Kenneth S. Landreth scite author profile

The components of the immune system have not been traditionally emphasized as potential target organs in standard developmental and reproductive toxicity (DART) protocols. A number of workshops have been organized in recent years to examine scientific questions that underlie developmental immunotoxicity tests, and the interpretation of results as they relate to human risk assessment. A key question that must be addressed is to determine the most appropriate species and strains to model the developing human immune system. The objective of this review is to compare the anatomical and functional development of the immune system in several species important to either preclinical studies for drug development or safety assessments for chemicals, with what is known in humans. The development of the immune system in humans will be compared to what is known in mice, rats, dogs and nonhuman primates.

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Workshop to identify critical windows of exposure for children's health: immune and respiratory systems work group summary.

Dietert

Etzel

Chen

et al. 2000

Environ Health Perspect

230

122

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Fetuses, infants, and juveniles (preadults) should not be considered simply "small adults" when it comes to toxicological risk. We present specific examples of developmental toxicants that are more toxic to children than to adults, focusing on effects on the immune and respiratory systems. We describe differences in both the pharmacokinetics of the developing immune and respiratory systems as well as changes in target organ sensitivities to toxicants. Differential windows of vulnerability during development are identified in the context of available animal models. We provide specific approaches to directly investigate differential windows of vulnerability. These approaches are based on fundamental developmental biology and the existence of discrete developmental processes within the immune and respiratory systems. The processes are likely to influence differential developmental susceptibility to toxicants, resulting in lifelong toxicological changes. We also provide a template for comparative research. Finally, we discuss the application of these data to risk assessment.

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Workshop to Identify Critical Windows of Exposure for Children's Health: Immune and Respiratory Systems Work Group Summary

Dietert¹,

Etzel²,

Chen³

et al. 2000

Environmental Health Perspectives

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Critical windows in development of the rodent immune system

Landreth

2002

Hum Exp Toxicol

116

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The immune system of rodents, like that in humans, develops from a population of pluripotential hematopoietic stem cells (HSC) that are generated early in gestation from uncommitted mesenchymal stem cells in the intra-embryonic splanchnoplure surrounding the heart. This early population of HSC gives rise to all circulating blood cell lineages, including cells of the innate and acquired immune system. To access the impact of chemical exposure on the developing immune system and establish developmental windows of potential vulnerability to these exposures, it is essential to first consider the anatomical development of hematopoietic and lymphopoietic tissues and the sequence of appearance of cells that give rise to the immune system. This is particularly true in embryonic development because, after they initially appear in intra-embryonic mesenchyme early in gestation, HSC migrate through an orderly series of tissues before establishing residence in the bone marrow and thymus. The effect of exposure to chemical insults in utero, then, may differ depending on the specific timing of exposure and anatomical location of hematopoiesis. Mechanisms and consequences of developmental immunotoxicity in experimental animals will need to be considered in that context. This review presents an overview of developmental hematopoiesis and a working hypothesis of critical developmental windows of vulnerability of this developmental system to toxic insult by chemical exposure.

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5-Hydroxyindoleacetic acid and substance P profiles in patients receiving emetogenic chemotherapy

Higa

Auber²,

Altaha

et al. 2006

J Oncol Pharm Pract

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