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2. Perspectives of Infant Active Play: A Qualitative Comparison of Working Versus Stay-at-home Parents

Author

Danae Dinkel, Kailey Snyder, John P. Rech, and Kim Masuda

Subjects
Parents, medicine.medical_specialty, media_common.quotation_subject, Developmental psychology, 03 medical and health sciences, Child Development, 0302 clinical medicine, Working mother, Perception, Humans, Medicine, 030212 general & internal medicine, Child, book, Qualitative Research, media_common, Physical activity, business.industry, Communication, lcsh:Public aspects of medicine, Public health, Public Health, Environmental and Occupational Health, Theory of planned behavior, Infant, lcsh:RA1-1270, Cognition, 030229 sport sciences, Parent, Content analysis, Active play, book.magazine, Stay-at-home mother, Biostatistics, business, Research Article, Qualitative research
Abstract

Background: Parents play a key role in infants’ development through their interactions and the type of environment they provide for their child to promote active play. The amount of time parents are able to spend with their infant is dependent on their working status, yet few studies have explored parents’ perceptions of their infants’ active play by parental working status. The purpose of this study was to explore parents’ perceptions of active play and compare responses between working and stay at home parents. Methods: Twenty-nine parents participated in this qualitative study by completing a one-time, in-person semi-structured interview based on the Theory of Planned Behavior. Themes were developed and the proportion of working and stay at home parents who responded within each theme were used to compare for differences between working status using a directed content analysis approach. Results: All parents believed active play could have a positive effect on their child’s development through physical, social and emotional, cognitive, and/or language and communication development. However, stay at home parents reported a broader impact of active play across these domains; whereas working parents most often referenced active play as impacting infant’s physical development. Social and emotional interactions were the highest reported form of active play among all parents. Additionally, all parents described similar barriers to increasing the time for active play. The most commonly reported barrier for all parents was time or schedule followed by care needs of the infant, environmental concerns, and need for restrictive devices (e.g., car seats). More stay at home parents than working parents reported the care needs of the infant as being a barrier. Recommendations for active play were not widely known amongst all parents, with a higher percentage of working parents reporting they would listen to a healthcare provider.Conclusions: Working status of parents seems to have implications on certain aspects and perceptions of active play which in turn may influence infants’ physical development. Future studies should objectively assess the impact of parents’ working status on infant development and explore how gender of the parent may serve as a confounding variable.

Published
2020

3. ABHD12 and LPCAT3 interplay regulates a lyso-phosphatidylserine-C20:4 phosphatidylserine lipid network implicated in neurological disease

Author

Daisuke Ogasawara, Bruno Conti, Jason Germain, Kim Masuda, Liron Bar-Peled, Olesya A. Ulanovskaya, Amanda J. Roberts, Jie Gao, Taka-Aki Ichu, Sabrina Barbas, Benjamin F. Cravatt, Carlos A. Aguirre, Alex Reed, and Peter Tontonoz

Subjects
Central nervous system, Neurological disorder, Phosphatidylserines, Microgliosis, Biochemistry, Article, chemistry.chemical_compound, Mice, ABHD12 Gene, Retinitis pigmentosa, medicine, Animals, Mice, Knockout, Cerebellar ataxia, Molecular Structure, Chemistry, 1-Acylglycerophosphocholine O-Acyltransferase, Phosphatidylserine, medicine.disease, Monoacylglycerol Lipases, Cell biology, medicine.anatomical_structure, lipids (amino acids, peptides, and proteins), medicine.symptom, Nervous System Diseases, Polyneuropathy
Abstract

PHARC (polyneuropathy, hearing loss, cerebellar ataxia, retinitis pigmentosa, and cataract) is a human neurological disorder caused by deleterious mutations in the ABHD12 gene, which encodes an integral membrane lyso-phosphatidylserine (lyso-PS) lipase. Pharmacological or genetic disruption of ABHD12 leads to higher levels of lyso-PS lipids in human cells and the central nervous system (CNS) of mice. ABHD12 loss also causes rapid rewiring of PS content, resulting in selective increases in the level of arachidonoyl (C20:4) PS and decreases in the levels of other PS species. The biochemical basis for ABHD12-dependent PS remodeling and its pathophysiological significance remain unknown. Here, we show that genetic deletion of the lysophospholipid acyltransferase LPCAT3 blocks accumulation of brain C20:4 PS in mice lacking ABHD12 and concurrently produces hyper-increases in the level of lyso-PS in these animals. These lipid changes correlate with exacerbated auditory dysfunction and brain microgliosis in mice lacking both ABHD12 and LPCAT3. Taken together, our findings reveal that ABHD12 and LPCAT3 coordinately regulate lyso-PS and C20:4 PS content in the CNS and point to lyso-PS lipids as the likely bioactive metabolites contributing to PHARC-related neuropathologies.

