Amanda Pellegrino de Iraldi scite author profile

Cyclic AMP-responsive element binding protein (CREB) is critically involved in many important brain functions, including the formation of long-term memory. CREB is the best characterized member of a family of transcription factors (CREB/ATF family) recognized to be important nuclear targets for intracellular signal transduction systems. Here we show, by using different approaches, that CREB is unexpectedly localized to mitochondria of the rat brain. Controlled subcellular fractionation of hippocampus and cerebral cortex showed that both synaptic and nonsynaptic mitochondria exhibited immunoreactivity to the phosphorylated form of CREB (pCREB). Moreover, CREB extracted from synaptic mitochondria is able to be phosphorylated by the catalytic subunit of protein kinase A and dephosphorylated by protein phosphatase 1 or 2B. DNA mobility shift assays showed the presence of binding activity to the calciumcyclic AMP-responsive element in mitochondrial extracts from hippocampus; this binding complex was specifically supershifted by an anti-CREB antibody. Immunoelectron microscopic analysis of hippocampal subcellular fractions revealed that pCREB immunoreactivity is localized in close association with the inner mitochondrial membrane. These results, together with recent findings describing the presence and phosphorylation of CREB in developing dendrites, suggest that CREB may participate in different mechanisms involved in the communication between extracellular signals and the expression of genes. Key Words: Cyclic AMP-responsive element binding protein-Brain mitochondria.

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On the Isolation of Nerve Endings and Synaptic Vesicles

Robertis¹,

Iraldi²,

Rodríguez³

et al. 1961

164

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Isolation of oligodendroglial cells from young and adult whole rat brains using an in situ generated percoll density gradient

Mattera

Larocca

Iraldi

et al. 1984

Neurochemistry International

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Isolation of Synaptic Vesicles from Nerve Endings of the Rat Brain

Robertis¹,

Arnaiz²,

Iraldi³

1962

Nature

111

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Plurivesicular Secretory Processes and Nerve Endings in the Pineal Gland of the Rat

Robertis¹,

Iraldi²

1961

163

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The pineal body of white normal rats, 1.5 to 3 months old, was studied under the electron microscope. A single type of parenchymal cell--the pinealocyte--is recognized as the main component of the tissue, and some of the structural characteristics of the nucleus and cytoplasm are described. The main morphological characteristic of the pinealocytes is represented by club-shaped perivascular expansions connected to the cell by thin pedicles. They are found lying in a large, clear space surrounding the blood capillaries. The name plurivesicular secretory processes is proposed, to emphasize the main structural feature and the probable function of these cellular expansions. A tubulofibriUar component is mainly found in the pedicle, and within the expansion there are numerous small mitochondria and densily packed vesicles of about 425 A. Two types of vesicles, one with a homogeneous content and another with a very dense osmium deposit, are described. Between the two types there are intermediary forms. In these processes, mitochondria show profound changes which may lead to complete vacuolization. The significance of this plurivesicular secretory component is discussed in the light of recent work on the biogenic amines of the pineal body and preliminary experiments showing the release of the vesicles containing dense granules after treatment with reserpine. These vesicles are interpreted as the site of storage of some of the biogenic amines. Bundles of unmyelinated nerve fibers and endings on large blood vessels which also contain a plurivesicular content are described and tentatively interpreted as adrenergic nerve terminals.

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Subcellular Fractionation

Arnaiz¹,

Iraldi²

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Synaptic vesicles from the rat hypothalmus. Isolation and norepinephrine content

Robertis¹,

Iraldi²,

Arnaiz³

et al. 1965

Life Sciences

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