the parasite is discussed.

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Nutraceuticals for dry age-related macular degeneration: a case report based on novel pathogenic and morphological insights

Pinelli¹,

Bertelli²,

Scaffidi³

et al. 2020

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Intraspecific Variation in Trypanosoma cruzi: Effect of Temperature on the Intracellular Differentiation in Tissue Culture

Bertelli¹,

Golgher²,

Brener³

1977

The Journal of Parasitology

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Inhibition of T. cruzi amastigote-trypomastigote differentiation in tissue culture at 37 C is a strain-dependent event. When eight T. cruzi strains were submitted to two environmental temperatures (33 and 37 C), the following patterns of differentiation were obtained: in three strains, transformation was inhibited at 37 C but readily occurred at 33 C; in three other strains differentiation took place at both temperatures; finally, in the two remaining strains, a partial inhibition was detected at 37 C. The authors discuss the meaning of this intraspecific variation and the possible relationship with the occurrence of temperature-sensitive mutants among protozoa.

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M. S. M. Bertelli

A Re-Appraisal of Pathogenic Mechanisms Bridging Wet and Dry Age-Related Macular Degeneration Leads to Reconsider a Role for Phytochemicals

Infection of Tissue Culture Cells with Bloodstream Trypomastigotes of Trypanosoma cruzi

Strain‐Dependent Thermosensitivity Influencing Intracellular Differentiation of Trypanosoma cruzi in Cell Culture*

Nutraceuticals for dry age-related macular degeneration: a case report based on novel pathogenic and morphological insights

Intraspecific Variation in Trypanosoma cruzi: Effect of Temperature on the Intracellular Differentiation in Tissue Culture

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