Published
2020

4. Fatty acid amide hydrolase shapes NKT cell responses by influencing the serum transport of lipid antigen in mice

Author

Joanna Pawlak, Benjamin F. Cravatt, Kim Masuda, Stefan Freigang, Yang Liu, Victoria Zadorozhny, Lisa Kain, Rana Herro, Nicolas Schrantz, Philippe Krebs, Paul B. Savage, Luc Teyton, Michele K. McKinney, and Albert Bendelac

Subjects
T-Lymphocytes, medicine.medical_treatment, Cell, Galactosylceramides, chemical and pharmacologic phenomena, Lymphocyte Activation, Amidohydrolases, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, Adjuvants, Immunologic, Antigen, Fatty acid amide hydrolase, medicine, Animals, Antigens, 030304 developmental biology, 0303 health sciences, biology, hemic and immune systems, General Medicine, Natural killer T cell, 3. Good health, Cell biology, Mice, Inbred C57BL, CTL, medicine.anatomical_structure, Cytokine, CD1D, Immunology, biology.protein, Natural Killer T-Cells, lipids (amino acids, peptides, and proteins), Glycolipids, T-Lymphocytes, Cytotoxic, Research Article, 030215 immunology
Abstract

The potent regulatory properties of NKT cells render this subset of lipid-specific T cells a promising target for immunotherapeutic interventions. The marine sponge glycolipid alpha-galactosylceramide (alphaGalCer) is the proto-typic NKT cell agonist, which elicits this function when bound to CD1d. However, our understanding of the in vivo properties of NKT cell agonists and the host factors that control their bioactivity remains very limited. In this report, we isolated the enzyme fatty acid amide hydrolase (FAAH) from mouse serum as an alphaGalCer-binding protein that modulates the induction of key effector functions of NKT cells in vivo. FAAH bound alphaGalCer in vivo and in vitro and was required for the efficient targeting of lipid antigens for CD1d presentation. Immunization of Faah-deficient mice with alphaGalCer resulted in a reduced systemic cytokine production, but enhanced expansion of splenic NKT cells. This distinct NKT response conferred a drastically increased adjuvant effect and strongly promoted protective CTL responses. Thus, our findings identify not only the presence of FAAH in normal mouse serum, but also its critical role in the tuning of immune responses to lipid antigens by orchestrating their transport and targeting for NKT cell activation. Our results suggest that the serum transport of lipid antigens directly shapes the quality of NKT cell responses, which could potentially be modulated in support of novel vaccination strategies.

Published
2010

5. N-Palmitoyl Glycine, a Novel Endogenous Lipid That Acts As a Modulator of Calcium Influx and Nitric Oxide Production in Sensory Neurons

Author

Jan Anker Jahnsen, Michael R. Vasko, Eivind Vefring, Sumner Burstein, Benjamin F. Cravatt, David K. O’Dell, Douglas McHugh, Eric L. Thompson, Kim Masuda, H. Velocity Hughes, Neta Rimmerman, Jay Shih Chieh Chen, Sherry Shu Jung Hu, Heather B. Bradshaw, Anne L. Prieto, and J. Michael Walker

Subjects
Pharmacology, Calcium channel, chemistry.chemical_element, Anandamide, Calcium, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Biochemistry, Dorsal root ganglion, Fatty acid amide hydrolase, Glycine, medicine, Molecular Medicine, GPR18, Arachidonic acid
Abstract

N-arachidonoyl glycine is an endogenous arachidonoyl amide that activates the orphan G protein-coupled receptor (GPCR) GPR18 in a pertussis toxin (PTX)-sensitive manner and produces antinociceptive and antiinflammatory effects. It is produced by direct conjugation of arachidonic acid to glycine and by oxidative metabolism of the endocannabinoid anandamide. Based on the presence of enzymes that conjugate fatty acids with glycine and the high abundance of palmitic acid in the brain, we hypothesized the endogenous formation of the saturated N-acyl amide N-palmitoyl glycine (PalGly). PalGly was partially purified from rat lipid extracts and identified using nano-high-performance liquid chromatography/hybrid quadrupole time-of-flight mass spectrometry. Here, we show that PalGly is produced after cellular stimulation and that it occurs in high levels in rat skin and spinal cord. PalGly was up-regulated in fatty acid amide hydrolase knockout mice, suggesting a pathway for enzymatic regulation. PalGly potently inhibited heat-evoked firing of nociceptive neurons in rat dorsal horn. In addition, PalGly induced transient calcium influx in native adult dorsal root ganglion (DRG) cells and a DRG-like cell line (F-11). The effect of PalGly on the latter cells was characterized by strict structural requirements, PTX sensitivity, and dependence on the presence of extracellular calcium. PalGly-induced calcium influx was blocked by the nonselective calcium channel blockers ruthenium red, 1-(beta-[3-(4-methoxyphenyl)propoxy]-4-methoxyphenethyl)-1H-imidazole (SK&F96365), and La3+. Furthermore, PalGly contributed to the production of NO through calcium-sensitive nitric-oxide synthase enzymes present in F-11 cells and was inhibited by the nitric-oxide synthase inhibitor 7-nitroindazole.

