Manoj T. Abraham scite author profile

Hypothesis-Increased cell motility is a hallmark of cancer cells. Proteins involved in cell motility may be used as molecular markers to characterize the malignant potential of tumors.Methods-Molecular biology and immunohistochemistry techniques were used to investigate the expression of a selected panel of motility-related proteins (Rho A, Rac 2, Cdc42, PI(3)K, 2E4, and Arp2) in normal, premalignant, and squamous cell cancer cell lines of human head and neck origin. To assess the clinical potential of these proteins as molecular markers for cancer, immunohistochemistry was performed on paraffin-fixed head and neck cancer specimens (n = 15).Results-All six motility-associated proteins were overexpressed in the premalignant and squamous cell cancer cell lines relative to normal keratinocytes. Immunohistochemistry with Rho A and Rac 2 showed increased staining in areas of cancer but not in normal tissue.Conclusion-Proteins involved in cell motility can be used as markers for head and neck squamous cell carcinoma. The head and neck cell lines used in this study may be used as a model to further investigate cell motility. Molecular markers of motility could have a significant impact on the diagnosis and staging of cancers originating from differentiated non-motile cells.

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Current Concepts in Nonablative Radiofrequency Rejuvenation of the Lower Face and Neck

Abraham

Ross

2005

Facial Plast Surg

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With the multitude of treatment options and emerging technology available for rejuvenation of the lower face and neck, it is often difficult to determine which specific treatment would benefit an individual patient. Monopolar radiofrequency (MRF) nonablative skin rejuvenation is a promising new procedure that is utilized to tighten and contour nonsurgically mild to moderate laxity of the skin of the lower face and neck in patients without significant underlying structural ptosis. In these selected patients and others who wish to avoid surgical treatment modalities, MRF treatment offers a noninvasive method of tightening skin and soft tissue, causing softening of the nasolabial lines, tightening of the jowl, and improving the definition of the cervicomental angle, all without significant recovery time or complications. Further development of MRF technology and refinement of treatment protocols may allow even greater tightening of the skin and more dramatic modulation of underlying deeper structures, making the treatment more universally applicable for patients desiring facial rejuvenation.

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Clinical evaluation of non-ablative radiofrequency facial rejuvenation

Abraham¹,

Chiang

Keller

et al. 2004

Journal of Cosmetic and Laser Therapy

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2E4 (Kaptin): A novel actin-associated protein from human blood platelets found in lamellipodia and the tips of the stereocilia of the inner ear

Bearer

Abraham

1999

European Journal of Cell Biology

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Actin -2E4/kaptin -platelet activation -stereocilia -sensory epithelium-Platelet activation, crucial for hemostasis, requires actin polymerization, yet the molecular mechanisms by which localized actin polymerization is mediated are not clear. Here we report the characterization of a novel actin-binding protein. 2E4, originally isolated from human blood platelets and likely to be involved in the actin rearrangements occurring during activation. 2E4 binds to filamentous (F)-actin by F-actin affinity chromatography and is eluted from F-actin affinity columns and extracted from cells with ATP. Its presence at the leading edge of platelets spread on glass and in the lamellipodia of motile fibroblasts suggests a role in actin dynamics. Using localization to obtain clues about function, we stained the sensory epithelium of the embryonic inner car to determine whether 2E4 is at the barbed end of actin filaments during their elongation. Indeed, 2E4 was present at the tips of the elongating stereocilium. 2E4 is novel by DNA sequence and has no identifiable structural motifs. Its unusual amino acid sequence, its ATP-sensitive actin association and its location at sites of actin polymerization in cells suggest 2E4 plays a unique role in the actin rearrangements that accompany platelet activation and stereocilia formation.

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Manoj T. Abraham

Complications of Type I Thyroplasty and Arytenoid Adduction

Motility‐Related Proteins as Markers for Head and Neck Squamous Cell Cancer

Current Concepts in Nonablative Radiofrequency Rejuvenation of the Lower Face and Neck

Clinical evaluation of non-ablative radiofrequency facial rejuvenation

2E4 (Kaptin): A novel actin-associated protein from human blood platelets found in lamellipodia and the tips of the stereocilia of the inner ear

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