Thomas M. Onorato scite author profile

Mono-(2-ethylhexyl) phthalate (MEHP), the biologically active metabolite of the plasticizer di-(2-ethylhexyl) phthalate, is a member of a class of chemical compounds with known adverse effects on the male reproductive system. Recent studies showed that oxidative stress and mitochondrial dysfunction in germ cells may contribute to phthalate-induced disruption of spermatogenesis. To determine whether the redox-protein mitochondrial thioredoxindependent peroxidase, peroxiredoxin 3 (Prx3), may be a component of germ cell homeostasis mechanisms, this study first examined the physiologic relevance of Prx3 in the rodent testis by determining its cell-specific expression. Our findings show that prx3 mRNA is expressed in a developmental, cell-specific manner in rat Leydig cells, Sertoli cells, and germ cells; among mouse germ cells, prx3 expression was highest in spermatocytes, findings consistent with those in rat. In mouse meiotic spermatocytes, Prx3 was strikingly localized at the nuclear perimeter and cytoplasm, findings suggestive of a direct role for Prx3 in determining spermatocyte response to toxicants. To better define the mechanisms involved in male germ cell dysfunction following phthalate exposure, an immortalized mouse spermatocyte-derived germ cell line, GC-2spd(ts), was exposed to MEHP (24 hours; 100 and 200 mM). We determined whether Prx3 and cyclooxygenase-2 (COX-2), pivotal proteins involved in oxidative stress responses in spatially restricted subcellular domains, were affected. Mitochondrial Prx3 and mitochondrial and cytosolic COX-2 significantly increased following 200 mM MEHP treatment; proliferation was inhibited without inducing cell death. Using this germ cell model, the data suggest that changes in cellular oxidation-reduction (redox) homeostasis in the germline can accompany MEHP exposure, disrupting mitochondrial antioxidant defenses, despite absence of phthalate-induced apoptosis.

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Aging reduces glycerol-3-phosphate acyltransferase activity in activated rat splenic T-lymphocytes

Collison

Kannan

Onorato

et al. 2005

Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biolog

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Dysferlin is essential for endocytosis in the sea star oocyte

Oulhen

Onorato

Ramos

et al. 2014

Developmental Biology

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Dysferlin is a calcium-binding transmembrane protein involved in membrane fusion and membrane repair. In humans, mutations in the dysferlin gene are associated with muscular dystrophy. In this study, we isolated plasma membrane-enriched fractions from full-grown immature oocytes of the sea star, and identified dysferlin by mass spectrometry analysis. The full-length dysferlin sequence is highly conserved between human and the sea star. We learned that in the sea star Patiria miniata, dysferlin RNA and protein are expressed from oogenesis to gastrulation. Interestingly, the protein is highly enriched in the plasma membrane of oocytes. Injection of a morpholino against dysferlin leads to a decrease of endocytosis in oocytes, and to a developmental arrest during gastrulation. These results suggest that dysferlin is critical for normal endocytosis during oogenesis and for embryogenesis in the sea star and that this animal may be a useful model for studying the relationship of dysferlin structure as it relates to its function.

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Regeneration in bipinnaria larvae of the bat star Patiria miniata induces rapid and broad new gene expression

Oulhen

Heyland

Carrier

et al. 2016

Mechanisms of Development

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Background Some metazoa have the capacity to regenerate lost body parts. This phenomenon in adults has been classically described in echinoderms, especially in sea stars (Asteroidea). Sea star bipinnaria larvae can also rapidly and effectively regenerate a complete larva after surgical bisection. Understanding the capacity to reverse cell fates in the larva is important from both a developmental and biomedical perspective; yet, the mechanisms underlying regeneration in echinoderms are poorly understood. Results Here, we describe the process of bipinnaria regeneration after bisection in the bat star Patiria miniata. We tested transcriptional, translational, and cell proliferation activity after bisection in anterior and posterior bipinnaria halves as well as expression of SRAP, reported as a sea star regeneration associated protease (Vickery et al., 2001b). Moreover, we found several genes whose transcripts increased in abundance following bisection, including: vasa, dysferlin, vitellogenin 1 and vitellogenin 2. Conclusion These results show a transformation following bisection, especially in the anterior halves, of cell fate reassignment in all three germ layers, with clear and predictable changes. These results define molecular events that accompany the cell fate changes coincident to the regenerative response in echinoderm larvae.

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Thomas M. Onorato

Mono‐(2‐ethylhexyl) Phthalate Increases Spermatocyte Mitochondrial Peroxiredoxin 3 and Cyclooxygenase 2

Aging reduces glycerol-3-phosphate acyltransferase activity in activated rat splenic T-lymphocytes

Dysferlin is essential for endocytosis in the sea star oocyte

Regeneration in bipinnaria larvae of the bat star Patiria miniata induces rapid and broad new gene expression

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