Published
2008

6. The hereditary spastic paraplegia-related enzyme DDHD2 is a principal brain triglyceride lipase

Author

Melissa M. Dix, Malcolm R. Wood, Ku-Lung Hsu, Thais Takei, Kim Masuda, Benjamin F. Cravatt, Jordon M. Inloes, and Andreu Viader

Subjects
medicine.medical_specialty, Hereditary spastic paraplegia, Central nervous system, Biology, Phospholipase, Enzyme activator, Cognition, Internal medicine, Lipid droplet, medicine, Animals, Humans, Enzyme Inhibitors, Triglycerides, Neurons, Triglyceride lipase, Multidisciplinary, Spastic Paraplegia, Hereditary, Genetic disorder, Brain, Reproducibility of Results, Serine hydrolase, Lipase, Lipid Droplets, Biological Sciences, medicine.disease, Phospholipases A1, Enzyme Activation, Mice, Inbred C57BL, Endocrinology, medicine.anatomical_structure, HEK293 Cells, Biochemistry, Phospholipases, Gene Targeting, Gene Deletion, Locomotion
Abstract

Complex hereditary spastic paraplegia (HSP) is a genetic disorder that causes lower limb spasticity and weakness and intellectual disability. Deleterious mutations in the poorly characterized serine hydrolase DDHD2 are a causative basis for recessive complex HSP. DDHD2 exhibits phospholipase activity in vitro, but its endogenous substrates and biochemical functions remain unknown. Here, we report the development of DDHD2(-/-) mice and a selective, in vivo-active DDHD2 inhibitor and their use in combination with mass spectrometry-based lipidomics to discover that DDHD2 regulates brain triglycerides (triacylglycerols, or TAGs). DDHD2(-/-) mice show age-dependent TAG elevations in the central nervous system, but not in several peripheral tissues. Large lipid droplets accumulated in DDHD2(-/-) brains and were localized primarily to the intracellular compartments of neurons. These metabolic changes were accompanied by impairments in motor and cognitive function. Recombinant DDHD2 displays TAG hydrolase activity, and TAGs accumulated in the brains of wild-type mice treated subchronically with a selective DDHD2 inhibitor. These findings, taken together, indicate that the central nervous system possesses a specialized pathway for metabolizing TAGs, disruption of which leads to massive lipid accumulation in neurons and complex HSP syndrome.

Published
2014

7. Carcinoma and stromal enzyme activity profiles associated with breast tumor growth in vivo

Author

Sherry Niessen, John R. Yates, Barbara M. Mueller, Nadim Jessani, Mark Humphrey, Benjamin F. Cravatt, Kim Masuda, W. Hayes McDonald, and Beena Gangadharan

Subjects
Stromal cell, Proteome, Transplantation, Heterologous, Breast Neoplasms, Mice, SCID, Biology, Mice, Breast cancer, In vivo, Cell Line, Tumor, Consensus Sequence, medicine, Animals, Humans, Peptide-N4-(N-acetyl-beta-glucosaminyl) Asparagine Amidase, Amino Acid Sequence, Multidisciplinary, Cancer, Biological Sciences, medicine.disease, Molecular biology, In vitro, Peptide Fragments, Cell culture, Tumor progression, Cancer cell, Female, Stromal Cells, Neoplasm Transplantation, Peptide Hydrolases
Abstract

Cancer research depends on the use of human cell lines for both the in vitro (culture) and in vivo (xenograft) analysis of tumor progression and treatment. However, the extent to which cultured preparations of human cancer lines display similar properties in vivo , where important host factors may influence tumor biology, remains unclear. Here, we address this question by conducting a functional proteomic analysis of the human breast cancer line MDA-MB-231 grown in culture and as orthotopic xenograft tumors in the mammary fad pad of immunodeficient mice. Using a suite of activity-based chemical probes, we identified carcinoma (human) enzyme activities that were expressed selectively in culture or in xenograft tumors. Likewise, distinct groups of stromal (mouse) enzyme activities were found that either infiltrated or were excluded from xenograft tumors, indicating a contribution by specific host components to breast cancer development. MDA-MB-231 cells isolated from tumors exhibited profound differences in their enzyme activity profiles compared with the parent cell line, including the dramatic posttranscriptional up-regulation of the serine proteases urokinase plasminogen activator and tissue plasminogen activator and down-regulation of the glycolytic enzyme phosphofructokinase. These altered enzyme activity profiles correlated with significantly greater tumor growth rates and metastases for xenograft-derived MDA-MB-231 cells upon reintroduction into mice. Collectively, these data indicate that the in vivo environment of the mouse mammary fat pad cultivates the growth of human breast cancer cells with elevated tumorigenic properties and highlight the value of activity-based protein profiling for identifying proteomic signatures that depict such changes in cancer cell biology.

Published
2004

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