Sassan Hodge scite author profile

Learning processes in Drosophila have been studied through the use of Pavlovian associative memory tests, and these paradigms have been extremely useful in identifying both genetic factors and neuroanatomical structures that are essential to memory formation. Whether these same genes and brain compartments also contribute to memory formed from nonassociative experiences is not well understood. Exposures to environmental stressors such as predators are known to induce innate behavioral responses and can lead to new memory formation that allows a predator response to persist for days after the predator threat has been removed. Here, we utilize a unique form of nonassociative behavior in Drosophila where female flies detect the presence of endoparasitoid predatory wasps and alter their oviposition behavior to lay eggs in food containing high levels of alcohol. The predator-induced change in fly oviposition preference is maintained for days after wasps are removed, and this persistence in behavior requires a minimum continuous exposure time of 14 hr. Maintenance of this behavior is dependent on multiple long-term memory genes, including orb2, dunce, rutabaga, amnesiac, and Fmr1. Maintenance of the behavior also requires intact synaptic transmission of the mushroom body. Surprisingly, synaptic output from the mushroom body (MB) or the functions of any of these learning and memory genes are not required for the change in behavior when female flies are in constant contact with wasps. This suggests that perception of this predator that leads to an acute change in oviposition behavior is not dependent on the MB or dependent on learning and memory gene functions. Because wasp-induced oviposition behavior can last for days and its maintenance requires a functional MB and the wild-type products of several known learning and memory genes, we suggest that this constitutes a paradigm for a bona fide form of nonassociative long-term memory that is not dependent on associated experiences.KEYWORDS Drosophila melanogaster; learning and memory; long-term memory; behavior A fundamental trait that higher-order organisms possess is the ability to remember and recall past experiences. This wonderful ability of higher organisms to remember past experiences is observed in all animals and therefore drives intense interest to elucidate the molecular underpinning of learning and memory in model systems, such as Drosophila. Insight into the biology of memory has been gained with a wide array of experimental approaches ranging from behavioral phenomena and underlying physiological correlates to experimental interventions such as pharmacological, biochemical, and anatomical perturbations in model genetic systems. Genetic manipulations also provide key insight into behavioral plasticity, as this approach allows us to understand the genetic components regulating this plasticity while providing clues into the extent of evolutionary conservation among the different molecular mechanisms governing this plasticity (Greenspan 1995).Drosophila...

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Deep-Tissue Oxygen Monitoring in the Brain of Rabbits for Stroke Research

Khan

Hou

Eskey

et al. 2015

Stroke

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Assessment of the Changes in 9L and C6 Glioma pO₂by EPR Oximetry as a Prognostic Indicator of Differential Response to Radiotherapy

Hou

Mupparaju²,

Lariviere

et al. 2013

Radiation Research

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Tumor hypoxia impedes the outcome of radiotherapy. As the extent of hypoxia in solid tumors varies during the course of radiotherapy, methods that can provide repeated assessment of tumor pO2 such as EPR oximetry may enhance the efficacy of radiotherapy by scheduling irradiations when the tumors are oxygenated. The repeated measurements of tumor pO2 may also identify responders, and thereby facilitate the design of better treatment plans for nonresponding tumors. We have investigated the temporal changes in the ectopic 9L and C6 glioma pO2 irradiated with single radiation doses less than 10 Gy by EPR oximetry. The 9L and C6 tumors were hypoxic with pO2 of approximately 5–9 mmHg. The pO2 of C6 tumors increased significantly with irradiation of 4.8–9.3 Gy. However, no change in the 9L tumor pO2 was observed. The irradiation of the oxygenated C6 tumors with a second dose of 4.8 Gy resulted in a significant delay in growth compared to hypoxic and 2 Gy × 5 treatment groups. The C6 tumors with an increase in pO2 of greater than 50% from the baseline of irradiation with 4.8 Gy (responders) had a significant tumor growth delay compared to nonresponders. These results indicate that the ectopic 9L and C6 tumors responded differently to radiotherapy. We propose that the repeated measurement of the oxygen levels in the tumors during radiotherapy can be used to identify responders and to design tumor oxygen guided treatment plans to improve the outcome.

