Erdoğan Kara scite author profile

Macroautophagy (autophagy) is an evolutionarily conserved recycling and stress response mechanism. Active at basal levels in eukaryotes, autophagy is upregulated under stress providing cells with building blocks such as amino acids. A lysosome-integrated sensor system composed of RRAG GTPases and MTOR complex 1 (MTORC1) regulates lysosome biogenesis and autophagy in response to amino acid availability. Stress-mediated inhibition of MTORC1 results in the dephosphorylation and nuclear translocation of the TFE/ MITF family of transcriptional factors, and triggers an autophagy-and lysosomal-related gene transcription program. The role of family members TFEB and TFE3 have been studied in detail, but the importance of MITF proteins in autophagy regulation is not clear so far. Here we introduce for the first time a specific role for MITF in autophagy control that involves upregulation of MIR211. We show that, under stress conditions including starvation and MTOR inhibition, a MITF-MIR211 axis constitutes a novel feed-forward loop that controls autophagic activity in cells. Direct targeting of the MTORC2 component RICTOR by MIR211 led to the inhibition of the MTORC1 pathway, further stimulating MITF translocation to the nucleus and completing an autophagy amplification loop. In line with a ubiquitous function, MITF and MIR211 were co-expressed in all tested cell lines and human tissues, and the effects on autophagy were observed in a cell-type independent manner. Thus, our study provides direct evidence that MITF has rate-limiting and specific functions in autophagy regulation. Collectively, the MITF-MIR211 axis constitutes a novel and universal autophagy amplification system that sustains autophagic activity under stress conditions.

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Endoscopic evaluation of middle ear anatomic variations in autopsy series: analyses of 204 ears

Şahin

Orhan

Aslıyüksek

et al. 2020

Brazilian Journal of Otorhinolaryngology

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Determining the number and distribution of intraparotid lymph nodes according to parotidectomy classification of European Salivary Gland Society: Cadaveric study

et al. 2020

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Background: To investigate the distribution of the parotid gland's intraglandular lymph nodes using the parotidectomy zones determined by the parotidectomy classification of the European Salivary Gland Society (ESGS). Materials and Methods: A total of 128 parotid glands were dissected from 64 fresh cadavers, by bilateral parotidectomy without additional incision within the standard autopsy procedure, and categorized. Results: Eighty-six percent of the IGLNs were located in the superficial lobe and 14% in the deep lobe. An average of 7.09 ± 3.55 IGLNs were found for each of the gland; there were 6.11 ± 3.28 in the superficial lobe and 0.98 ± 1.46 in the deep lobe. While the most common lymph nodes were found in level 2 with 47.7%, only 5% of IGLNs were at level 4. According to the proposed modification, the most common lymph nodes (35.24%) were located at level 2B. Conclusion: Level 2B was found to contain significantly more lymph nodes than other levels, which has not been evaluated before in literature.

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Incidentally Detected Lithopedion in an 87-Year-Old Lady

Gürler¹,

Daş²,

Gitmiş³

et al. 2016

Am J Forensic Med Pathol

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A lithopedion is a rare complication of pregnancy that occurs when a fetus in an intraabdominal location dies, and it is too large to be reabsorbed by the body. The case was an 87-year-old woman, and she was transferred to the morgue department in April 2014 to determine the cause of death. During autopsy, an intraabdominally located calcified dead fetus and a 12-cm diameter calcified cyst in the right ovary were incidentally detected. It was aged 25 to 29 weeks (according to femur and humerus measurements) with a size of 12.5 × 8 × 5 cm and a weight of 227 g. According to investigation reports, her husband died in 1990, and she had 3 deliveries, the most recent of which was in 1946. Because the menopause age of the case was not exactly known, the retention time of the lithopedion was supposed to be 24 to 68 years according to the date of the most recent pregnancy and the date of her spouse's death. It is the first case that has been incidentally detected and identified during an autopsy in Turkey and also one of the oldest cases in the literature.

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Use of Autopsy to Determine Live or Stillbirth: New Approaches in Decision‐support Systems

Yılmaz

Erkaymaz

Kara³

et al. 2016

Journal of Forensic Sciences

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Fetal deaths are important cases for forensic medicine, as well as for criminal and civil law. From a legal perspective, the determination of whether a deceased infant was stillborn is a difficult process. Such a determination is generally made during autopsy; however, no standardized procedures for this determination exist. Therefore, new facilitative approaches are needed. In this study, three new support systems based on 10 autopsy parameters were tested for their ability to correctly determine whether deceased infants were alive or stillborn. Performances were analyzed and compared with one another. The artificial neural networks and radial basis function network models had 90% accuracy (the highest among the models tested), 100% sensitivity, and 83.3% specificity. Thus, the models presented here provide additional insights for future studies concerning infant autopsies.

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Erdoğan Kara

MITF-MIR211 axis is a novel autophagy amplifier system during cellular stress

Endoscopic evaluation of middle ear anatomic variations in autopsy series: analyses of 204 ears

Determining the number and distribution of intraparotid lymph nodes according to parotidectomy classification of European Salivary Gland Society: Cadaveric study

Incidentally Detected Lithopedion in an 87-Year-Old Lady

Use of Autopsy to Determine Live or Stillbirth: New Approaches in Decision‐support Systems

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