J. E. Goldman scite author profile

alpha B-Crystallin is a subunit of alpha-crystallin, a major protein component of the vertebrate lens. Recently, its expression in various extra-lenticular tissues has been demonstrated by both Western and Northern blotting. In this study, the cellular distribution of alpha B-crystallin in rat organs was examined in detail using immunohistochemistry. Positive reactions were observed in lens, iris, heart, skeletal muscle (type 1 and type 2A fibers), striated muscle in skin and esophagus, Henle's loop and medullary collecting duct of the kidney, Schwann cells of peripheral nerves, glia of the central nervous system, and decidual cells of the placenta. A close correlation with markers of oxidative activity suggests that alpha B-crystallin is expressed in cells that have high levels of oxidative function.

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Embryonic divergence of oligodendrocyte and astrocyte lineages in developing rat cerebrum

LeVine

1988

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Oligodendrocyte and astrocyte lineages were traced in rat forebrain sections using single- and double-label immunoperoxidase and indirect immunofluorescent techniques. Antibodies were directed against antigenic markers, the expressions of which overlapped in time: GD3 ganglioside in immature neuroectodermal cells; vimentin in radial glia; glial fibrillary acidic protein (GFAP) in astrocytes; and carbonic anhydrase (CA) and galactocerebroside (GC) in oligodendrocytes. A histochemical stain for iron was also used as a marker of oligodendrocytes. Small cells of the subventricular zone (SVZ) were stained with anti-GD3 but not with the other antibodies. By 16 d of gestation (E16), the SVZ generated large, round cells and thick, process-bearing cells that were GD3+/CA+/iron+. These cells then appeared in the cingulum and, with time, increased in numbers and extended thick processes as they filled the subcortical white matter. These cells eventually lost their reactivity to anti-GD3 but became GC+/CA+ with processes extending to myelin sheaths. At E15 radial glia were stained with the anti-vimentin antibody but were negative for GFAP. At birth, only the vimentin+ radial glia midline between the 2 ventricles were GFAP+, but with time more vimentin+ cells became GFAP+. By 7 d of postnatal age all the vimentin+ cells were GFAP+ and had converged predominately on the cingulum. With time these cells condensed and took on characteristic shapes of astrocytes. The embryonic separation of the oligodendrocyte and the astrocyte lineage is supported by four pieces of evidence: (1) GD3+ cells were double labeled with anti-CA, and then went on to become GC+; (2) vimentin+ and GFAP+ cells were not also GD3+; (3) ultrastructural localization of anti-GD3 was confined to cells with characteristics consistent with developing oligodendrocytes; and (4) the shapes of GD3+, CA+, GC+, or iron+ cells did not resemble those of the vimentin+ or GFAP+ cells.

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OVEREXPRESSION OF THE STRESS PROTEINS ΑB-Crystallin AND HSP27 IN ALEXANDERʼS DISEASE

Head¹,

Corbin²,

Goldman³

1993

Journal of Neuropathology and Experimental Neurology

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Small heat shock proteins, the cytoskeleton, and inclusion body formation

Head

Goldman

2000

Neuropathology Appl Neurobio

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Since first being implicated in central nervous system disease 10 years ago, much has been learned concerning the regulation and function of the small heat shock protein alpha B-crystallin. Neuropathological, cellular and molecular studies all now point to a functional relationship between alpha B-crystallin and intermediate filaments. alpha B-crystallin accumulation marks reactive astrocytes in general in a wide variety of disorders and specifically intermediate filament-based glial inclusion bodies such as Rosenthal fibres found in astrocytes in Alexander's disease. In vitro, alpha B-crystallin expression suppresses intermediate filament aggregation and can prevent or reverse experimentally induced glial inclusion body formation. Conversely, dysregulation of glial fibrillary acidic protein expression in vivo results in Rosenthal fibre formation and upregulation of endogenous alpha B-crystallin expression. These data and those from studies recently carried out on other tissues strongly suggest that one function of this small heat shock protein is to modulate intermediate filament organization under conditions of physiological stress and neurodegenerative disease.

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ISOLATION OF A 17kMW COMPONENT OF ROSENTHAL FIBERS.

Goldman¹

1987

Journal of Neuropathology and Experimental Neurology

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J. E. Goldman

Cellular distribution of alpha B-crystallin in non-lenticular tissues.

Embryonic divergence of oligodendrocyte and astrocyte lineages in developing rat cerebrum

OVEREXPRESSION OF THE STRESS PROTEINS ΑB-Crystallin AND HSP27 IN ALEXANDERʼS DISEASE

Small heat shock proteins, the cytoskeleton, and inclusion body formation

ISOLATION OF A 17kMW COMPONENT OF ROSENTHAL FIBERS.

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