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Improved Discrimination of Tumors with Low and Heterogeneous EGFR Expression in Fluorescence-Guided Surgery Through Paired-Agent Protocols

Wang

Folaron

et al. 2021

Mol Imaging Biol

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Purpose The goal of fluorescence-guided surgery (FGS) in oncology is to improve the surgical therapeutic index by enhancing contrast between cancerous and healthy tissues. However, optimal discrimination between these tissues is complicated by the nonspecific uptake and retention of molecular targeted agents and the variance of fluorescence signal. Paired-agent imaging (PAI) employs co-administration of an untargeted imaging agent with a molecular targeted agent, providing a normalization factor to minimize nonspecific and varied signals. The resulting measured binding potential is quantitative and equivalent to in vivo immunohistochemistry of the target protein. This study demonstrates that PAI improves the accuracy of tumor-to-healthy tissue discrimination compared to single-agent imaging for in vivo FGS. Procedures PAI using a fluorescent anti-epidermal growth factor receptor (EGFR) affibody molecule (ABY-029, eIND 122,681) with untargeted IRDye 700DX carboxylate was compared to ABY-029 alone in an oral squamous cell carcinoma xenograft mouse model at 3 h after dye administration (n = 30). Results PAI significantly enhanced tumor discrimination, as compared to ABY-029 alone in low EGFR-expressing tumors and highly heterogeneous populations including multiple cell lines with varying expression (diagnostic accuracy: 0.908 vs. 0.854 and 0.908 vs. 0.822; and ROC curve AUC: 0.963 vs. 0.909 and 0.957 vs. 0.909, respectively) indicating a potential for universal FGS image thresholds to determine surgical margins. In addition, PAI achieved significantly higher diagnostic ability than ABY-029 alone 0.25–5-h post injection and exhibited a stronger correlation to EGFR expression heterogeneity. Conclusion The quantitative receptor delineation of PAI promises to improve the surgical therapeutic index of cancer resection in a clinically relevant timeline.

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Neural circuitry of social learning in Drosophila requires multiple inputs to facilitate inter-species communication

et al. 2019

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Drosophila species communicate the threat of parasitoid wasps to naïve individuals. Communication of the threat between closely related species is efficient, while more distantly related species exhibit a dampened, partial communication. Partial communication between D . melanogaster and D . ananassae about wasp presence is enhanced following a period of cohabitation, suggesting that species-specific natural variations in communication ‘dialects’ can be learned through socialization. In this study, we identify six regions of the Drosophila brain essential for dialect training. We pinpoint subgroups of neurons in these regions, including motion detecting neurons in the optic lobe, layer 5 of the fan-shaped body, the D glomerulus in the antennal lobe, and the odorant receptor Or69a, where activation of each component is necessary for dialect learning. These results reveal functional neural circuits that underlie complex Drosophila social behaviors, and these circuits are required for integration several cue inputs involving multiple regions of the Drosophila brain.

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Sassan Hodge

A Novel Paradigm for Nonassociative Long-Term Memory inDrosophila: Predator-Induced Changes in Oviposition Behavior

Deep-Tissue Oxygen Monitoring in the Brain of Rabbits for Stroke Research

Assessment of the Changes in 9L and C6 Glioma pO₂by EPR Oximetry as a Prognostic Indicator of Differential Response to Radiotherapy

Improved Discrimination of Tumors with Low and Heterogeneous EGFR Expression in Fluorescence-Guided Surgery Through Paired-Agent Protocols

Neural circuitry of social learning in Drosophila requires multiple inputs to facilitate inter-species communication

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Sassan Hodge

A Novel Paradigm for Nonassociative Long-Term Memory inDrosophila: Predator-Induced Changes in Oviposition Behavior

Deep-Tissue Oxygen Monitoring in the Brain of Rabbits for Stroke Research

Assessment of the Changes in 9L and C6 Glioma pO2by EPR Oximetry as a Prognostic Indicator of Differential Response to Radiotherapy

Improved Discrimination of Tumors with Low and Heterogeneous EGFR Expression in Fluorescence-Guided Surgery Through Paired-Agent Protocols

Neural circuitry of social learning in Drosophila requires multiple inputs to facilitate inter-species communication

Contact Info

Product

Resources

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Assessment of the Changes in 9L and C6 Glioma pO₂by EPR Oximetry as a Prognostic Indicator of Differential Response to Radiotherapy